Date of Award

2022-12-01

Degree Name

Master of Science

Department

Metallurgical And Materials Engineering

Advisor(s)

David A. D. Roberson

Abstract

A key detriment of the use of polymers by our society is the negative effect this material class has had on the environment. A category of polymers known as shape memory polymers (SMP)s have the ability to return to a programmed original shape form after deformation to a temporary shape by using stimuli such as temperature, electrical pulses and even magnetism. The shape memory effect allows for some polymers to heal if they are damaged. This ability to heal means that components made from these materials can be reused rather than thrown away if they are damaged. The work presented in the thesis is intended to provide information related to the ability of a material to maintain shape memory properties and how these self-healing mechanisms can mitigate environmental degradation. Here, we compare the effects of two manufacturing techniques: additive manufacturing and injection molding in order to determine the influence of processing on material properties.This effort is pursued based on the premise that self-healing materials provide an avenue for the reduction of polymeric waste, a problem that is growing more detrimental to the environment. The shape memory effect is a critical component of the self-healing process in polymers. It is my goal to contribute to the solvency of a societal problem by understanding the structure, process, property, performance relationship of novel shape memory polymeric systems.

Language

en

Provenance

Received from ProQuest

File Size

85 p.

File Format

application/pdf

Rights Holder

Jorge Mario Avila

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