Posts Tagged ‘chalk’
This test is to check the performance of KAMUI CHALK.
This test is conducted under the following condition.
1, Shot by the same player.
2, Focused only on maximizing the amount of cue ball spin over the distance of ball diameter for 2 types of chalk.
Therefore the shooting speed of 2 chalks are not the same.
What we found out are as follows,
1, It is possible to shoot more off-center of the cue ball with KAMUI Chalk than the other chalk brands.
2, It is possible to shoot with higher speed than other chalk brand regardless of its wider sweet spot.
KAMUI CHALK enables players to shoot more off-center with higher speed than other chalk brands.
This is why KAMUI Chalk can offer more spin and prevents miscue.
Side Spin Version
Back Spin Version
This test is to know how much more spin KAMUI chalk can generate compared to other chalk brand.
The distance between the center of the ball and pin in this video is equal to ball diameter.
Due to the lager sweet spot of KAMUI chalk, you can shoot more outside of the cue ball.
This is why KAMUI chalk can generate more spin and prevent miscue.
We found that the ball shot with KAMUI chalk rotates 60 degrees more than other chalk brand when it passes over the pin.
KAMUI chalk offers players greater spin that they have never experienced with other chalk brand.
In this chapter, I would explain how billiard chalk works and the perfromance of KAMUI chalk.
The performance of billiard chalk depends on how much frictional force the chalk creates between the cue ball and tip against the slipping force.
To have greater frictional force,
1, Increase area of contact between the cue ball and chalk particles. The contact area becomes larger by making the particles of the chalk much finer.
2, Make the particles of the chalk more solid and sharper so that the particles can bite into the surface of the cue ball.
After long reserch, we finally found the ideal material that has the 2 importhant facotors above.
This is why KAMUI chalk can prevent miss-cuing compared to standard chalk, and this peformance gives the player a larger shooting area. (Larger sweet spot)
In this chapter, I would explain the reason why cue ball deflection happens. To keep the explanation brief, the frictional force between the cue ball and cloth is not considered.
Step1: Before everything, please understand that when you shoot the left side of the cue ball, the cue ball would deflect and go the right direction. Imagine when you try to move an object ball to right side, the cue ball has to be hit on the left direction of the object ball. This is the basic machanism of cue ball deflection.
Why does the cue ball deflect?
When you apply English on the cue ball, the cue force is divided into diagonal movement that is directed to the center of the cue ball and tangential force & spin rotation.
The reason why cue ball deflects, when hitting the cue ball with side english, the force of the cue ball is divided into a diagonal direction and tangential direction. From a physics point of view, the cue ball travels to a direction that comes from the force of vectorX-A and X-B as the picture below shows. This is how cue ball deflection is calculated.
If we deeply understand why deflection is caused, we are able to reduce it. In the case of picture above, reducing vectorX-B and increasing vectorX-A bring about less deflection.
This picture shows how deflection is decreased. Increasing vectorX-A and reducing vectorX-B changes cue ball direction that is dependant of the resulting force. Cue ball path shifts direction X-C to X-D when vector X-A is increased.
It is a common way to use low deflection shafts to reduce deflection. Furtehrmore, KAMUI chalk also can reduce it. I would explain how KAMUI chalk works to reduce defleciton on ‘KAMUI chalk reduces deflection’ page.