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Table of Contents
How much does it cost to get a tennis racket restrung?
The average cost to restring a tennis racket is $40, but it can range from $15 to $75. Costs are split between labor ($10-25 per racket) and strings ($2-50 per set). Players should string their racket as many times per year as they play per week. Stringers can be found at your local club, sports shops, or online.
How much does it cost to string a tennis?
All in all, expect to pay about $10 to $20 for the labor. So depending on your string choice, you may end up paying from $15 to $70 to have your racquet strung. But for most people, the costs will be in the $30 to $40 range, give or take.
Where can I get my tennis strings replaced?
Whether you’re looking for tennis racquet stringing or service on a different style of racquet, the Racquet PROS at DICK’S Sporting Goods are certified to perform custom stringing on your new purchase or restring your trusted racquet to get it back in shape.
Can I restring my tennis racket myself?
If your tennis racquet is old or damaged, you can re-string it without having to buy a new racquet. If you don’t play tennis that often, it’ll be cheaper to pay someone to restring your racquet. However, if you play tennis several times a week, it might be worth investing a few hundred dollars in a stringing machine.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
Article overview
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If your tennis racquet is old or damaged, you can re-strung it without having to buy a new racquet. If you don’t play tennis that often, it’s cheaper to pay someone to restring your racquet. However, if you play tennis several times a week, investing a few hundred dollars in a stringing machine can be worthwhile. Nylon is the cheapest and most popular string, but you can also buy polyester, kevlar, or natural gut strings for a more professional feel. After cutting off the old strings with a sharp knife, mount your racquet in the machine and thread the new strings. Start with the vertical strands, then weave the horizontal strands below and above. For more tips from our tennis co-author, including choosing your stringing pattern, read on!
How long should tennis strings last?
Fabian’s rule of thumb is that you should change your strings as many times in a year as you play in a week. In other words, if you play three times a week, you should have your racket restrung three times a year.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
The problem is that failing to change strings often enough can be detrimental to a player’s game and health. “Most people underestimate the effect a leftover string has on their game and their body,” says Dennis Fabian, Global Business Manager of HEAD’s Accessories Division.
How often does a tennis racket need to be restrung?
As a general rule you should re-string each year as often as you play per week. If you play twice per week, you should restring your racket twice per year. All strings gradually stretch and lose their resiliency or go dead, even if you play infrequently.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
As a rule of thumb, you should restring as many times per year as you play per week. If you play twice a week, you should restring your racquet twice a year. All strings will gradually stretch and lose tension or go dead, even if you rarely play. When this happens, start swinging harder, gripping the racquet tighter to get the same results with the ball.
Swinging harder and gripping tighter makes control more difficult, fatigue sets in early and can even contribute to tennis elbow. fresh strings will help your racquet play the way it was intended. If you have questions about racquets or re-stringing please visit the Aspen Hill Pro Shop. Tim will be happy to help you. Tim is a member of USRSA, a Master Racket
Technicians, the Yonex National Stringing Team, and the USPTR.
Is it worth restringing a tennis racquet?
As we mentioned earlier, the general rule of thumb for restringing a tennis racket depends on how much you play per week. If you play 3 or 4 times a week, then you should consider replacing its strings at least 3 to 4 times per year. New strings will ensure high-quality performance.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
With all the re-stringing, would it be better to just buy a new racquet? Let’s compare that today. Over time and with play, strings lose their elasticity, so it’s important to know if you need to replace or re-string them when they start to negatively affect your movements on the court.
restringing
As previously mentioned, the general rule of thumb for restringing a tennis racquet depends on how much you play per week. If you play 3 or 4 times a week, consider changing the strings at least 3 to 4 times a year.
New strings ensure quality performance. Since your power and control on the court is highly dependent on the tension of the strings, keeping it up to date is crucial.
Most avid players have at least two racquets in their bag – having a backup nearby is crucial. What if a string breaks? Well, that’s just one more reason to make sure your frames are re-strung with fresh strings as often as needed. And sometimes you can tell it just by looking at it. If they’re looking a little shabby, frayed or sagging, that’s a clear sign it’s time to re-string them.
Often you will even be able to feel or even hear the difference in your swing. If either one doesn’t seem right, that’s another sign it’s time to pull the strings.
Substitute
How do you know when it’s time to buy something brand new instead of investing in new strings? Well, that’s really up to the player!
Upgrading your racquet
As you move up the ranks, you may want to start buying a more advanced racquet. Many kids start out with youth racquets that are made for beginners, so it’s in their interest to get a better design to keep their game on track. And sometimes you might not just want to re-string your current racquet, you might want to buy a new one as a backup.
Extending racquet life
The life expectancy of your racquet varies. But there are a few key signs to look out for that will tell you when it’s time to start buying a new one. Sometimes re-stringing is not enough as the problems can be in the grip or in the frame itself. In fact, if you re-string your racquet and end up not feeling a difference in your swing, it’s time to go shopping.
The post-stringing also affects the frame. So the more you re-string, the heavier the toll your frame takes. But you can have the grommet strip replaced when you re-stretch, which will help extend the life of your racquet without having to buy a whole new one too soon.
What is the best tennis string?
- Solinco Hyper-G Heaven – Best overall.
- RPM Blast Black 17g – Best for spin.
- Luxilon Big Banger Alu Power Rough 125 Silver – Most durable.
- Wilson NXT Comfort – Best for tennis elbow.
- Head Synthetic Gut – Best beginner string.
- Wilson Synthetic Gut Power.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
In this best tennis strings rating guide, we show you the 9 best strings on the market and how to choose the perfect string for your game.
We analyzed and ranked each option on our list based on several factors including: price, durability, comfort, control, feel and performance.
Our goal is to teach you everything you need to know about tennis strings and help you find the string that works best for you. Whether you’re a hard-fought, intermediate tennis player or a beginner just starting out, we’ve reviewed a tennis string for you below.
Before we take a closer look at each string below, here is our list of the 9 best tennis strings.
Best tennis strings by category
While tennis strings come in a variety of styles and types, these three standout strings are our picks for the best spin, durability, and all-around playability.
Best Overall String Solinco Hyper-G Heaven The best string for players of all skill levels looking to maximize spin, power, durability and control. Best String for Spin RPM Blast Black 17g The best string for players of all skill levels looking for the perfect blend of spin and comfort. Most Durable String Luxilon Big Banger Alu Power Rough 125 Silver The best string for hard-fought players looking for a durable and powerful string.
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Reviews of the 9 best tennis strings
Below we will review the 9 best tennis strings and include specific characteristics of each string such as:
Shape | How is the string constructed?
| How is the string constructed? fabric | What is the cord made of?
| What is the cord made of? Price | Scale of 1-3 dollar signs.
| Scale of 1-3 dollar signs. Gauge | How thick is the cord?
#1 – Solinco Hyper-G sky
With its boxy shape, Solinco’s Hyper-G offers remarkable spin and control for a polyester string. It is strong in almost all areas of playability and excels in durability and control. While other poly strings can be stiff and lose tension quickly, Hyper-G offers exceptional feel and maintains tension after play. Finally, this is a great alternative for intermediate players looking for an arm-friendly polyester string. As a competitive player struggling with tennis elbow when playing with other polyester strings, Hyper-G helped me recover without sacrificing quality.
Shape | square
fabric | copoly
Price | $
Gauge | 16-20
Pros For a poly, it offers great feel and control and is fairly durable
arm-friendly
Square string design offers spin Cons Lack of power and probably not suitable for beginners
Although better than most polys, the string tension still drops quickly. Buy On Tennis Warehouse
#2 – Babolat RPM Explosion 17g
The octagonal RPM Blast is our pick as the best string for spin. First used by Rafael Nadal in 2010, RPM Blast remains one of the most popular and popular strings among all types of players. While some reviews suggest that players with bigger hits will benefit more from this string, comfort, control and feel are clear strengths that even inexperienced players can fully appreciate. Power isn’t this string’s best attribute, but RPM Blast’s 17 gauge option offers plenty of pop.
Shape | Round
fabric | copoly
Price | $$$
Gauge | 16, 17
Benefits Unmatched spin potential
Also soft on the arm, offers control and comfort
Suitable for all types of players Cons 17g version can break quickly for intermediate and advanced players
Being polyester lacks power
Loses tension quickly which is common with poly strings Buy On Tennis Warehouse
#3 – Luxilon Big Banger Alu Power Rough 125
Despite being our pick for the most durable string on the market, Luxilon’s Alu Power Rough offers much more than just durability. A textured brother to Alu Power, a smooth poly, the “rough” version maintains control while giving the player more spin. A serious contender for even the best players, this string is extremely popular throughout the pro tour. Although its stiffness makes it an unlikely choice for beginners, Alu Power Rough is one of the most popular strings of all time.
Shape | Structured and rough
fabric | polyester
Price | $$$
Gauge | 16, 17
Pros Holds tension well and is extremely durable
Offers great spin and control for a poly
Particularly suitable for high-level players Cons Hard on the arm
It lacks power
Too stiff for most beginners Buy from Tennis Warehouse
#4 – Wilson NXT comfort
Wilson makes some of the best tennis balls and racquets out there, but they also make some great strings.
As a multifilament string with approx. 1600 fibers, this string offers a great combination of power and comfort. Its soft feel makes it our top pick for the best tennis elbow string, and is particularly well-suited for players looking for comfort. As its durability as a smooth multifilament is limited, it is best suited for beginner to intermediate players who rarely break strings.
