Prof. Min ZHU
vice-president
School of Materials Science and Engineering,
E-mail: memzhu@scut.edu.cn
Tel : +86-(020)87113924
Professor of Mechanical Engineering, South China University of Technology, doctoral tutor, the 1999 winner of the National Outstanding Youth Science Foundation, Ministry of Education, Professor, "Chang Jiang Scholars Program." Currently Vice President, South China University of Technology.
In 1982 graduated from the Dalian University of Technology, Dalian University of Technology in 1988 received his Ph.D. degree. 1985 taught at the Dalian University of Technology, in 1990 was appointed associate professor in 1995, professor of South China University of Technology. Has worked as a "Croucher Visiting Scholar", "Humboldt Research Fellow", "guest researcher" and has engaged in research in universities and research institutions of the City University of Hong Kong, Berlin University of Technology, University of Tokyo, Japan's National Institute for Materials, University of Sydney work.
Professor Zhu Min 's main research areas include : mechanical alloying materials , nano- metal materials, hydrogen storage materials , phase transformation , shape memory alloys and smart materials. In recent years, Professor Zhu Min presided over the National Outstanding Youth Science Fund , Ministry of Education, "Changjiang Scholars and Innovative Research Team program " Innovation Team Project , the National Natural Science Foundation of China , the National Natural Science Foundation of China , Ministry of Science , " 973 " early special education Ministry of major projects nurture projects, the Ministry of Education outstanding Young Teachers Fund , the Guangdong Provincial Natural Science Foundation team project , Guangdong Province and a number of scientific and technological research projects . Published in international academic journals published more than 60 papers and was granted six patents , editor and coauthor of " functional material" , "Introduction to the new material ," " Material Forming Technology" , " industrial design materials and surface treatment ." and other teaching materials and books . Won the Ministry of Education and Technology Progress Award , Ministry of Education, the National Science and Technology Award nominations Natural Science Award . He himself had received " Fok Ying Tung Education Foundation Outstanding Young Teacher Award " ( Second Class Research ), Guangdong Province, " Ding Ying Science and Technology Award", Guangdong Province, "Guangdong outstanding teachers ," Ministry of Education " excellent teachers " and other honors.
Professor Zhu Min also served Chinese Mechanical Engineering Society Physical examination committee vice chairman, Ministry of Education, Higher Education Steering Committee of Metal Materials and Metallurgy Engineering Committee, Chinese Society for Metals Materials Science Branch Director, Chinese Society of Rare Earths Rare Earth New Materials Professional Committee "progress in Natural Science, "" Journal editorial metal "and other publications, such as part-time academic, Professor Zhu Min or International Hydrogen Energy Association (IHEA) material Handling Hydrogen Commission (HTM) Committee, Member of Asia-Pacific Academy of Materials.
Prof. Yan GAO
School of Materials Science and Engineering,
Education
July 1985, graduated from the Department of Materials Engineering, Dalian University of Technology, a bachelor's degree
December 1987, graduated from the Master of Materials Engineering, Dalian University of Technology, a master's degree
June 2005, Dr. graduated from South China University of Technology School of Mechanical Engineering, Ph.D.
Work Experience
1987.12-1992.12 Assistant Professor of Chemical Engineering, Dalian University of Technology lecturer
1993.1-1994.1 Lecturer, Department of Materials Engineering, Dalian University of Technology
1994.1 - 1995.4 Goethe Institute in Berlin, Germany Education
1995.6 - 1998.9, South China University of Technology School of Mechanical Engineering Lecturer
1997.5 - 1997.8 Portugal Welding Quality Institute (ISQ) Visiting Scholar
1998.10-2005.11 Associate Professor of Mechanical Engineering, South China University of Technology
2005.12-present Professor of Mechanical Engineering, South China University of Technology
2006.12-present Professor of Mechanical Engineering, South China University of Technology, doctoral tutor
Introduction to research
Has been engaged in research work plating surface treatment technology, nano-functional materials, corrosive nanocrystalline materials with microscopic mechanism of shape memory alloy properties and applications, industrial equipment evaluation and failure analysis and other aspects. Research work in related areas has accumulated nearly 50 published papers, of which more than 10 articles published in SCI-indexed journals in English abroad.
1. plating surface treatment
In recent years, presided over the "electroless Ni-MP nanocrystalline coating and corrosion wear mechanism of self-passivating" (2003 Provincial Fund), "electromagnetic shielding film multilayer plating on military research and communications products and in coating applications "(2004 provincial industrial research projects), has developed a different structure of Ni-P, Ni-WP, Ni-Co-P, Ni-Cu-P, Ni-Mo-P and other systems and on a variety of coating structure, corrosion resistance, electromagnetic shielding performance and other aspects carried out extensive and in-depth research, gained fruitful research results. Shenzhen Fiyta is currently working with companies, research plated stainless steel case surface chemical processes.
2. functional nanomaterials
Co-chaired the " preparation techniques and explore the theory and application of nano-composite structural materials " ( Guangdong Natural Science Foundation team project , 2005 ) ; as the main backbone of the number involved in the preparation of nanostructured materials relating to the structure and performance analysis work in research projects , such as " new metal hydrogen storage materials and hydrogen storage mechanism " ( national Natural Science Foundation of China , 2007 , 50,631,020 ) , "dual system of immiscible phase stable nano composite structure under external field sex " ( national Natural Science Foundation of China , 2004 , 50,371,027 ) , " immiscible characteristics and structural stability of the system driven by mechanical alloying non-equilibrium phase transition and the associated metastable materials " ( national Outstanding Youth Science Foundation , 2000 , 59,925,102 ) , "Impact nanocrystalline structure defects on mechanical alloying and synthesis of hydrogen storage alloys " ( national Natural Science Foundation of China , 1997 ) , "nano- phase composite structure grown rule, stable research and its impact factors " ( Guangdong Provincial Natural Science Foundation of China , 2004 , 36549 ) and so on. In the study of these projects , the completion of a large number of micro- nano- structure analysis and performance testing aspects of the work , made a lot of cutting-edge research. And in January 2005 won a second prize in the National Ministry of Education, Science and Technology nominated prize Natural Science Award in the field .
