Optimizing Geometry for Sustainable Manufacturing: 3D printing and Finite Element
Advisor: Dr. Nikolaos Bouklas,Cornell University,nb589@cornell.edu
Abstract
It is a phenomenal problem that the global manufacturing industry has high carbon emissions and unsustainable resource consumption. This paper explores the principles and applications of topology optimization in the context of sustainable manufacturing with actuation of 3D printing and finite element analysis. The paper examines how this innovative approach can revolutionize product design, enhance resource efficiency, and contribute to the broader goals of environmental sustainability. Through a case study of a household bracket design and theoretical analysis. The paper aims to demonstrate the transformative potential of topology optimization as a tool for achieving both technical excellence and environmental stewardship in manufacturing processes.