Shape | Round
fabric | multifilament
Price | $$
Gauge | 16, 17
Benefits Helps players avoid problems like tennis elbow
Great comfort and remarkable performance
Popular with beginners Cons Breaks easily
Doesn’t hold tension well Buy from Tennis Warehouse
#5 – Head Synthetic Gut
This nylon (or synthetic gut) string is a well-rounded string for beginners who value value for money. Head Synthetic Gut is a good choice for players who want decent feel and power from their string. While not as popular as the other options on our list, this is a solid all-around string that doesn’t cost too much.
Shape | Round
fabric | Nylon (synthetic gut) and multifilament
Price | $
Gauge | 16
Pros Very affordable
Decent feel and power
Great for newer players
Multiple color options Cons Not ideal for intermediate players Buy from Tennis Warehouse
#6 – Wilson Synthetic Gut Power
Wilson’s Synthetic Gut Power is an all-round string that combines the durability and control of synthetic gut with power. Surrounded by high-energy wraps, the string gives lots of action on the ball and avoids the main problem of synthetic guts, which is lack of power. One of the cheapest strings on our list, it’s perfect for players who don’t string very often or want to save money on strings.
Shape | Round
fabric | Nylon (synthetic gut)
Price | $
Gauge | 16
Advantages Relatively high power for a synthetic gut string
arm-friendly
Inexpensive compared to other top brands. Cons Lack of spin and feel
Not ideal for intermediate players Buy On Tennis Warehouse
#7 – Babolat VS Touch
Dubbed Original Natural Gut, the latest version of Babolat VS Touch combines the original properties of natural gut, such as stability, control and spin, with the new BT7 and Thermogut technologies. Babolat claims that the BT7 treatment increases the string’s longevity and durability, making it nearly 60% more resistant to moisture. Overall, this string gives players plenty of power and tries to alleviate durability issues. Unsurpassed in feel, this string is popular with all types of players.
Shape | Round
fabric | polyester
Price | $$$
Gauge | 16
Benefits BT7 treatment increases durability
Amazing feel, power and spin
Popular with all types of players Cons Expensive for non-competitive players Buy On Tennis Warehouse
#8 – Tecnifibre NRG2 SPL
One of the most comfortable and powerful strings on our list, Tecnifibre’s multifilament NRG2 SPL is resilient and explosive. Using Silicon Pyrogene Lubritec (SPL) to resist abrasion and improve durability, Tecnifibre’s string is great for players looking for a comfortable, powerful and durable string. NRG2 is particularly desirable for players looking to improve their depth and increase their speed.
Shape | Round
fabric | multifilament
Price | $$
Gauge | 16, 17
Benefits Great power
Silicon Pyrogene Lubritec improves durability
Extremely comfortable and supple. Disadvantages Not good for control and spin
The strings often move and often need to be readjusted. Shop at Tennis Warehouse
#9 – Wilson Champion’s Choice Duo
Marketed as Roger Federer’s string, Wilson Champion’s Choice Duo is a perfect balance of natural gut and the rougher polyester. Combining these two fundamental types, this string ranks on all aspects of performance including comfort, durability, power, control and touch. This leads us to conclude that it is the best string for control, although it certainly excels in other categories as well. Overall, it’s a great option for advanced players willing to invest in their game.
Shape | Round
fabric | polyester and natural gut
Price | $$$
Gauge | 16
Pros Best string for control
Blend of gut and poly offers all round excellence
Championed by Roger Federer himself Cons Expensive Buy On Tennis Warehouse
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Properties of tennis strings
Before choosing a tennis string to play with, it’s important to know what characteristics to look for, including the pros and cons of choosing one string over another.
You’ll hear people use terms like poly, multifilament, synthetic gut, and hybrid. What does it all mean? We will understand below.
tennis string material
Strings are usually made from one or a combination of the following materials.
Natural Gut – for advanced users
– for advanced players Nylon – recommended for beginners
– recommended for beginners Polyester – for all types of players
The table below shows the differences between natural gut, nylon and polyester tennis strings. Each type of string has different advantages and disadvantages in terms of spin, control, durability, comfort and price.
Natural Gut Nylon (Synthetic Gut) Polyester Spin & Control 5/5 3/5 4/5 Durability 3/5 4/5 5/5 Comfort 5/5 4/5 3/5 Price $$$ $$$
natural gut
This type of string is actually made from a cow’s intestines and offers the best stability, control and spin of any string you can buy. However, it is less durable than some synthetic strings and is one of the most expensive types of strings.
Because it is expensive, natural gut is typically only used by advanced or professional tennis players. Most club and advanced players use nylon or polyester strings.
nylon or synthetic gut
When people say they play synthetic gut strings, they usually mean nylon. This type of string has more feel and durability than natural gut, but you don’t have as much control.
Most beginners and some intermediate players will play with nylon because it is cheaper than natural gut and is a good material to avoid tennis elbow.
polyester
Polyester tennis strings have grown in popularity over the past few decades and are probably the most commonly used strings among intermediate and advanced players. Also known as “poly”, this string is the most durable type of string you can use. However, it is very stiff and not ideal for people with tennis elbow. Many poly strings are combined with a gut string to increase comfort.
If you are an intermediate club player who frequently breaks strings, consider a polyester string.
Composition of tennis strings
When manufacturers make a tennis string, it can be made in a variety of ways.
monofilament string
A monofilament string is made from a strand of material. If you examine its profile closely, you will see that it consists of a single solid core. This is how most poly strings are constructed.
Monofilament strings, popular among intermediate players, have high durability and control, but typically lack comfort, power, and feel.
multifilament string
A multifilament string, as it sounds, is made up of multiple strands of material. These strings are usually made of nylon, polyester, or a combination of both. Multifilament strings are often made from hundreds or thousands of fibers woven together.
These strings offer better feel and comfort for players with tennis elbow, but typically fray and break more easily than monofilaments.
Composite string and co-poly string
Occasionally a string will have a monofilament core but with an outer layer that is a multifilament string. This is called a composite string. Similarly, a co-polyester string is primarily polyester but contains additional materials.
Co-poly strings are becoming increasingly popular and some of the picks on our list above are co-poly.
Structured String
In recent years, many string manufacturers have started making textured strings. If you cut a textured cord and look closely you would see that they don’t have a round profile at all. Instead, they are edged to help the string grab the ball and increase spin. Textured strings are often hexagonal, octagonal, or twisted.
To add even more spin to your groundstrokes, consider the Topspin Pro. It is one of the best tennis training aids on the market.
tennis string gauge
The gauge of a tennis string refers to its thickness. String gauges range from 15 to 19, with 15 being the thickest. As you increase your strength, you gain more spin and power, but lose control and durability. The most commonly used string gauges are 16 and 17 respectively. Source: Tennis Warehouse
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How to choose a tennis string
You can spend dozens of hours trying to figure out which tennis string is best for you. As a player, you have to go through hundreds of options like string type, tension, gauge and brand.
There isn’t just one universal string, and to choose a string that’s right for your game and needs, you need to decide what factors (comfort, power, feel, etc.) are most important to you. In the following sections we’ll help you through every step of the process so you can choose the perfect string for your game!
Do you want comfort and feel or durability and control?
The first step in choosing a tennis string is to decide what qualities are important to you.
For many beginners and advanced players, comfort and feel are particularly important. If you’re a player who likes to swing freely without as much racquet vibration on contracts, a synthetic gut or multifilament string is probably your best bet. These strings are great for players with arm injuries, such as B. a tennis elbow, and who want a string with maximum comfort.
However, many advanced players, especially those with fast swings, prefer durability, control, and power instead. Especially for players who hit the ball hard and break strings frequently, long-lasting strings can save a lot of money. If you’re one of those players, polyester and co-polyester strings like Solinco Hyper-G and Luxilon Alu Power Rough are perfect for you.
Choosing the Best Type of Tennis String for Your Game
First you need to choose the best string type for your needs. For most players, we recommend one of these options.
Polyester and co-polyester – for advanced players who frequently break strings. These strings are very durable and generate a lot of spin.
– for advanced players who frequently break strings. These strings are very durable and generate a lot of spin. Synthetic Gut – for beginners or intermediate players who want a forgiving string. These strings are good for control and less expensive than other types
– for beginners or intermediate players who want a forgiving string. These strings offer good control and are cheaper than other hybrid strings (a combination of polyester and synthetic gut) – for intermediate and advanced players looking for the control of a synthetic gut combined with the spin and durability of polyester.
Choosing the right string gauge
Most tennis players, from beginners to high-level tennis players, choose a string gauge between 16 and 17. These are the most common gauges because they do the best job of combining durability with power and spin.
So if you’re specifically looking for control and durability, we recommend starting with a 16-string gauge. However, if you’re interested in a bit more power and spin, thinner 17g strings might be a better place to start. After that, if you feel like you need more of something, you can adjust accordingly.
At what tension should I string my racquet?
First, look at your racquet. All of the best tennis racquets have a manufacturer-recommended tension range. You can usually find it on the inside of the neck or on the outside of the frame. It’s usually in the 10 lb range. For example, 55 lbs +/-5 would mean 50 to 60 lbs.
Once you have reached the recommended tension, consider which string to use.
