#materialscience

Research, development and commercial applications of advanced flexible materials.

Recent Articles

Flexible Printed Circuit Boards in Medical Device and Life Sciences Today

In Brief

Flexible circuitry has been around for 115 years and its versatility across industries is unparalleled. Its uses and applications seem almost limitless. In fact, the demands of healthcare alone are driving innovations in this field at a rapid pace.

Read More
 0

Hurricane Harvey's Disruption and Ongoing Impact to Film Supply Chain

In Brief

Almost six months after Hurricane Harvey made landfall in the Houston, Texas metro area, countless business and economic sectors are still trying to recover. How quickly they recover has been in large part due to the repair and continuity of the supply chain.

Read More
 0

Wearable Technology and Flexible Materials

In Brief

Wearable technology is no longer the wave of the future. It's the wave of the present--and flexible materials are playing an incredible role in the wearable technology industry. From smart watches that can pick up phone calls and texts and run apps to fitness or emotional wellness devices that are designed to track overall health, wearable devices can accomplish incredible things, especially thanks to the role of flexible materials in their use.

Read More
 0

Polymer Basics for Polyvinyl Chloride


Abstract

Polyvinyl chloride is the most widely used plastic material in medical applications. It has a low cost, is easy to process, and can be tailored to yield the desired properties. Often times PVC by itself is not very useful, however heat stabilizers, plasticizers, and various polymers can be added so that the material gains a diverse range of properties from rigid to flexible. Polyvinyl chloride is used in different medical applications such as dialysis bags, surgical drapes, blister packaging, and oxygen face masks.
 
Read More
 0

Polymer Basics for Polyurethane


Abstract

Polyurethanes are polymers made up of long chains, with the base monomer being composed of carbon, hydrogen, oxygen, and nitrogen. There are various types of polyurethanes, with each individual type yielding different properties. Polyurethanes may come in the form of rigid or flexible foams, adhesives, coatings, or as a thermoplastic polyurethane.  Overall, polyurethanes have excellent toughness, clarity, low-temperature flexibility, and are biocompatible. Polyurethanes are used in applications such as blood bags, pacemaker leads, body and limb prosthesis, and acetabular cups.
 
Read More
 0