Researchers utilize inexpensive materials to combine qualities that are rarely found together in manufactured products.
Researchers at the University of Sheffield are developing a 3D cell culture platform with the potential to revolutionise laboratory research into tissue engineering. The culture of human cells in the ...
Description: manufacturing and demanding conditions of oil and gas exploration, Dyneon fluoroelastomers stand up to the most challenging sealing applications. Dyneon fluoroelastomers give processors ...
A new type of 3D-printed plastic can easily be stretched, melted, and reformed, making it a perfect material for multiple ...
Engineers can design the print path used by the 3D printer to program the plastic’s physical properties so that a device can ...
Scientists in Spain have reported the first self-healing polymer that spontaneously and independently repairs itself without any intervention. The new material could be used to improve the security ...
Typically used to attach LCD panels to a board, the connector is a flexible polymer bar with alternating conductive and non-conductive bands. The conductive bands adhere to the contact pads on ...
HIGH PERFORMANCE HYBRID ELASTOMERIC POLYMER ALLOYS. The Hapflex ™ 1000 Series products are soft, colorless, Shore A elastomers. These materials are available in ...
Princeton engineers have developed an easily scalable 3D printing technique to manufacture soft plastics with programmed ...
A team of researchers has successfully developed a unique kind of 3D-printed plastic, one that is both affordable and ...
A team of scientists has created a new shape-changing polymer that could transform how future soft materials are constructed. Made using a material called a liquid crystalline elastomer (LCE), a ...