If you’re using a polyester, we recommend starting at the bottom of this recommendation.
, we recommend starting at the bottom of this recommendation. With a synthetic gut, start in the mid to high range.
While some strings naturally offer more power and others emphasize more control, you can control these factors by stringing your racquet tightly.
In short, when it comes to string tension, lower tension gives a player more power, while higher tension increases control.
For example, if you’re playing with a poly string like Babolat RPM Blast, which has more control than power, you can string it looser to generate more power. If you want more control, tighten the string with a higher tension in the same way. This is the best way to subtly manage the pros and cons of each string.
Conclusion: Our pick for the best tennis string
With hundreds of choices on the market, it can be difficult to determine the best tennis string for you. There are many factors to consider when choosing a string, and depending on your game and skill level, some may be more important than others. Things like control, power and durability might be more important for serious and intermediate players, while price, comfort and feel might be more important for advanced players or beginners.
Our pick for best overall tennis string is Solinco Hyper-G Heaven. It combines performance, control, durability and affordability. It’s a string that suits players of all skill levels and has everything you need to play your best tennis!
How long does it take to restring a racket?
The stringing process takes about 15 minutes per racket and is then stamped with the famous Wilson logo and returned to the players. In a pinch, the stringers say they can string a racket in as fast as 11 minutes. They expect to set a record this year, stringing 500 rackets in one day.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
“Most guys in this room are going to string 35 to 40 racquets a day,” said Todd Mobley, an Atlanta stringer who is on his 8th U.S. Open works.
Becoming a Wilson stringer at the tournament is no easy task. Stringers are selected from all over the world and even come from Japan, Australia and Argentina.
The stringing process takes approximately 15 minutes per racquet and is then stamped with the famous Wilson logo and returned to players. In a pinch, stringers say they can string a racquet in as little as 11 minutes. They expect to set a record this year and string 500 racquets in one day.
Jessica Gold | CNBC
How quickly do tennis strings lose tension?
TENSION LOSS. The most commonly discussed phenomenon of string performance is that all strings lose tension from the second they are put into the racquet — up to 15 pounds in one minute. Polyester loses more than nylon which loses more than gut. Strings stabilize quickly after the few first minutes.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
Given these hypotheses, we set out to find out what happens to a string such that the “backlash” phenomenon can include seemingly contradictory statements that the string has too much power, is stiffer, and injures the player’s arm.
A side effect of the lateral movement of the main string is that it softens the feel of the string bed. If the net moves less easily or not at all, the impact shock will feel greater. Another good candidate for string death.
The other defining feature of the poly is its spin potential. The added spin of polyester comes from the lateral movement and snapback of the main strings. Decreasing the efficiency of this glide and snapback would reduce spin and would certainly count as “dead motion”. The string bed works in two planes, perpendicular and parallel to the racket head. Most players are more familiar with the vertical performance and describe their stringbed perceptions in terms of this conceptual vocabulary. But with the advent of widespread use of polyester, events on the stringbed have become more obviously three-dimensional, and our descriptions and research will evolve to reflect that fact.
We start by asking what makes a poly a poly in terms of performance. Most players agree that its distinctive feature is that it’s dead – it’s stiff, deforming the ball more and losing more energy as a result. The player can therefore swing each ball without hitting it over the fence and feels like they have more control. So getting even deadlier in terms of power delivery is probably not what the player feels when they say the strings are dead. Instead, the opposite is true – the strings lose their deadness and get stronger, or at least the ball keeps moving and the player feels like they’ve lost control and the string has taken over.
At impact, the only information the player has is the shock and vibration at the grip. The player feels that. He then interprets and describes the sensation of that feeling. Additional information also contributes to the interpretation – the sound, where did the ball land, what was the trajectory like and did I win the point, the game, the match? These considerations point to two directions in which to look for an answer—which changes to a string will change (a) the strike signal to the player and (b) the string’s performance on the court. In other words, what happens to a string to change the forces felt and/or the speed, spin and angle of rebound from the racquet?
It is often tempting to dismiss many such descriptions as imaginary, as they sometimes contradict scientific research. But tennis players are a finely tuned bunch, and when they say something has changed in stringbed or racquet performance, they’re usually right, even if their descriptions of what’s happening end up being missed or wrong. After all, how can two completely opposite descriptions of a dead string be correct? Well, as this research will show, it appears they can.
These are strange and contradictory descriptions of the dead strings. Some players experience too much string action and others experience a complete loss of string action. And these opposing opinions can be on the same string. Players can agree on how a string feels when it’s freshly strung, but disagree on how it feels after a match or two. Presumably, string properties change the same way with repeated hits for all players with a similar playing style, whether experienced in the same way or not.
Tennis players often complain that a tennis string, especially a polyester string, “goes dead”. It is generally described as occurring after 2-20 hours of gameplay. This phenomenon has different and often conflicting descriptions. Some of the descriptions are these:
THE EXPERIMENTS
The following tests were performed on nylon and polyester strings:
Repeatedly striking a single string with a pendulum hammer to measure changes in tension, stiffness, peak force, stroke excursion, and duration.
Repeated hits on a strung racquet by dropping a 20-pound kettlebell from a height of approximately 10 inches and then measuring the speed, spin and angle of high-speed ball rebound.
Hitting a strung racquet with a “stack driver” hammer to measure the peak force of the string bed and the duration of hitting after repeated hits.
Measurements of racquet vibration frequency after shots.
Coefficient of static friction between strings after repeated sliding under pressure.
Coefficient of sliding friction between strings after repeated sliding under pressure.
RESULTS
1A pendulum hammer tests
Several nylon and polyester strings were selected to obtain a range of scores for each string property. More polyester strings were tested as it is far more common to hear that polyester strings are dead compared to other materials. Consequently, the nylon strings were used as the baseline. The strings are shown in Table 1:
Table 1
Tested strings with Pendulum Hammer Brand String material Reference Tension (lb) Number of strokes Babolat RPM Team 16 Polyester 62 800 Dunlop Black Widow 16 Polyester 62 800 Gamma TNT Touch 16 Nylon 62 800 Gamma TNT2 16 Nylon 62 4000 Cherry Pro Line X 16 Polyester 62 800 L-Tec Premium 3S 17 (1.25) Polyester 62 800 Luxilon 4G 16L Polyester 62 7000 Luxilon Big Banger 16 Polyester 62 4000 MSV Focus Hex 17L (1.18) Polyester 62 5500 Polyfibre TCS 1.30 Polyester 62 2000 Prince Syn Gut Original 16 Nylon 62 4000 Prince Tour 16 Polyester 62 3000 Solinco Tour Bite 16 Polyester 62 9000 Tecnifibre NRG2 16 Nylon 62 2000 Tourna Big Hitter Black 7 17 Polyester 62 3000 Wilson NXT 16 Nylon 62 3500 Table 1 – Strings tested with pendulum hammer.
The strings were tensioned to 62 pounds. As shown in Figure 1, a pendulum hammer, weighted to produce a peak force equivalent to that encountered during a 120–140 mph impact on a single string, was lifted and released in multiples of 100, 500, or 1000 repetitions. After each set, another hit was performed to measure tension, peak force, longitudinal and lateral stiffness, hit duration, and string deflection. Not all strings have been tested equally. Some were affected only 800 times, others up to 9,000 times.
Figure 1 – Structure of the pendulum test. The load cell and photocell are connected to an oscilloscope where changes in voltage, string deflection and time are displayed. This information is used to calculate longitudinal and lateral stiffness, peak force and energy return.
LOSS OF VOLTAGE. The most talked about phenomenon of string performance is that all strings lose tension the second they are placed in the racquet – up to 15 pounds in a minute. Polyester sheds more than nylon, which sheds more than gut. Strings stabilize quickly after the first few minutes. But they lose a lot of tension in the first few hits, up to 20 pounds in 20 hits on the test machine. But here, too, they are stabilizing somewhat. But even after losing 20-35 pounds before a game, stiffer polyester strings can create a stiffer stringbed than softer nylon strings, which only lose a few pounds. None of this temporary loss of tension is that important. The most important thing is how the string feels when you start playing and, if you like that feel, how long the string keeps that feel.
What is important is how the string changes after it has been played in. We were interested in what happens to the string after 100 test hits. At this point, most strings have reached their stabilized rate of degradation. Figure 2 shows how the tension decreases as the number of hits increases.
Figure 2 – Absolute change in tension after the first 100 beats. The reference tension for all strings was 62 pounds. Each string had a different tension after the 100 beat break-in period.
Figure 2 clearly shows the different initial tensions after being cocked to 62 pounds and then hit 100 times. The range of tension difference is about 30 pounds for 100 hits and about 40 pounds for the projected 10,000 hits. This is an exceptional difference from strings that all started at the same tension. But does it matter?
Maybe it’s not the absolute change in voltage that matters, but the rate of change? The different rates of voltage drop are not fully apparent from Figure 2 – the curves all look almost parallel to each other. Figure 3 corrects this and shows the percentage change in tension of each string relative to its own tension at 100 beats. Each string starts at 100%, although the absolute value at which they start can be radically different due to all the preliminary tension losses described above in Figure 2.
Figure 3 – Percent tension change after stringing and break-in.
While Figure 2 highlights the absolute stresses but not the degree of stress change, Figure 3 shows the degree of change relative to the initial stress at 100 beats. The strings are in the same order in both diagrams, but Figure 3 shows a greater separation between the strings in their relative tension loss – perhaps 2-3 separate clusters.
