Dunlop sports release aerogel 4d braiding technology

http://www.dunlopsports.com/dunlop-tennis/Technology/Aerogel-4D-technology/

Dunlop sports have released their aerogel 4d braiding technology in time for Wimbledon. It says on their website:

"Dunlop has further enhanced its Aerogel technology by taking it to the next dimension with 4D braiding. Four directional braided material is used at key points on the racket frame to significantly increase racket stability. At 5 and 7 o'clock to minimise frame torsion and increase control. At 3 and 9 o'clock for increased stability and enhanced touch and feel.

The results are exceptional racket control without sacrificing the established Dunlop racket feel. 4D braiding has been implemented across the whole Dunlop Aerogel portfolio, offering outstanding benefits to players of all abilities.

DUNLOP AEROGEL 4D - TAKING TECHNOLOGY TO A NEW DIMENSION ".

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2009

Cool cool video by Lacoste

http://www.lacoste-future.com/en/#/equipment/

If you enjoy looking at the future of sports design then you must see this video. Its a classic!!

2009

Tennis racket that cools the hand

Text from Gizmodo.

TAGS: Rackets

"If you suffer from a debilitating case of hand sweat while playing tennis, the folks at Control Freek are offering up a solution with their new air circulating tennis racquets. Using the latest wiffle technology, Control Freek has cut some high-tech holes in their handle and added scoops to trap and circulate air to your palms while you play.

Sweat-free hands equal a sure grip, a sure grip equals better tennis, and better tennis equals a $275 racquet. Sure, there are products out there that cost less—but look at the dude pictured above. Only those who are extreme enough to wear a suit and boxing gloves while playing tennis are worthy of a Control Freek racquet."

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2009

HEAD introduces new footwear line

TAGS: Tennis shoes, Footwear

The new line incorporates the HEAD CXG™ technology which provides comfort, shock absorption, decreased foot fatigue, stability and motion control. A combination of turned polyethylene, polypropylene, nylon and saran fibres are shaped to form an interlocking coil structure within the sole of the shoe. The coil is then encapsulated within a resilient polyurethane form. When the foot makes contact with the ground, the coil fibres compress and absorb shock. As the foot reaches the end of its stride, the coil structure produces an upward force, much like that of a resilient spring.

For more information please click the link. Images and information reprinted from HEAD

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2009

What causes tennis ball wear?

TAGS: Tennis balls

Very rarely do we ever see a tennis player approach a serve before studying the ball's appearance and feel intently. Is ball wear part of the game or should manufacturers aim to maintain ball performance throughout match-play, like in so many other sports?

Steele (2006) established a framework for identifying the key areas that contribute to wear. In brief, racket impact conditions, repeated impacts, precipitation, cloth construction and natural pressure loss are some of the major causes. Wear is primarily associated with a reduction in the coefficient of restitution and altered flight aerodynamics. However important differences in appearance, feel, rebound angles, friction-ball-turf interaction, ball mass, centre of mass and carcass stiffness, should also be considered and have yet to be investigated in full. Current optimisation techniques include changes in fibre type, fibre thickness, rubber stiffness, and porosity.

Following extensive interviews with players, a literature review and analysis of ball characteristics in play, Steele (2006) captured the effects of each of the characteristics named above on ball properties, particularly ball mass lost and coefficient of restitution. Improvements in racket technology offer customisation and a tailored product. Elite players often use high stringing tensions to promote increased control over power. Also, better understanding of conditioning programmes have improved fitness and strength increasing impact force and speed from the racket head. However, this is to the determent of ball performance; an increase in ball speed also increases the rate of ball mass lost causing wear.

String type and ball weave are further racket and ball properties that can affect the rate of ball mass lost. Natural gut induces wear significantly quicker than monofilament polyester whilst needle felt weave increases mass lost compared to sateen weave. Water resistant dyes, used to reduce ball water retention, significantly decrease initial mass losses whilst the rate of mass lost is unchanged. Finally a drop in internal pressure was shown to reduce the coefficient of restitution.

Ball wear as an area of research is still in its infancy; however with further understanding players can have the confidence to select any ball to achieve the appropriate response.

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