A5062429924- Topology Optimization in Engineering
- Composite Structure Analysis and Optimization
- Metal and Thin Film Mechanics
- Advanced Surface Polishing Techniques
- Welding Techniques and Residual Stresses
- Advanced Multi-Objective Optimization Algorithms
- Additive Manufacturing Materials and Processes
- Advanced Numerical Analysis Techniques
- Industrial Vision Systems and Defect Detection
- Material Properties and Failure Mechanisms
- Advanced Theoretical and Applied Studies in Material Sciences and Geometry
- Surface Roughness and Optical Measurements
- Engineering Diagnostics and Reliability
- Electronic and Structural Properties of Oxides
- Advanced Welding Techniques Analysis
- Semiconductor materials and devices
- Advanced Memory and Neural Computing
- Mechanical and Thermal Properties Analysis
- Non-Destructive Testing Techniques
- Advanced machining processes and optimization
University of Michigan
2020-2024
Jilin University
2024
Abstract A customized atmospheric‐pressure spatial atomic layer deposition (AP‐SALD) system is designed and implemented, which enables mechatronic control of key process parameters, including gap size parallel alignment. showerhead depositor delivers precursors to the substrate while linear actuators capacitance probe sensors actively maintain alignment through multiple‐axis tilt closed‐loop feedback control. Digital geometric variables with active monitoring facilitated a custom software...
Abstract Variable-axial fiber-reinforced composites allow for local customization of fiber orientation and thicknesses. Despite their significant potential performance improvement over the conventional multiaxial metals, they pose challenges in design optimization due to vastly increased freedom material orientations. This paper presents an anisotropic topology method designing large-scale, 3D variable-axial lightweight composite structures subject multiple load cases. The computational...
Abstract Variable-axial fiber-reinforced composites allow for local customization of fiber orientation and thicknesses. Despite their significant potential performance improvement over the conventional multiaxial metals, they pose challenges in design optimization due to vastly increased freedom material orientations. This paper presents an anisotropic topology (TO) method designing large-scale, 3D variable-axial composite structures. The computational challenge large-scale TO with extremely...