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Dr. Xiaogang Wu is the professor in the Department of Biomedical Engineering (BME), at Taiyuan University of Technology. His research expertise is in the field of Biomedical engineering with a special field of musculoskeletal biomechanics, rehabilitation and orthopedic appliance design. His research is focused on the multi-scale modeling of the bone tissue, as well as evaluating the mechanisms responsible for electromechanical signals stimulating bone remodeling. He is currently a member of the China National Committee on Biomechanics, young member of the Rehabilitation Engineering Branch of Chinese Biomedical Engineering Committee. E-mail: wuxiaogangtyut@163.com Website: https://www.researchgate.net/profile/Xiaogang_Wu13 |
Education
2009-2012 |
Taiyuan University of Technology, China |
Biomechanics |
Ph.D. |
2006-2009 |
Taiyuan University of Technology, China |
Biomechanics |
Master |
2002-2006 |
Taiyuan University of Technology, China |
Mechanics |
Bachelor |
Professional Experience
2012- now |
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Taiyuan University of Technology, China |
2017.1-2017.10 |
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The State University of New York at Stony Brook,US |
Research interests
- Biomechanics
- Rehabilitation and orthopedic appliance design
Projects
1. National Natural Science Foundation of China: The cross-scale transduction mechanism of the fluid stimulating signals in bone. (No. 11972242, 2020/01—2023/12, Project Leader)
2. National Natural Science Foundation of China: The researches on poroelastic behaviors of osteon and mechano-electrical properties of bone. (No. 11302143, 2014/01—2016/12, Project Leader)
3. China Postdoctoral Science Foundation: Study on the injury mechanism of articular cartilage associated with fluid flow. (No. 2020M680913, 2020/05—2022/05, Project Leader)
Selected publications
1. Wu Xiaogang, Li Chaoxin, Chen Kuijun, Sun Yuqin, Yu Weilun, Zhang Meizhen, Wang Yanqin, Qin Yixian. Chen Weiyi*. Multi-scale mechanotransduction of the poroelastic signals from osteon to osteocyte in bone tissue. Acta Mechanica Sinica,2020,36(4): 964-980.
2. Yu Weilun, Wu XiaoGang*, Cen HaiPeng, Guo Yuan, Li ChaoXin, Wang YanQin, Qin YiXian & Chen WeiYi* (Corresponding Author), Study on the biomechanical responses of the loaded bone in macroscale and mesoscale by multiscale poroelastic FE analysis [J]. BioMedical Engineering OnLine, 2019, 18(1): 122.
3. Wu Xiaogang, Chen Kuijun, Wang Zhaowei, Wang Ningning, Yu Weilun, Xue Yanan, Wang Yanqin, Chen Weiyi*. An analytical poroelastic model for laboratorial mechanical testing of the articular cartilage (AC). Applied Mathematics and Mechanics (English Edition), 2018, 39(6): 813-28.
4. Cen Haipeng, WU Xiaogang*, Yu Weilun, Liu Qiuzu, Jia Yuemei. Effects of the microcrack's shape, size and direction on the poroelastic behaviors of a single osteon: a finite element study, Acta of Bioengineering and Biomechanics, 2016, 18(1), 3-10.
5. WU Xiaogang, Wang yanqin, Wu xiaohong, Cen haipeng, Guo yuan, Chen Weiyi*. Effects of microcracks on the poroelastic behaviors of a single osteon. SCIENCE CHINA Physics, Mechanics & Astronomy, 2014, 57: 2161-2167.
6. WU Xiaogang, CHEN Weiyi*. A hollow osteon model for examining its poroelastic behaviors: Mathematically modeling an osteon with different boundary cases, European Journal of Mechanics / A Solids, 2013, 40:34-49.
Books
1. WU Xiaogang, Chen Weiyi. Poroelastic behaviors and mechano-electrical properties of bone. Shanxi science and Technology Publishing House.2014. (ISBN:978-7-5377-4748-6)
Patents
1. Xiao-Gang Wu, Kui-Jun Chen, Yan-Qin Wang, et al. A method for testing Sliding friction of biological soft tissue materials. (No. CN ZL201710305565.4)
2. Xiao-Gang Wu, Yan-Qin Wang, Hong-Xiao Wu, et al. A device and method for testing the permeability of porous materials. (No. CN ZL201510981827.X)
3. Xiao-Gang Wu, Yan-Qin Wang, Hong-Xiao Wu, et al. A preparation method of carbon point/polyacrylamide cartilage substitute material with fluorescence tracer property. (No. CN ZL201410271074.9)
4. Xiao-Gang Wu, Yan-Qin Wang, Hai-Peng Cen, et al. A method for preparing composite hydrogel. (No. CN 2014104677389)
