Yijun Zhou

Yijun Zhou
Uppsala University | UU · Department of Engineering Sciences

Master of Science

About

2
Publications
58
Reads
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0
Citations
Citations since 2017
2 Research Items
0 Citations
20172018201920202021202220230.00.20.40.60.81.0
20172018201920202021202220230.00.20.40.60.81.0
20172018201920202021202220230.00.20.40.60.81.0
20172018201920202021202220230.00.20.40.60.81.0
Introduction
I am working on the numerical optimization of bone implants. The current projects are about the bone models, FEM, shape and numerical simulation.
Education
January 2020 - December 2022
Uppsala University
Field of study
  • Biomechanics
April 2017 - November 2019
Technische Universität München
Field of study
  • Bauingenieurwesen/Computational Mechanics
September 2012 - July 2016
Dalian University of Technology
Field of study
  • Civil Engineering

Publications

Publications (2)
Article
Investigation of the dynamic properties of implants is essential to ensure safety and compatibility with the host's natural spinal tissue. This paper presents a simplified model of a cantilever beam to investigate the effects of holes/pores on the structures. Free vibration test is one of the most effective methods to measure the dynamic response o...
Article
Full-text available
Silicon nitride (Si3N4) is a promising biomaterial, currently used in spinal fusion implants. Such implants should result in high vertebral union rates without major complications. However, pseudarthrosis remains an important complication that could lead to a need for implant replacement. Making silicon nitride implants more bioactive could lead to...

Network

Projects

Project (1)
Project
The growing elderly and more active population puts higher demands on implants, which need to last longer and withstand more severe loading conditions. In the spine, mechanical resistance and biocompatibility are especially important due to the vicinity of sensitive tissues such as the spinal cord and nerves. NU-SPINE aims to deliver novel material compositions with a higher degree of biocompatibility as well as novel implant designs adapted to the local loading situation.