But a string that starts at 50 pounds and loses 5 pounds loses 10% of that tension and a string that starts at 10 pounds and loses the same 5 pounds loses 50%. Can the same 5 pounds feel radically different to a player depending on their initial tension? The answer is that what you perceive as stringbed firmness depends on both the string property known as stiffness and tension. So the feeling of dropping 5 pounds depends on the stiffness of the string dropping the 5 pounds.
STIFFNESS. We are concerned with two types of dynamic (shock) stiffness – longitudinal (k) and perpendicular (k p ). We measure longitudinal stiffness as the force required to stretch a string of a given 1 inch (lb/in) length:
F = kx
where F is the longitudinal force along the string, x is the strain, and k is the longitudinal stiffness. In a string, the force is the increase in tension. Solving for longitudinal stiffness we get:
k = F/x
The more you stretch a string, the more force is required for each additional stretch, and the string supposedly becomes stiffer. But some strings require more force for each additional stretch than others. In other words, the more an impact stretches a given string, the higher the stress will be during the impact, and it will be higher with stiffer strings.
Perpendicular stiffness is measured as the force required to push a stretched string 1 inch sideways:
F p = k p y
where F p is the perpendicular force, y is the deflection and k p is the perpendicular stiffness. Solving for perpendicular stiffness we get
k p = F p /y
These stiffness formulas look very similar, but as we’ll see, they give very different numbers. (NOTE: See Appendix A for more explanation of longitudinal and lateral stiffness.)
So the question is whether a change in either type of stiffness will cause the string to die. Figure 4 shows the change in longitudinal stiffness with decreasing stress (i.e. with increasing impact).
Figure 4 – Change in longitudinal stiffness with decreasing stress (i.e. with increasing impacts).
It can be seen from Figure 4 that for all strings measured, the polyester strings are equally stiff or stiffer than the nylon strings at any longitudinal tension. This is important because nylon strings aren’t typically described as dead, so they serve as a kind of baseline. Remember, all of that tension is the result of originally pulling the tension to 62 pounds and then hitting it 100 times.
Figure 5 shows the change in lateral stiffness with decreasing stress.
Figure 5 – Change in lateral stiffness with decreasing stress (i.e. with increasing impacts).
Figure 5 shows a completely different picture compared to Figure 4. The polyester strings (all not in the “Nylon” box) have the same or less transverse stiffness than the nylon strings. It takes less force to move these strings sideways a given distance than nylons. This is very interesting. These strings are easier to deflect than the nylons, and when the tension is released they become even easier. This is despite being inherently stiffer longitudinally at all tensions. They are more difficult to stretch but less difficult to deflect than the nylons.
DEFLECTION AND DWELL. Does this show up in our deflection measurements? Does the deflection for each string increase as the tension decreases? Figure 6 shows that this is the case.
Figure 6 – Change in deflection with decreasing stress (i.e. with increasing impacts).
Figure 7 shows the same for dwell time vs. voltage.
Figure 7 – Change in dwell time with decreasing stress (i.e. with increasing strokes).
Figure 6 shows that although virtually all polyester strings have less tension than nylon strings, half deflect about the same amount as nylon and half deflect more. Figure 7 shows a similar phenomenon for dwell time: half of the polyesters have about the same dwell time and the other half have a longer dwell time than the nylons. What does that mean? A longer dwell time means that the ball stays on the strings a greater distance of the hitting arc, thereby launching with a higher and/or wider trajectory. And more stringbed deflection could further change the rebound angle depending on where on the stringbed you make contact. Together, greater deflection and dwell time can cause the ball to fly longer and wider, depending on the horizontal and vertical arc of the shot at impact. Then your controller may be dead.
Figure 8 shows a very dramatic relationship between lateral stiffness and residence time. As transverse stiffness decreases, residence time begins to increase more and more rapidly. Perhaps a player can feel this extra dwell time or notice the longer, wider, higher trajectories associated with it.
Figure 8 – Change in dwell time with decreasing transversal stiffness.
So we seem to have evidence that changing string characteristics can lead to flying balls, loss of control and too much power as many players have complained about. One facet of string dieback is that control falls off due to increased dwell time and the resulting change in launch angle. Polyester’s magic of taking power from punches and returning it to the player’s punch is dead. Its deadness is dead.
(NOTE: See Appendix B for “fingerprint” plots of all parameters of each string.)
If low tension and vertical stiffness are the necessary conditions for “going dead” syndrome, does that mean that strings that stay above an absolute threshold of tension and stiffness don’t or can’t go dead? That can’t be because many higher tension strings are also supposed to be dead. We have only identified one way of dying. There needs to be more to explain the scope of strings that are marked as such and why they do so. Next we will analyze the rebounds of a fully strung racquet to see if we can find changes in string parameters that result in changes in performance (i.e. speed, spin and rebound angle).
1B. Racquet and kettlebell test
A Wilson Pro Staff Six.One 100 was strung at 52 pounds with Dunlop Black Widow 16, Polyfibre TCS 16 and Solinco Tour Bite 16. A Wilson Steam was strung at 52 pounds and tested with Solinco Tour Bite 16. Each setup was subjected to hits with a 20-pound kettlebell dropped from about 10 inches. After each group of hits, scissors were used to move the strings back and forth to simulate lateral string movement wear that was not seen with the vertical kettlebell drops. Scissors were placed in five adjacent string squares and opened 50 times, moving each string 100 times in the striking area. The combination of the kettlebell drops and the scissor motion was designed to outperform the normal impact of a ball, thus accelerating any possible property changes. However, the string movement was not performed under perpendicular loading, as that would be the case in an impact and therefore may not have had the desired effect. Screens 1 and 2 show the techniques for hitting the racquet and moving the strings.
movie 1
Racket Stroke Technique > << >> [] Big Screen 1 — Kettlebell Drop.
movie 2
String Movement Technique > << >> [] Movie Screen 2 — Technique for simulating string movement and wear.
After each series of kettlebell drops and scissors, balls were shot at the hanging racquet to measure rebound speed, spin and angle. The goal was to observe any change in performance characteristics due to repeated impacts. Because the speed, spin, and angle of balls fired from a ball machine vary slightly from shot to shot, these input parameters have been normalized (method described in the Spin and Material article) to be the same for a given racquet . Each racquet has been normalized separately because we are interested in performance changes for a specific racquet, not between racquets. About 15 balls were fired and measured after each series of kettlebell drops. Table 2 shows the average results.
Racquet Brand String Number Beats Speed In (mph) Spin In (rpm) Angle In (degrees) ACOR Spin Out (rpm) Angle Out (degrees) Wilson Pro Staff 100 Dunlop Black Widow 16 1 50.3 334 26.1 .403 1455 34.1 Wilson Pro Staff Six .One 100 Dunlop Black Widow 16 800 50.3 334 26.1 .375 1505 36.3 Wilson Pro Staff Six. A 100 Dunlop Black Widow 16 2000 50.3 334 26.1 .374 1535 37.3 Wilson Pro Staff Six. Six per staff. A 100 Polyfibre TCS 16 500 52.4 445 25.9 .384 1618 36.2 Wilson Pro Staff Six. A 100 polyfibre TCS 16 1500 52.4 445 25.9 0.393 1603 36.0 Wilson Pro Staff Six.one 100 Polyfibre TCS 16 2500 52.9 0.393 1618 35.4 445 25.9 0 Wilson 100 Solinco Tour Bite 16 1 52.8 351 28.3 .417 1757 37.7 Wilson Pro Staff Six.One 100 Solinco Tour Bite 16 300 52.8 351 28.3 .423 1666 36.6 Wilson Pro Staff Six.One 100 Solinco Tour Bite 35 1.30 28.3 .424 1693 36.8 Wilson Pro Staff Six.One 100 Solinco Tour Bite 16 1800 52.8 351 28. 3 .419 1730 37.2 Wilson Pro Staff Six.One 100 Solinco Tour Bite 16 3000 52.8 351 28.3 .425 1697 37 .3 Wilson Pro Staff Six.One 100 Solinco Tour Bite 16 4000 52.8 351 28.3 .411 1700 37.2 Wilson Pro Staff Six.One 100 Solinco Tour Bite16 3000 37.2 16 5800 52.8 351 28.3 .405 1719 37.1 Wilson Pro Staff Six. One 100 -Turna -Big -Hitter Black 7 17 1 53.2 269 26.2 .376 1394 35.2 Wilson Pro Staff Six.one 100 Tourna Big Hitter Black 7 17 2300 53.2 269 26.2 .357 1452 36.5 Wilson Dampfer 105S Solinco Tour 3 16 1.8 Bite 0.357 25.4 .389 1554 33.8 Wilson Steam 105S Solinco Tour Bite 16 1000 50.8 361 25.4 .393 1559 33.5
Table 2 – Strings tested with kettlebell strikes.
Table 2 shows that performance in each category changed very little due to repeated abuse. At first glance, this seems to say that changes in string properties due to repeated use will not affect performance. Last but not least, we hypothesized that the increased dwell time due to the loss of tension would produce a higher and wider launch angle as the ball stays on the club for a longer swing arc. The data in Table 2 do not contradict this hypothesis. Increased dwell time does not affect the angle of rebound from a freestanding racquet. The racquet does not rotate sufficiently during impact, particularly during the peak power phase, to launch the ball at a different angle. But during a swinging impact, the face of the racquet can move through an angle large enough to alter the ball’s trajectory during impact. We were also unable to measure the dwell time with our high-speed rebound test. To do this, we ran the next test – the “Stack Driver” test.
