Faculty Profile
 
  HU Xiaofang
     
Department: Department of Modern Mechanics
Mailing Address:
Department of Modern Mechanics, University of Science and Technology of China, 443 Huangshan Rd, Hefei, Anhui, PR China
Postal Code:
230027
Phone:
551-63601248
Fax:
0551-63606459
Homepage:
http://mech.ustc.edu.cn/szdw/szml/js/201008/t20100827_32077.html
 
       

Research Profile

Dr. Hu Xiaofang, male, is currently a professor of the Department of Modern Mechanics, University of Science and Technology of China. Hu graduated from the Department of Mathematics and Mechanics, Hefei University of Technology in 1982 with a B.S. degree. From 1982 to 1984, Hu worked at Gansu University of Technology. Hu earned his M.S. in Solid Mechanics from Hefei University of Technology in 1987, and his Ph.D. in Optical Instruments from Beijing Institute of Technology in 1991. After receiving his Ph.D., Hu did his postdoctoral work at the Postdoctoral Mobile Research Station for Solid Mechanics, University of Science and Technology of China. In 1993, Hu joined the faculty of USTC and has been working at the Department of Modern Mechanics since. From May 2004 to July 2004, Hu undertook research at the Institut für Verbundwerkstoffe GmbH in Germany as a senior visiting scholar. Prof. Hu has been engaged in experimental research in the field of solid mechanics, especially in research on testing and evaluation of synchrotron radiation materials. Prof. Hu has presided over and participated in more than a dozen research projects such as projects supported by a grant from the Major Programs of the Chinese Academy of Sciences during the 9th Five-Year Plan Period, as well as projects and surface projects supported by the State Key Program of National Natural Science of China. Up to now, Prof. Hu has authored over 50 research papers in academic journals both at home and abroad. At present, Prof. Hu also serves on the Committee of Experimental Mechanics,  Chinese Society of Theoretical and Applied Mechanics (CSTAM).
 
