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Controlling the Physical Properties of Random Network Based Shape Memory Polymer Foams

Published online by Cambridge University Press:  01 February 2011

Pooja Singhal ,
Thomas S Wilson  and
Duncan J Maitland
Pooja Singhal
Affiliation:
[email protected] Texas A&M University Biomedical Engineering, College Station, Texas, United States
Thomas S Wilson
Affiliation:
[email protected] Lawrence Livermore National Laboratory Livermore, United States
Duncan J Maitland
Affiliation:
[email protected] Texas A&M University Biomedical Engineering, 3120 TAMU College Station, Texas, 77843, United States
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Abstract

Shape memory polymers (SMPs) are increasingly being considered for use in minimally invasive medical devices. For safe deployment of implanted devices it is important to be able to precisely control the actuation temperature of the device. In this study we report the effect of varying monomer composition on the glass transitions/actuation temperatures (Tg) of novel low density shape memory foams. The foams were based on hexamethylenediisocyanate (HDI), triethanolamine (TEA) and tetrakis (2-hydroxyl propyl) ethylenediamine (HPED), and were produced via a combination of chemical and physical blowing process. The process for post-foaming cleaning was also varied. Foams were characterized by DSC, DMA, and for shape memory. No clear trends were observed for foam samples without cleaning, and this was attributed to process chemicals acting as plasticizers. In foams cleaned via washing and/or sonication, the Tg was observed to decrease for compositions that were higher in the TEA content. Also, no change in shape memory behavior was observed for varying compositions. This work demonstrates the ability to tailor actuation transition temperature while maintaining shape memory behavior for low density foams suitable for aneurysm treatment.

Keywords

polymerstructuralchemical composition
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1274: Symposium QQ – Biological Materials and Structures in Physiologically Extreme Conditions and Disease , 2010 , 1274-QQ05-01
Copyright
Copyright © Materials Research Society 2010

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