Xiom Omega V Asia

Item# RXO5A
Brand: Xiom
Rubber Type: Smooth
Speed: 97
Spin: 94
Control: 67
Hardness: Hard



Omega V Asia, made with Dynamic Friction Technology is developed for the plastic ball. Plastic ball will replace the celluloid ball from 2014 in official games. Performance parameters of the plastic vary from the celluloid, which mostly impacts professional players. Dynamic Friction Technology originally adopted from the physics of snow tires makes the unprecedented level of friction for Omega V. Dynamic Friction of the table tennis is different from the normal friction because the rubber in the fast movement should make the proper friction against the also fast moving balls, without the decline of repulsive power. Dynamic Friction rubber grabs the slippery plastic balls far more firm and solid at contact. Control of your ball with Dynamic Friction is simply beyond your expectation. And as a consequence, it increases the spin rotation dramatically - at the same speed. Thanks to the higher friction you can also catch the ball at the extreme angle, which is truly a professional advantage. Get ready and Win with us!

  • Dynamic Friction against slipperiness
  • Unprecedented control and extreme angle shots
Awesome for with the plastic ball

I used to play with Juic 999 because it gave me plenty of spin and control. However, with the new plastic ball being a little slower and less spinny I felt like I needed something with a harder sponge for more power. And wow, does this rubber deliver. Although it is a hard sponge, it does not feel difficult to control. I get a ton of spin on loops and serves, and it is the best rubber Ive ever used for blocking and flat hitting, two things that are not strengths of my game. If you are looking for a rubber that is perfect to use with the new plastic balls, this is a great option.

- Doug W, WI

Howard E. Lee, Berkeley Heights, New Jersey

This rubber is super powerful. Hard rubber and great on loops ! If you want want power & spin, this is the rubber. Howard E. Lee

- Howard E. Lee, NJ