     
Selected Publications
1) In situ observations of fractures in short carbon fiber/epoxy composites , Carbon , 2014 , Vol.67, 368-376
2) In situ investigation on the mixed-interaction mechanisms in the metal ceramic system’s microwave sintering , Acta materialia , 2014 , Vol.66, 293-301
3) 碳化硼固相烧结微观结构演化的同步辐射CT观测 , 无机材料学报 , 2009 , Vol.24,No.1
4) Role of Second Phase Powders on Microstructural Evolution During Sintering , Experimental Mechanics , 2014 , Vol.54, 57-62
5) In Situ Investigation of the Silicon Carbide Particles Sintering , Journal of Nanomaterials , 2010 , Volume 2011, doi:10.1155/2011
6) 衍射增强计算机断层技术研究 , 物理学报 , 2007 , Vol. 56, No.8
7) In-situ investigation of 3D mechanical microstructure at nanoscale: Nano-CT imaging method of local small region in large scale sample , The scientific world journal , 2014 , http://dx.doi.erg/10.1155/2014
8) A new method to extract angle of refraction in diffraction enhanced imaging computed tomography , J. Phys. D: Appl. Phys. , 2007 , 40,6917-6921
9) In situ investigation of metal's microwave sintering , Materials Letters , 2012 , 67 (2012) 162–164
10) Algorithm study on reconstruction of refractive angles in fan beam diffraction enhanced computed tomography , CHIN.PHYS.LETT. , 2008 , Vol.25,No.3
11) Research on in situ observation of fracture process of fiber/epoxy composites , Advanced Materials Research , 2012 , Vols.392-392(2012) pp297-302
12) 铝粉固相烧结过程的微结构演化 , 材料研究学报 , 2008 , Vol.22,No.5
13) Internal Microstructure Evolution of Aluminum Foams under Compression , Material Research Bulletin , 2006 , 41, 1949-1958
14) 同步辐射CT技术衬度误差机理分析 , 物理学报 , 2006 , Vol.55,No.8
15) A Microscopic Model of the asymmetric neck growth during sintering process upon the asymmetric particle arrangement , Advanced Materials Research , 2011 , Vol.327 (2011) pp 66-71
16) In Situ Investigation of ceramic sintering by Synchrotron Radiation X-Ray Computed Tomography , Optics and Laser in Engineering , 2010 , 48:1082-1088
17) 物体内部三维位移场分析的数字图像相关方法 , 物理学报 , 2006 , 55(10):5135-5139
18) A novel denoising method based on Radon transform and fltered back-projection reconstruction algorithm , Optics and Lasers in Engineerin , 2011 , doi:10.1016/j.optlaseng.2011
19) SR-CT filter-back-projection algorithm and application in detection of microstructure evolution , Procedia Engineering , 2010 , 7 (2010) 63-71
20) 基于SR-CT技术残缺投影数据的研究 , 光学技术 , 2006 , Vol.32,No.6
21) In Situ Investigation of SiC Powder’s Microwave Sintering By SR-CT Technique , SCIENCE CHINA Technological Sciences , 2011 , DOI: 10.1007/s11431-011-4405-1
22) 同步辐射计算机断层技术光源误差机理分析 , 物理学报 , 2008 , Vol.57,No.10
23) 加权窗口在数字图像相关技术中的应用研究 , 光子学报 , 2008 , Vol.37,No.12
24) 纳米压痕法研究PZT压电薄膜的力学性能 , 实验力学 , 2007 , Vol.22,No.6
25) 陶瓷粉末烧结演化的同步辐射CT观测 , 实验力学 , 2007 , Vol.22, No.5
26) The Development of A Novel SR-CT Technique-Originated Equipment for Microwave Sintering , Procedia Engineering , 2010 , 7 (2010) 72-80
27) 应用SXR-CT技术研究闭孔泡沫铝微结构演化及变形分析 , 材料科学与工程学报 , 2006 , Vol.24, No.2
28) 同步辐射X射线衍射增强CT方法研究 , 光子学报 , 2006 , Vol.35, No.10
29) SR-CT乘型迭代算法的研究 , 实验力学 , 2006 , 21(3):381-3 86
30) 适用于SR-CT技术的新重建算法 , 实验力学 , 2006 , 21(4):467-472
31) 材料拉压加载试验实时同步辐射CT分析系统 , 实验力学 , 2006 , Vol.21,No.3
32) 四柱式一体化拉压加载和转动装置的研制 , 中国科学技术大学学报 , 2006 , Vol.36,No.4
33) 多孔泡沫铝压缩过程中微结构演化 , 实验力学 , 2005 , Vol.20,No.3
34) Bi-2223/Ag高温超导带材内部结构损伤演化及力学性能研究 , 实验力学 , 2004 , Vol.19,No.1
35) Stress-strain-critical current and coer damage evolution for Bi-2223 comosite tapes , The 11th European conf.on composite material , 2004 , Greece,May2004
36) Internal structure damage evolution in composite using synchrotron radiation , The 11th European conf.on composite material , 2004 , Greece,May2004
37) SXR-CT技术应用研究烧结陶瓷三维微结构拓扑形貌 , 材料科学与工程学报 , 2003 , Vol.21,No.3
38) 应用SR-CT技术研究陶瓷材料的孔隙结构及密度分布 , 实验力学 , 2003 , Vol.18,No.4
39) Investigation on Internal Microstructure Damage Evolution in Bi-2223/Ag HTS tapes by Synchrotron Rad , SPIE , 2002 , Vol.4537
40) 低温环境下光纤位移传感器测试系统的应用研究 , 实验力学 , 2002 , Vol.17,No.1
41) Experimental research of the test system for superconductor Ag clad b\Bi2Sr2Ca2Cu3Ox tapes under ten , SPIE , 2002 , Vol.4537
42) 应用同步辐射光刻技术研究复合材料内部损伤 , 中科大学报 , 2002 , Vol.30增刊
 
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