Central Saint Martins Graduate Creates 3D Printed Tennis Balls

Central Saint Martins graduate Noé Chouraqui has developed Level, a 3D-printed tennis ball constituted of bio-based, recyclable filament. The balls keep the standard neon-yellow look and ringed design of standard tennis balls however use plant-derived PLA-HR filament as an alternative of the usual hole rubber core lined in felt.

Chouraqui created Level as his ultimate yr challenge within the Product and Industrial Design course at CSM. He recognized sustainability as a key concern, noting that over 300 million tennis balls are produced yearly worldwide, with every ball taking 400 years to decompose.

“The balls are constituted of a filament known as Excessive Resilience PLA (PLA-HR) – it’s a bio-based and recyclable filament constituted of plant-derived supplies, primarily corn starch,” Chouraqui informed Dezeen. “PLA-HR is eco-friendly, as it’s compostable underneath industrial situations and has a decrease carbon footprint than conventional plastics.”

The designer maintained the recognizable visible parts of conventional tennis balls for sensible and regulatory causes. “It was essential to protect the attribute options of tennis balls in order that the product would instantly be recognized as a tennis ball, fairly than simply every other ball,” he mentioned. The fluorescent yellow-green colour adheres to Worldwide Tennis Federation (ITF) requirements, which solely acknowledge tennis balls on this colour.

Level balls underwent official testing by Jamie Capel Davies, Head of Science and Technical on the ITF. The findings indicated that the aerodynamic efficiency of the 3D-printed balls intently matches that of conventional tennis balls. In response to Chouraqui, the ITF Technical Fee is at the moment reviewing Level’s information and contemplating regulatory changes to doubtlessly settle for sustainable alternate options in official matches.

Supply: dezeen.com