1C Racket Pile Driver Test
To test if racquet dwell time has actually increased and to see if peak power changes, we ran a “stack driver” test. The racquet was placed horizontally on the table with supports under the toe and neck. The string bed was under a steel bar loaded with about 8 pounds including the bar and fitted with a force gauge connected to an oscilloscope. The shaft hammer should strike 4.5 inches from the inside tip of the racquet, near where the kettlebell and ball impacted. The stick was raised about 14 cm above the racquet and dropped, releasing about 5 joules of energy on impact. The peak force and dwell time of the ram head were measured. This test was done with only one string – Polyfibre TCS 16. Measurements were taken after each series of kettlebell drops described above. The results are shown in Table 3.
table 3
Peak power and dwell time of pile driver after kettlebell drops Club brand String number
Reaches Peak Force
(lb) residence time
(mph) Wilson Pro Staff Six.One 100 Polyfibre TCS 16 1 141 33.5 Wilson Pro Staff Six.One 100 Polyfibre TCS 16 500 135.5 35.72 Wilson Pro Staff 100 Polyfibre TCS 16 1000 136.5 35.75 Wilson Pro Staff Six.One 100 Polyfibre TCS 16 2000 136.5 38.85 Wilson Pro Staff Six.One 100 Polyfibre TCS 16 3000 136.5 37.91 Wilson Pro Staff Six.One 100 Polyfibre TCS 16 4000 138.1 36.73 kettlebell impact.
The results in Table 3 are somewhat confusing. For the first 2000 kettlebell hits, peak power decreased and dwell time increased. This is as you would expect as the tension decreases with the hits and is consistent with our single string tests above. However, at 4000 hits, peak force increased and dwell time decreased. More hits would be required and more strings would be tested to see if it was a reversal or an outlier.
1D Racquet vibration frequency test
As a final test with the fully strung racquet, we measured the vibration frequency of the Polyfibre TCS setup after each series of kettlebell hits. This test was performed to see if there were any changes in vibration that a player could feel when the tension was released, which could be interpreted as string death. As Table 4 shows, there was no change in vibration frequency due to changes in string properties. At least for this one racquet setup, that would argue against the change in vibration as the player’s perceived indication of a property change.
Table 4
Racket Vibration Frequency by Kettlebell Drops Racket Brand String Number
Hits vibration frequency
(Hz) Wilson Pro Staff 100 Polyfibre TCS 16 1 152 Wilson Pro Staff 100 Polyfibre TCS 16 500 151 Wilson Pro Staff 100 Polyfibre TCS 16 2000 152 Wilson Pro Staff 100 Polyfibre TCS 16 3000 154 Wilson Pro Staff 100 Polyfibre TCS 16 4000 152
1E. Coefficient of Friction Tests
One of the hallmarks of polyester strings is the sideways movement and snapback of the main strings. The snapback is the main contributor to the added spin and higher launch angle that polyester provides. The lateral movement will also soften the power parallel to the string bed. The main factor in determining range of motion is the string-to-string friction between the mains and crosses. If this friction is low, the strings will move, and if it is too high, they will not move. For a given impact force, the measure of how much friction there will be depends on the coefficient of friction (COF). This is a measure of all of the factors that cause strings to stick together and prevent motion—atomic attraction, atomic-level fit of adjacent topographies, and relative deformation. Friction between strings comes in two forms – static and sliding friction. Static friction resists initiation of movement between strings, and sliding friction resists and retards movement once initiated. Each has its own coefficient: the static coefficient and the sliding coefficient. The static coefficient is generally larger than the sliding coefficient. The friction formula is
F = µN
where F is the frictional force, μ is the coefficient of static or sliding friction, and N is the normal force perpendicular to the surface, pushing the two surfaces together.
Increasing either or both coefficients would decrease the amount and rate of sideways movement of the main string. This in turn would increase the perceived impact force, stiffen the string plane parallel to the string bed, decrease spin and decrease the angle of impact. In short, the racquet would feel harder, stiffer, less powerful and without spin production – i. H. the other side of the player-reported perception spectrum.
To determine whether or not the COFs changed with repeated use, we both measured using the TWU apparatus developed for this purpose (these are described in the articles “Static Friction and Rotation” and “Sliding Friction and Rotation”). The results are shown below in Figures 9-12. These graphs are more chaotic than the ones above that plot the other string parameters. One reason is that the friction devices were designed to measure friction “out of the box”, which does not require fitting strings into notched grooves when sliding up inclines. As a result, there is more spread in curve fits as strings sometimes “jumped the tracks”. The other part of the mess is that each string seems to respond differently to wear compared to others. It is these different amounts and rates of change that indicate not only the degree of string death, but also that some strings will die sooner or later than others. That’s exactly what players report.
Figure 9 shows the actual static COF versus repetitions and Figure 10 shows the COF as a percentage of the first repetition value. Figures 11 and 12 do the same for the sliding COF. The only difference in the plot is that the curve fits for the static COFs are polynomial fits and they are logarithmic for the moving COFs. These were chosen simply because they best represent the data to see the trends. In addition, the number of iterations for the rolling COF tests was typically lower due to the logistics of the testing process.
Figure 9 – Static COF vs. Reps.
Figure 10 – Percentage of initial static COF versus reps.
Figure 11 – Sliding COF vs. Reps.
Figure 12 – Percentage of starting sliding COF versus reps.
The data shows that both static and sliding COF tend to increase, although for some strings static COF first decreases before increasing. The data also shows that the COF of some strings increases faster than others. The question is, however, at what value of either COF do you start noticing a change in performance? Regardless of this level, it must be assumed that nylon COFs are generally greater than this threshold starting at installation. If so, an increase in COF will not be felt as much with nylon because the strings move so little to begin with. The polyesters, on the other hand, have a low out-of-the-package COF, which allows mains and crosses to slide against each other. Thus, for polyester, a change in COF would be noted that limits this movement.
That being said, the data reveals an anomaly that raises an interesting puzzle. Some nylon strings have some of the lowest static and sliding COFs (these strings were tested with two different sets of strings to confirm the data). This contradicts our understanding that nylon strings do not move and snap back as efficiently as polyester strings. Two hypotheses arise as to why this may be so. First, nylon holds tension better than polyester, so strings in a strung racquet have a higher constant force that compresses the string crossings, increasing adhesion and notching, and as a result restricting movement. Second, the friction rigs used to test the strings only promote notches in the simulated main string and not in the cross string. The cross is instead flattened for the entire distance that the main slide slides over it. Testing so many strings didn’t leave time for the string crossings to remain under pressure for any length of time, thus notching both the mains and crosses. Since softer nylons tend to nick more easily than polyesters, this would tend to affect the COF measurement of nylons more than polyesters. Notch tests must therefore still be carried out.
NOTE: See Appendix C for combined static and sliding COF plots for each string.
CONCLUSION
The data provides evidence to support many players’ speculations about the causes and perceptions of polyester string die. The lower stresses and transverse stiffness of many polyesters result in longer dwell times and greater deflection. This keeps the ball on the racquet for a longer arc, potentially leading to “power” issues if the ball goes deeper, farther, and higher than desired. The decrease in lateral stiffness also contributes to the feeling that the strings are getting “mushy” or behaving like a trampoline. The result is a loss of control. Furthermore, the stroke itself can thus be influenced in order to compensate for the changes in the string.
On the other side of the coin, increasing static and/or sliding coefficients of friction decrease the amount and efficiency of main string lateral movement and snapback. This in turn reduces spin, lowers launch angle and stiffens the string bed parallel to the strings. This is perceived as a loss of power and spin, as well as an increase in stiffness, harshness and pain, especially when the player begins to swing even faster to compensate.
If it just could be that easy. It seems whenever one causal factor acts to increase one performance variable, there is another that decreases that variable. In this case, the tension and perpendicular stiffness decrease with reps, increasing the “power” behavior of the strings, and the reps increase the coefficients of friction, making the strings feel stiffer and less powerful. And then, in another twist, the decrease in tension should also decrease the friction between the strings. The strings thus simultaneously gain and lose in power behavior or in stiffness and softness properties. It is the net effect that determines the player’s perception of string play.
How often should you restring Poly?
Before you get back on the court, you should replace your strings. If you take your game seriously, restring your racket regularly every 10 to 15 hours of play if you use polyester. You can add a couple more hours if you use nylon or multi-fibre string.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
One of the most common questions about tennis strings is how often they should be replaced. It’s a great question that many players don’t pay much attention to. The truth is, strings wear out as you play, losing their elasticity and tension. If left unchanged for too long, they can negatively affect your performance. The first question is: what level are you playing at? If you are a beginner you will tolerate a greater change in string tension than an advanced player. This is because beginners hardly notice any change in string gauge. So if you’re just starting out, a two-month extension might be the right amount of time for you. However, if you’ve been playing for a while, I advise you to change the tension when you step onto the court. Here are some of the top reasons why you should re-string your tennis racquet regularly.
loss of voltage
The first and most obvious reason to replace your tennis strings is that they lose tension over time. The longer the tension in the rocket, the less force tensioning its strings. String tension decreases fastest within the first hour after stretching, and continues to decrease without a single pull. The process speeds up significantly as you start playing the court, hitting the ball repeatedly and increasing the forces on the strings. As a result, after 2 months your strings will have probably lost half of their initial tension. If it’s a single core polyester string, it’s probably even more. The exception is natural gut, which performs best in this regard because it remains flexible and holds tension for a very long time. Before you return to the court, you should replace your strings. If you are serious about your game, re-stretch your racquet regularly every 10 to 15 hours of play when using polyester. You can add a few more hours if you use nylon or multi-fiber strings. When you consider how much money you’re willing to spend on tennis, the following rule of thumb is a safe bet: racquet strings should be changed as many times a year as you play tennis per week. Unless they break sooner.
string performance
When your strings are dead, they begin to lose the performance characteristics you might have originally bought them for.
