Topology Optimization and Fatigue Life Estimation of Sustainable Medical Waste Shredder Blade

Abstract: There is an increased interest in designing cost-effective lightweight components to meet modern design requirements of improving cost and performance efficiency. This paper describes a significant effort to optimize the medical waste shredder blade through weight reduction by increasing material efficiency. The blade computer-aided design (CAD) model was produced through reverse engineering and converted to the finite element (FE) model to characterize von Mises stress and displacement. The obtained stress ch… Show more

“…Design engineers need innovative design ideas to develop lightweight eco-friendly solutions. Topology optimization as a powerful design optimization tool for sustainability purposes has a much capability (Azad et al, 2022 [1]; Rosen and Kishawy, 2012 [2]). Innovative technologies and engineering knowledge are intensively used in the automobile industry.…”

Finite Elements Analysis and Topology Optimization of Parking Brake Lever and Ratchet

“…Design engineers need innovative design ideas to develop lightweight eco-friendly solutions. Topology optimization as a powerful design optimization tool for sustainability purposes has a much capability (Azad et al, 2022 [1]; Rosen and Kishawy, 2012 [2]). Innovative technologies and engineering knowledge are intensively used in the automobile industry.…”

Finite Elements Analysis and Topology Optimization of Parking Brake Lever and Ratchet

Data-driven surrogate modeling for global sensitivity analysis and the design optimization of medical waste shredding systems

Optimizing plastic shredder rotor design through structural finite element analysis: A comprehensive approach using experimental design and response surface methodology