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News

Research Institute Develops Smart Material For High Impact Energy Dissipation

Institute Of Materials Research And Engineering (IMRE) : 30 July, 2010  (New Product)
IMRE from Singapore develops cornstarch based composite material for lightweight protection against high impact loads such as shrapnel and blunt impact
Body Armour and protective sports padding made from cornstarch solution - Not quite body Armour made out of cornstarch but scientists from Singapore Agency for Science, Technology and Research’s (A*STAR) Institute of Materials Research and Engineering (IMRE) and the National University of Singapore have used the same scientific principles to invent a new made-in-Singapore lightweight, flexible, and simple to make composite material capable of dissipating high impact energy.

The ‘smart’ material is soft and can conform to the shape of irregular surfaces. It is form-fitting and offers a high degree of comfort and mobility to wearers but instantly stiffens upon impact to protect the person from knocks and falls, shrapnel from explosives, or injuries from weapons such as clubs. The material can withstand high-impact loads, will not crack under repeated loading and can even float on water.

Tests have shown that the new composite material is more effective than commercially available protective foams (used in sports) of greater thickness in dissipating impact energy. A 2cm thick version of the new material is comparable in performance to hard ceramic or steel plates when worn as a protective pad behind ballistic vests to reduce blunt trauma injuries. This could be used to replace the thick, heavy steel plates that are worn beneath Kevlar armour, thus improving mobility and comfort for the wearer.

The material is a composite which consists of a polymer and a combination of other materials engineered through a patented method developed in Singapore. It works based on the concept of shear thickening, meaning the material is soft and fluid at rest but becomes rigid upon impact, just like a cornstarch solution. When moved gently, the molecular chains that hold the material together can ‘slide’ past one another, hence giving the material a soft consistency. In other words, the material will bend and flex smoothly under lightly applied force. But hit it or make sudden movements and the molecular chains do not have time to react properly and become entangled turning the material rock-solid. Similar shear thickening fluid-based materials technology involves encapsulating it within a foam matrix. The secret to the new IMRE-NUS material lies in how it’s made - with a patented method that not only allows it to be more flexible and soft without the need for foam encapsulation, but also helps the material spread out high-impact force much more effectively and quickly than other products.

“The idea for the new material came to us when we were demonstrating a popular cornstarch science experiment during our regular Science Outreach to the public to show the versatility of materials”, says Dr Davy Cheong, a Senior Research Engineer with IMRE and member of IMRE’s Science Outreach team, who co-invented the material with partners from NUS, Mr Phyo Khant and A/Prof Vincent Tan Beng Chye.

“The technology has huge potential in the protective body Armour industry, particularly in the sports arena where blunt force trauma accounts for a significant portion of sports-related injuries”, adds Dr Cheong. “What we have here is a softer, more flexible padding that absorbs more impact but doesn’t hinder movement, which ultimately improves an athlete’s performance”.

The technology can be applied to a number of areas, including body armour, sports protective equipment, surgical garments, and even aerospace energy absorbent materials. IMRE is now looking for industry partners to help evaluate and scale-up the technology.
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