For example, polyester strings can help a player maximize their topspin potential. However, when they lose their tension, they also lose their elasticity and impact, which is part of how they help players generate topspin. Tension is important for control and impact resistance, elasticity and resistance to tension. By reducing the pulling force, the train dampens vibrations better and becomes more flexible. A “trampoline effect” is created, which simultaneously increases power and reduces control. An increase in power causes back reactions.
Can you restring a racket without a machine?
Restringing a badminton racquet by hand is non-hazardous and doesn’t require any special machines or tools. To restore a racquet to playing condition, you just need a racquet frame, undamaged strings, and patience!
How Much Does It Cost To Restring A Tennis Racquet? [2022]
Recreational badminton players can get back on the court without spending money on a new racquet or professional stringing services.
What tension should my tennis strings be?
Typical tensions range from around 40-65lbs, but most players’ tensions fall well within that range of extremes! Generally speaking, professional stringers tend to advise players to string their rackets as low as possible whilst still being able to maintain control of the ball.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
Low String Tension Low string tension is somewhere between about 40 and 50 pounds. There are of course exceptions; some players even go under 40 pounds! That end of the spectrum is pretty much trampoline territory and we’ll get to that later! But first, let’s set out some facts. Stringing your racquet low tension will give you: MORE power MORE SPIN LESS control MORE durability MORE FEEL MORE COMFORT Before committing to string tension it is important to consider what you are looking for in your game and how you want your racquet to perform corresponding. For example, a strong, powerful player wielding a sledgehammer or a racquet would most likely choose a higher tension rather than a low tension. Why? They already have a lot of natural power of their own, so an extra boost of power by reducing the tension and thus the elastic trampoline effect of the string would likely send the ball over the back fence! In contrast, a player who isn’t as strong – let’s say your lower-level club player – could benefit tremendously from low string tension. Since her strokes are not yet fully developed enough to access true power, this choice of tension would provide a welcome boost in mph! Another factor to consider is how you want your racquet to perform in terms of feel. Players with wrist and arm injury problems should avoid high tension and instead try to string their racquets lower. This provides more comfort and also enlarges the sweet spot, which improves the feel – an added bonus! Touch-style players will love the pocketing effect of lower tension, while a powerhouse player will most likely hate it and crave control. Think McEnroe and Roddick! John cocked low and Andy cocked high! Stringing your tennis racquet with low tension will also give the ball more spin, which is great news if you love hitting a heavy ball! This happens because the ball can penetrate deep into the string bed; The increased elastic effect causes a greater snap-back effect on the stringbed, allowing the ball to bounce back at a greater RPM than higher tension.
High String Tension High string tension is between about 55 lbs and 65 lbs. Similar to what we talked about in the low voltage section, there are exceptions here too – some players opt for even higher voltages! However, unless you want an injury to come your way, we wouldn’t advise going over 60lbs. If you have to string your racquet that tightly, unless it’s natural gut, you lose a lot of the characteristics of that particular string. In that case, it would be far better to re-evaluate your choice of strings or even your racquet. Generally, between 55lbs and 60lbs would be an excellent choice for higher tension. This still gives you access to power, but also offers a lot of control. Here are some of the pros and cons of stringing your tennis racquet under high tension: LESS power LESS spin MORE control LESS durability LESS feel LESS comfort You may be looking at this list and thinking, what’s the point? You are absolutely right to think so, as there is certainly a lot of “LESS” to it! However, as we mentioned earlier, high stringing is only for one type of player. When we talk about a polyester string, that’s the really strong, probably big, powerhouse, aggressive baseline player like Del Potro who just wants ultimate control from his racquet and string. Since he can hit his forehand bigger than most people can handle, any additional power delivered by his equipment would have diminishing returns and actually cause him to lose consistency. Del Potro wants his balls to end up in court; Don’t burn a hole through the back fence without hopping! One disadvantage of stringing really high is that you will lose a lot of the string’s elasticity. At TheTennisBros.com, we believe that a tension in excess of 60 pounds on a polyester string can affect its properties and consequently affect a player’s performance. The comfort will also be pretty horrendous unless you’re used to the feeling of hitting a wooden board! Poor comfort almost always goes hand in hand with injuries. So unless you have wrists of steel and are not physically conditioned appropriately, consider carefully whether stringing high with a polyester string is the way forward for you.
Multiple Racquets When you turn on tennis on the TV, you don’t have to watch long to see a player swapping one racquet for another in his pocket. Some players do it with every rally (Federer), some less often. You might think that’s because the pros’ strings break so often, but that’s not the case. It is often due to the fact that the string tension decreases during point play. In a matchplay scenario, a ball that had previously landed 10cm before the loss of tension would suddenly no longer land 10cm outside. With the pros struggling with such fine margins in their rallies, it’s crucial to maintain perfect precision (as good as possible) throughout a game. Federer usually changes racquets so often to prevent this loss of tension. There is another reason for this. Stringing multiple racquets (8-12 for pros) at different tensions ensures you have the right setup for the conditions you’ll be facing that day. If the weather is boiling hot they would use a higher voltage. On a sunny day, the air inside the ball becomes warm and the ball’s speed is much greater than on a cooler day. On a very cold day, players will use less tension than usual to compensate for the drop in ball speed. The third reason for multiple racquets is that a player can adapt depending on how he’s hitting the ball that day without having to manipulate his technique. It’s biomechanically impossible to do exactly the same moves every day, down to the decimal point of the joint angle! You’ve probably experienced this yourself. Some days you might hit the ball very well, but for some reason the ball only goes a foot. In this situation, you could simply take another racquet out of your bag that is strung at a higher tension than the one you are using and that would solve the problem and allow the ball to dive into the court. We are aware that this would require enormous costs! Only the pros really tend to use multiple rest strings a day. However, what’s stopping you from carrying an extra racquet or two in your bag, strung higher and lower?
Finding the Right String Tension for You The right string tension for a player can vary tremendously from person to person. We wouldn’t recommend looking up what the pro players are using and copying that unless you have flawless mechanics and know, for example, the exact custom racquet specs that Nadal uses. But even then, everyone has different preferences. For the average player, we’d personally recommend starting in your low to mid 50’s and seeing how that feels. Let’s say 53 pounds for the sake of argument. Also, if you know you prefer slightly lower tension, remember that the tension loss will happen fairly quickly and 53 pounds will turn into 48 pounds before you know it! Some strings hold tension better than others, but all strings eventually lose tension. How close you get to your preferred number depends on how often you are willing to string your racquets. Some players will have a batch freshly strung every day and others every 2 months or even less frequently.
String Tension by Type There is a stark contrast between the different types of strings out there, and each needs to be strung at a different tension than the other. For example, the most popular string on and off tour today is the co-polyester string. For example Babolat RPM Blast or Luxilon Alu Power. These are stiff, low power strings designed for control so we would need to string them lower than a resilient multifilament string as they don’t have much power from the start and are extremely uncomfortable at high tensions. Anywhere in the 48-58 lbs range would be an excellent tension choice for a polyester string. On the other hand, we have natural gut strings. These are the highest performing strings in the world and can really get your shot some miles per hour. Whether you use these in a full bed or half bed of strings, you’ll need to string them higher to tame some of their extreme elasticity. A good recommended tension for a natural gut or multifilament string is between 55 and 62 lbs.
Racket String Tension This point really made me smile as I’ve done some stupid things in the past when it comes to this aspect! I remember earlier in my tennis development being obsessed with generating as much power as possible and ended up putting natural gut in a 46lb Babolat Pure Drive Tour Plus! It was a recipe for disaster. Not only was the gut string a bad choice for the racquet and my game, the racquet itself is an absolute rocket launcher. Needless to say, I decided to string the racquet differently pretty quickly! Always consider your racquet when deciding on string tension. If you have a strong racquet, string higher to dilute some of the racquet’s power and maintain control of the ball. If you have a low-impact racquet, try stringing it a little looser. If you’re in a situation where you’re using a low-powered racquet and a high-powered string, you’ll find a good middle ground.
