徐洋

2018-10-23
姓 名徐洋

职 称研究员
职 务
所属系机械设计系
邮 箱Yang.Xu at hfut.edu.cn
电 话
个人基本情况

教育背景

博士,机械工程系,美国奥本大学,2017

硕士,机械工程系,美国奥本大学,2012

学士,精密机械系,上海大学   2010

 

工作经历

研究员,伟德BETVLCTOR1946始于英国,伟德BETVLCTOR1946始于英国,2021-至今

博士后,詹姆士瓦特工程学院,格拉斯哥大学,2018-2020

工程师,虚拟产品开发部美国卡特彼勒,2018

助理工程师,运输事业部,美国莫仕公司,2015-2016

主要研究方向

1.粗糙表面接触力学(包括:随机过程解析模型,有限元和边界元计算模型,实验方法,以及粗糙表面接触理论在工程实际中的应用等)

2.接触/摩擦起电

3.断裂力学在接触力学中的应用

开设课程
暂无
近年的科研项目、专著与论文、专利、获奖

近三年主持的科研项目:

1、伟德BETVLCTOR1946始于英国,伟德BETVLCTOR1946始于英国引进人才启动基金,2021/01-2025/1230万元,在研,主持

2、英国工程与自然科学研究理事会 (EPSRC),面上项目 (Standard Research), EP/V003380/1,基于摩擦纳米发电机的新型能量自洽型纺织物(Next Generation Energy Autonomous Textile Fabrics based on Triboelectric Nanogenerators)2020/12-2024/11150万英镑,在研,参加

3、日本大丰工业摩擦学研究基金 (Taiho Kogyo Tribology Research Foundation),面上 (Research Grant)20A10,摩擦纳米发电机的摩擦学特性研究 (Tribology of Triboelectric Nanogenerators: Understanding how Interface Mechanics Effects Electrical Output)2021/01-2022/013万美元,在研,参加

4、利华休姆信托基金 (The Leverhulme Trust),面上项目 (Research Project Grant)RPG-2017-353,微纳织构界面的机械性能 (Fundamental Mechanical Behaviour of Nano and Micro Structured Interfaces)2018/10-2021/10, 13万英镑,在研,参加

5、日本大丰工业摩擦学研究基金 (Taiho Kogyo Tribology Research Foundation),面上 (Research Grant)16B07,使用扫描电子显微镜及纳米涂层技术测量实际接触面积 (Measurement of the Real Area of Contact using Coating Technique and SEM)2017/01-2018/013万美元,已结题,主持

 

发表学术论文:

部分代表作

[1]  Xu, Y., Jackson, R.L., and Marghitu, D.B., 2014, Statistical model of nearly complete elastic rough surface contact, International Journal of Solids and Structures, 51, pp.1075-1088.

[2] Xu, Y., Rostami, A., and Jackson, R.L., 2015, Elastic contact between a geometrically-anisotropic bi-sinusoidal surface and a rigid base, ASME Journal of Tribology, 137(2), p.021402

[3]  Xu, Y., and Jackson, R.L., 2017, Statistical models of nearly complete elastic rough surface contact-comparison with numerical solutions. Tribology International, 105, pp.274-291.

[4]  Xu, Y., and Jackson, R.L., 2018, Periodic contact problems in plane elasticity - the fracture

mechanics approach, ASME Journal of Tribology, 140(1), p.011404.

[5]  Xu, Y., Chen, Y., Zhang, A., Jackson, R.L. and Prorok, B.C., 2018. A new method for the

measurement of real area of contact by the adhesive transfer of thin Au film. Tribology Letters, 66(1), p.32.

[6]  Xu, Y. and Jackson, R.L., 2019. Boundary element method (BEM) applied to the rough surface contact vs. BEM in computational mechanics. Friction, 7(4), pp.359-371.

[7]  Ciavarella, M., Xu, Y., and Jackson, R.L., 2019, The generalized Tabor parameter for adhesive rough contacts near complete contact, Journal of the Mechanics and Physics of Solids, 122, pp.126-140.

[8]  Xu, Y., Min, G., Gadegaard, N., Dahiya, R., and Mulvihill, D.M., 2020. A Unified Contact

Force-Dependent Model for Triboelectric Nanogenerators Accounting for Surface Roughness.

Nano Energy, 76, p.105067

[9]  Min G., Xu, Y., Cochran, P., Gadegaard, N., Mulvihill, D.M., and Dahiya, R., 2021. Origin of the Contact Force-Dependent Response of Triboelectric Nanogenerators, Nano Energy, p.105829.

 

发表专利

 


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