Badminton Racket Strings Guide
|Player Level||String Tension||Control & Feel|
Keeping this in consideration, what is the maximum tension for badminton racket?
Playing with a badminton racket strung at high tension is a great option for advanced players and professionals who can consistently hit the small sweetspot. This enables the highest level of precision to be gained. All rackets below feature a maximum tension range of at least 30 lbs.
Moreover, what is the best tension for badminton racket for Smash?
For the average player, the best tension would be 24-27 pounds of tension. This is a nice middle ground where the strings are tight enough to have a good feel but also slack enough to make generating power in smashes and other shots efficient.
What string tension Do pros use badminton?
Beginner : 17lbs-20lbs. Intermediate: 20lbs-24lbs. Advanced: 24lbs-27lbs. Professional/International: 27lbs – 30lbs+
When it comes to the actual tension, most manufacturers recommend stringing elastic materials like nylon or natural gut around 50-60 lbs. If using a stiffer string like polyester, drop the tension to avoid arm injuries.
The Arcsaber Light 10i iSeries badminton racket is developed in Japan and made in China.
|String Tension||30 LBS|
Li-Ning US Series Ultra Strong High-Tension Graphite Badminton Racquet.
Yonex BG 65 Ti Titanium Badminton String
Yonex BG 65 Ti Titanium Badminton String is the best badminton Japanese string which is another amazing product from Yonex family that gives you a wider gauge as compared to other brands. It provides a gauge of 0.70mm / 22 gauges and the length of this string are in 10 meters.
The pulling force that acts along a stretched flexible connector, such as a rope or cable, is called tension, T. When a rope supports the weight of an object that is at rest, the tension in the rope is equal to the weight of the object: T = mg.
Tension Formulas – How to Calculate Tension Force
- Tension can be easily explained in the case of bodies hung from chain, cable, string etc. …
- T = W ± ma. …
- Case (iv) If the body moves up or down with uniform speed, tension; T = W. …
- T=m(g±a) …
- As tension is a force, its SI unit is newton (N).
Because of this, we know that, for the weight to be held in equilibrium, the tension force must equal the force of gravity on the weight. In other words, Tension (Ft) = Force of gravity (Fg) = m × g. Assuming a 10 kg weight, then, the tension force is 10 kg × 9.8 m/s2 = 98 Newtons.