Exceptions I thought we could end this article with some fun facts! I’ve given you some useful guidelines to follow the next time you get your racquet strung, but there are always some that don’t quite fit the bill. Pete Sampras strung his legendary black Wilson Pro Staff at a whopping 70lbs! That’s enough strain to crack the frame! No wonder he broke so many strings during games! Obviously this worked for Pete, so you would never change what he did. The other thing to consider is that polyester strings hadn’t been invented at the time, so players were trying to find other ways to tame the power of natural gut. At the other end of the spectrum is American Jack Sock. If you’ve seen this guy play before, you’ll quickly realize that he has an incredibly heavy forehand – it’s one of the strongest weapons on tour. Just as incredible, Jack strings his Babolat Pure Aero at 40lbs, sometimes going as high as 38lbs! I know if I tried this tension I’d probably hate it, but it works really well for Jack and definitely adds spin to his already heavy forehand. That low tension would never work for natural gut as the racquet would knock the ball out of the park, but Mr. Sock uses a tough polyester string – Luxilon Alu Power, which helps balance the power level. He’s also very wrist oriented, using a full western grip that lends itself to finer ball contact. Clearly he’s found a way to combine his power, spin and low tension “through the court” to tremendous effect. However, don’t attempt these at home unless you’re feeling brave!
Does tennis express string racquets?
Our goal is to ship back your strung racquet within 36 hours of receipt. You may also order additional merchandise to be shipped along with your restring order. Tennis Express will wait for the mail-in restring and ship the requested additional merchandise in one shipment when the restring is completed.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
Live out of town and need your tennis racket re-strung? Send it to our expert stringers at Tennis Express! Our mail order racquet stringing service is easy to use and less hassle than visiting a nearby store. All of our stringers are USRSA certified Master Racquet Technicians and will take great care of your racquet. Here are the steps to get started:
How it works
Add this item to your cart and select your string and tension.
Print out the order confirmation and place it in your shipping carton.
Ship to the following address: Tennis Express, Attn: Mail-in Stringing Service, 10770 Westheimer Rd, Houston, TX 77042
Clubs will be returned via air freight within 2 days unless located outside of the contiguous 48 states or otherwise noted.
We aim to return your strung racquet within 36 hours of receipt.
You can also order additional goods to be shipped with your restring order. Tennis Express will wait for the restring to be mailed in and will ship the requested additional goods in one shipment when the restring is complete.
For more information on our racquet stringing service, please contact our Customer Service Department at 1-713-435-4826 or email t[email protected]. Please note that there is an additional $8.99 fee for shipping racquets with a Tennis Express return label.
Is it worth restringing a tennis racquet?
As we mentioned earlier, the general rule of thumb for restringing a tennis racket depends on how much you play per week. If you play 3 or 4 times a week, then you should consider replacing its strings at least 3 to 4 times per year. New strings will ensure high-quality performance.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
With all the re-stringing, would it be better to just buy a new racquet? Let’s compare that today. Over time and with play, strings lose their elasticity, so it’s important to know if you need to replace or re-string them when they start to negatively affect your movements on the court.
restringing
As previously mentioned, the general rule of thumb for restringing a tennis racquet depends on how much you play per week. If you play 3 or 4 times a week, consider changing the strings at least 3 to 4 times a year.
New strings ensure quality performance. Since your power and control on the court is highly dependent on the tension of the strings, keeping it up to date is crucial.
Most avid players have at least two racquets in their bag – having a backup nearby is crucial. What if a string breaks? Well, that’s just one more reason to make sure your frames are re-strung with fresh strings as often as needed. And sometimes you can tell it just by looking at it. If they’re looking a little shabby, frayed or sagging, that’s a clear sign it’s time to re-string them.
Often you will even be able to feel or even hear the difference in your swing. If either one doesn’t seem right, that’s another sign it’s time to pull the strings.
Substitute
How do you know when it’s time to buy something brand new instead of investing in new strings? Well, that’s really up to the player!
Upgrading your racquet
As you move up the ranks, you may want to start buying a more advanced racquet. Many kids start out with youth racquets that are made for beginners, so it’s in their interest to get a better design to keep their game on track. And sometimes you might not just want to re-string your current racquet, you might want to buy a new one as a backup.
Extending racquet life
The life expectancy of your racquet varies. But there are a few key signs to look out for that will tell you when it’s time to start buying a new one. Sometimes re-stringing is not enough as the problems can be in the grip or in the frame itself. In fact, if you re-string your racquet and end up not feeling a difference in your swing, it’s time to go shopping.
The post-stringing also affects the frame. So the more you re-string, the heavier the toll your frame takes. But you can have the grommet strip replaced when you re-stretch, which will help extend the life of your racquet without having to buy a whole new one too soon.
How do I know if my tennis racket needs to be restrung?
If your strings are fraying or look shaggy, the strings are starting to come apart and you’re not going to get as much spin or power when you hit the ball. When your strings get ratty-looking, it’s definitely time to restring.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
String Appearance – The easiest way to know when it’s time to tighten is to notice how your strings look. If your strings are fraying or looking ragged, the strings will start to loosen and you won’t get as much spin or power when you hit the ball. If your strings are looking scratchy, it’s definitely time to re-string them.
The Sound of Hitting the Ball – If you find that the sound of hitting the ball is not normal or familiar, it may be time to re-string the string. As your strings wear out, they won’t be as springy, and you may only notice this at first by a change in the tone of your hits.
The Feeling When You Hit the Ball – As your worn strings lose or have lost their elasticity, you may notice a dull or dead feeling when you hit the ball. The ball just doesn’t bounce off your racquet like you’re used to, especially on your groundstrokes. You may feel like you have to hit the ball harder just to get it to go the same distance as it used to.
Time Since Last Stringing – You may feel like you need to re-string just because it’s been so long since your racquet had new strings. This could be especially the case with a racquet you haven’t played with in a long time. And while the strings on this racquet look good, you’ll benefit so much from new bouncy strings that it might be worth the reasonable cost.
Well if you’ve decided, hey, it’s time to re-string but aren’t sure how to go about it, speak to Matt for more information
How long does it take to get a racquet restrung?
Usually, when these questions enter your mind across 2 or 3 hitting sessions or matches, it is time to restring, and that’s the rule I follow. Depending on the strings and your playing frequency, this can take as little as a week, or as long as a few months.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
Ask any racquet stringer or tennis shop owner what is the number one question they get asked every day and many of them will answer you, “Do I need to re-string my racquet?” “When will I know it’s time to re-string?” ”
While this is a frequently asked question, it’s also something that not many players ever think about.
I know players at the clubs I’ve played at who have maintained the same action for years, and a new string is only ever considered when a string breaks.
However, strings wear out relatively quickly when played and consequently lose their elasticity and tensile strength.
Leaving them for too long can negatively affect your game. Let’s take a closer look at why and when you should change your tennis strings.
Why should you change your tennis strings?
Aside from snapping a string being the obvious reason to have your racquet re-strung, there are two other main reasons why it’s time to cut your strings and put in new ones.
loss of voltage
All tennis strings lose tension over time. They begin to lose tension as soon as they leave the stringing machine.
Depending on the string type, strings can lose about 10 percent of their tension in the first 24 hours after stringing, which continues as the racquet is played.
If you’re a player who relies on higher tension for control and find that your shot accuracy decreases over time, you may need to re-string to regain this element of your game.
String type Tension stability Natural gut very good Synthetic gut good Multifilament medium to good Polyester bad Kevlar very good
string performance
Not only do strings lose tension, they also eventually go dead. This causes them to lose their performance characteristics, which is most likely why you decided to string them in the first place.
This is especially true with polyester strings as they lose their snapback effect, which is a big part of how they help players generate topspin.
How do you know when it’s time to change strings?
visual indicators
Most advanced players will know that it’s time to restring purely by feel, but there are a few visual things to watch out for.
notches
When you touch the ball, your strings rub against each other and create friction, causing the strings to notch.
If you look closely, you can see grooves that form where the main and cross strings cross. This becomes more apparent in the top center of your racquet, which is hopefully the area where you make the most contact with the ball!
When you see that these notches are about to snap the string, or even getting pretty deep, it’s probably an excellent time to re-string the string.
Fray
Natural gut and multifilament strings are made up of many tiny fibers that are intertwined. When freshly strung they often have a coating to protect them, but once this wears out the fibers begin to fray.
This is a natural part of wear for this type of string, so some fraying is completely normal. Fraying can also be increased by humidity and wetness.
However, beyond a certain point, fraying reduces the strength of the string to the point where it breaks. So if you see fibers fraying at all angles and the string looks weak, re-stringing is probably the right choice.
Feel indicators
For players just starting out, you’re unlikely to notice subtle changes in feel on the stringbed. But as your technique develops and your feel improves, you will notice changes in the string’s play over time.
A loss of control
When the strings lose tension, the ball spends more time on the string bed, which can affect your control. A loss of tension can mean hitting long, making more unforced errors, or struggling to place the ball. If so, maybe it’s time you re-string.
Less top spin
When polyester strings lose tension, the string’s snapback decreases, which means you have to swing harder to generate the same amount of topspin as you would with a freshly strung racquet. Polyester strings also develop dead points, resulting in an erratic response.
If you find yourself hitting with less spin and needing to adjust your strings at every point, then it’s probably time to re-string.
So how often should you re-tension?
The reason for writing this post is because of the following question that we received via email. Below is my answer, modified to be a little more generic.
Hello, do you have a general recommendation for the frequency of re-stringing? I play doubles three or four times a week, mainly in my spare time, but also in doubles on the weekends in the summer. I wouldn’t consider myself an aggressive baseline player, but more of a touch player using sensible pace and placement over sheer power. I currently have a 53 lb Prince synthetic gut string in a Yonex DR 100, 6 months since last stringing. I really like this string, but I’m wondering if it’s a little loose and maybe I’m losing control. Any thoughts?
When it comes to racquet re-stringing, there is a general rule of thumb that most players are familiar with:
Over a year, you should restring your racquet as many times as you play in a week.
So if you play four times a week, re-string your racquet four times a year.
If you haven’t had a fresh string bed in six months, then I’d say it’s time to freshen things up.
Even if they look good, the loss of tension and elasticity over time will have reduced the string’s playability.
For most players, this concept of stringing as many times per year as you play per week is not a bad rule. Especially for recreational players who string with artificial gut and don’t hit a big ball.
However, the problem is that it is a fairly wide top that cannot be used for all types of players or all types of strings.
While the time you spend on the court is an important factor, other considerations determine the speed at which players restring their racquets.
This only applies to non-string breakers as they have no choice but to re-string once a string breaks, but factors include:
Frequency and duration of the game
play style
level of competition
budget
string choice
comfort
Aggressive ball racquets with full, heavy topspin hits will wear down strings much faster than flat-hitting doubles specialists with shortened swings and touch play.
For most players, a visual test is more appropriate than sticking to a newly covered calendar. My rule is based on both a visual look at the strings and how they play.
When they look good but you play poorly in a match? OK, it happens. Playing the next match and the one after that badly? It’s probably time for a re-string. Even if the strings were okay, you at least mentally reposition yourself 🙂
What about the polyester restring frequency?
Polyester strings are difficult to follow, and there isn’t really a calendar rule that needs to be followed. In general, while polyester strings are difficult to break for most club players, they die after 10-20 hours of play.
Not only that, they also break off unevenly, creating dead spots in the string bed, which can lead to erratic performance. However, because they don’t break, players often leave them in their frames for too long.
For this reason, it’s often recommended to swap out polys at least every few months to restore playability and reduce the risk of arm injuries as you have to swing harder to keep the same pace.
Final Thoughts
As with most things involving tennis racquets, ultimately restringing comes down to personal preference and how the individual player evaluates a racquet’s performance.
Many players love to play with a freshly strung racquet; others enjoy them more after a break-in period, and some even like strings when they’re dead dead.
I quite like a racquet soon after it’s freshly strung, so I usually restretch my racquets before a more meaningful game.
Or if I know I’m going to play a few times over the coming week, I’ll increase the tension so that when it comes to the second or third hit, the tension is about as high as it would be if fresh from the game would be stringing machine with my desired tension.
From there, it’s all about keeping track of your game throughout the life of the string job. Do I need to swing harder to generate pace and spin? Do the strings bite on the ball or do I have to readjust them after each point? Are shot placement and predictability starting to go awry?
If these questions come to mind after 2 or 3 batting sessions or matches, it’s usually time to re-string and that’s the rule I follow.
Depending on the strings and how often you play, this could take as little as a week or a few months.
While it’s not an exact science, I think it’s best to replace strings early rather than late. And your local club stringer or tennis shop too 😀
Find Your Ideal Tennis String Looking for a new string for your racquet? Use our easy-to-use tennis string finder tool. You can filter by string type, gauge, color, price, stiffness, and shape.
How often do you re-string your racquet? Let me know in the comments below
HOW TO STRING A TENNIS RACKET PART 1 THE MAINS
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TENNIS STRINGING & RACQUET SERVICES AT DICK’S SPORTING GOODS
The more you play, the more the tension in your racquet strings changes. Whether you are looking to string tennis racquets or service another type of racquet, the Racquet PROS at DICK’S Sporting Goods are certified to custom string your newly purchased racquet or to re-string your trusted racquet to bring it back into shape.
Re-stringing ensures your game stays in tip-top shape. You may feel like your racquet is losing its “punch” at net. When the tension in your strings is released, your strings stretch more on impact, cushioning the ball’s landing and minimizing the “squeeze” effect of your racquet. This leads to loss of control and inconsistent play. Maintain your playing style by re-stringing as many times per year as you play each week.
Frequent Stringer Loyalty Program: Have your racquet strung four times at Dick’s Sporting Goods and get the fifth one free. The frequent flyer loyalty program is redeemable in-store only. See partners for details.
How Much Does It Cost To Restring a Tennis Racket?
Many club players only think about having their racquet re-strung when it breaks. Unless you are a big hitter who frequently breaks strings, it is very likely that they have suffered from string performance degradation for some time previously. Strings lose tension and elasticity over time, making it harder and harder to generate power and spin.
The player may not notice this as the change is gradual, but it is very likely that he could play tennis better if he re-stringed his racquet more frequently. One thing that might put players off getting the rest strings they need is the potential cost.
The average cost to re-string a tennis racquet is $40 but can range from $15 to $75. The cost is divided between labor ($10-25 per racquet) and strings ($2-50 per set). Players should string their racquet as many times per year as they play per week. You can find stringers at your local club, sporting goods stores, or online.
labour costs
With the right equipment, anyone can string a tennis racquet. However, it takes skill to achieve consistent results and a clean finish. Additionally, it can take a beginner up to two hours to complete a stringing job with a cheap machine, and the resulting tension is unlikely to be particularly accurate.
An experienced stringer using a quality machine can get the job done in about 30 minutes while consistently producing something close to the desired tension.
Stringers generally charge between $10 and $25 per racquet for labor, with the difference reflecting the local cost of living and the stringer’s experience and overhead.
For example, a quality stringing machine can cost thousands of dollars, and if the stringer is based in a shop, there are additional costs that they must cover. At the professional level, players typically have contracts with stringing companies to do all of their stringing at tournaments and year-round, costing up to $40-50,000.
cost of new strings
There are many different types of tennis strings, ranging from very cheap nylon to surprisingly expensive multifilament and natural gut. The “big names” in the field, like Luxilon, tend to charge a premium for their strings.
Tennis strings can be bought in individual “sets” containing enough for a single racquet – about 12m – or rolls which usually contain 100m or 200m. You won’t be surprised that it’s significantly cheaper per set to buy strings in reels.
This is a way for stringers to make money as they can charge the same or a little more than the standard price for a single set while paying significantly less when buying reels. As a customer, you usually have the option to buy your own string and only pay for the stringer’s labor costs. This means you can take advantage of the cheaper price of buying a reel, but you need to be pretty sure you stick to one string type as it can take you some time to work your way through 16 remaining strings!
To illustrate the prices you might pay for strings, Tennis Warehouse charges the following prices at the time of writing.
Luxilon 4G 16 Gauge: $18.95 per set or $269.95 per 200m roll (equivalent to less than $17 per set).
Ashaway Liberty Synthetic Gut 16 Gauge: $2.75 per set or $35 per 220m roll (equivalent to less than $2 per set).
Luxilon Natural Gut 1.30: $42.95 per set.
The Ashaway string is very much on the cheap end of the scale and won’t last very long, but it should still have reasonable playability. Luxilon 4G is a good polyester string and natural gut is probably the most expensive type of string. Prices vary, but it’s generally cheaper to source strings yourself than to buy them from a stringer.
How often should you have a racquet re-strung?
The answer isn’t just “when a string breaks” as performance has been degrading for some time before that for the reasons explained earlier.
The general rule is to change the string after about 50 sessions, which is in line with the well-known rule that players should string their racquet as many times a year as they play in a week.
Some string types, such as B. natural gut, but probably not last as long. Polyester is durable, but is believed to lose some of its performance after around 20 hours of play, suggesting that it might be better to re-string every few months when using polyester strings.
Where can you re-string a tennis racket?
For many, the answer will be “at your local club” as there is usually a stringer on hand. Depending on their experience and the machine they’re using, this might not always be the best answer.
Other options for getting racquets re-strung are sporting goods stores where a stringer can be hired and various specialists whose services can be booked online. Once you’ve found a stringer that you like the work of and that charges a reasonable price, stick with them because that way you can expect consistent results and no surprises.
If you need a lot of re-stringing, getting your own machine can be an option as you can quickly recoup the cost of the purchase.
Do stringers replace racquet grips?
Stringers are generally happy to perform additional racquet maintenance e.g. B. replacing eyelet strips or handles. They charge a small fee for this, but if you don’t feel confident doing the job yourself, it makes sense to let a professional do it.
Final Thoughts
Racquets need to be re-strung regularly if they are to perform at their best. Stringers charge a variety of fees, but you need to find an experienced stringer with a quality machine to guarantee consistent results.
How Much Does It Cost To Restring A Tennis Racquet? [2022]
Tennis string costs vary widely based on quality, type, and length.
If you’re willing to sacrifice quality and durability, then $8 strings like this set from HEAD might be a good option. At the other end of the spectrum, you have the $15 Wilson NXT Control string, the $18 Luxilion ALU Power string set, or even the $37 Wilson Champions Choice Duo string. The most expensive strings on the market are close to the 50 euro mark.
Buying the right set of strings can save you a significant amount of money. I suggest you don’t go too cheap – cheap strings break and lose tension quicker, so you may need to replace them more often. This could drive up the cost of re-covering in the long run.
Also, don’t buy overpriced strings unless you need them. I think mid-range strings (probably around $20) would be fine for most people.
Mid-end strings wouldn’t hit your bag too hard while still providing decent durability and performance on the court. Only go higher if you feel you are not getting what you want.
Which string you choose depends on your needs and budget. If you’re not sure what to buy, do more research on tennis strings.
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