3. corrosion and microscopic mechanisms of nanomaterials
Research carried out in recent years mainly nanocrystalline alloy corrosion behavior and mechanism of respect. In the " electroless Ni-PM single-phase nanocrystalline coating of self- passivation mechanism and wear and corrosion performance " issues in depth study of amorphous Ni-P, Ni-WP coating crystallization treatment obtained nanocrystalline coating corrosion performance variation was found although the nano- elements in the grain boundary diffusion rate can serve to improve the effect, but only the effect of the alloy with a sufficient amount of the diffusion path from the passive element and the ability to provide nano- grain boundary surface of the enrichment , to generate more dense passivation film to improve the corrosion resistance of the alloy . The above work has deepened the corrosion behavior and mechanism of nanocrystalline alloys understanding.
In the study , based on the ongoing research process and corrosion resistance of ECAP prepared bulk nanocrystalline of stainless steel . Select single phase austenitic stainless crude crystalline starting material for the study , the study can overcome some of the limitations described above , while the presence of Cr in stainless steel to examine the diffusion path of nanocrystalline boundary elements from the passive role provides a convenient conditions . Research for this project , not only can the high strength and toughness properties of nanocrystalline applied to the block of stainless steel , meanwhile, is expected to make stainless steel corrosion resistance is not reduced or even increased , resulting in a more comprehensive performance excellent stainless steel . This will not only greatly improve the potential applications of stainless steel , and to deepen the understanding of the mechanism of the law of the corrosion resistance of nanocrystalline materials awareness also has important academic significance . Related topics was declared a National Natural Science Foundation and the Natural Science Foundation of Guangdong Province in 2007 .
4. the shape memory alloy
On the basis of basic research early Cu-Zn-Al shape memory alloys and Ni-Ti shape memory alloy bulk, Affiliated Hospital of Sun Yat-sen is currently carried out in collaboration with the Ni-Ti shape memory alloy applied research and development in the field of medicine, such as Ni-Ti shape memory alloys in terms of the development of dental orthopedic applications such as spinal vertebrae and the shape memory alloy Ni-Ti's dilator. 2006 Second Affiliated Hospital of Sun Yat-sen and co-chaired the social development projects in Guangdong Province "implantable vertebral dilator Development and Application." Medical field has a great demand for Ni-Ti shape memory alloys, applied research and therefore Ni-Ti shape memory alloy has a very good application prospects and social benefits.
5. industrial equipment operation inspection and assessment of the organization and Failure Analysis
Equipment life in Portugal in 1997 to assess the quality of welded metal structure Institute laminating equipment life testing and assessment techniques dedicated training and learning, and with the Portuguese Institute of Welding quality experts were together in Tangshan Douhe fired power plants and beads Hongwan machine plant life assessment project to undertake the old boiler, has accumulated rich experience in equipment inspection and site work life assessment project. Thermal power plants currently in the Guangdong region of the metal structure of the scene to carry out a wide range of non-destructive testing and component laminating operation damage assessment work, while engaged in failure analysis of power plant equipment parts, has completed a large analysis of actual cases, in the Guangdong region power plant has established a good reputation and client relationships, have created greater social and economic benefits for the community each year.
Prof. Liuzhang OUYANG South China University of Technology, Guangzhou, China 510640 E-mail: meouyang@scut.edu.cn |
Work Experience
The main research areas of Professor Liuzhang OUYANG include : hydrogen storage materials, battery cathode materials, thin film materials, smart materials, such as hydrogen and hydrolysis. In recent years, Professor Ouyang Liu Zhang chaired the National Natural Science Foundation 2, "863" sub-project and the Guangdong city of science and technology research each one, a team project in Guangdong Province, the "core members" in 2006 appeared in the "Program for New Century Excellent Talents Scheme "Guangdong Province" Qianbaishi Project "university backbone. Published papers in international journals, more than 50 papers, the China national invention patents and utility model patents eight.
2001.9-2002.3 City University of Hong Kong Research Assistant
2002.7-2003.6 University of Sydney Visiting Scholar
Prof. Jiangwen LIU
School of Materials Science and Engineering
South China University of Technology, Guangzhou, China 510640
E-mail:mejwliu@scut.edu.cn
TEL:87114234
1987 and 1990 in the Shanghai Jiao Tong University, Materials Science and Engineering, were awarded bachelor's and master; 1998 for heat treatment of metal materials and professional doctorate South China University of Technology. Of Technology has engaged in research work at the Hong Kong Polytechnic University and the Australian Queensland University.
The main research directions: strengthening and characterization of metallic materials, surface hardening alloys, materials microstructure characterization, alloy solid phase transformation crystallography and interfacial structure. Mainly responsible for the National Natural Science Foundation and the Natural Science Foundation of Guangdong Province and the provincial science and technology research projects. Including alloy surface hardening; nitrogen austenite phase transition temperature; aging high performance magnesium alloy microstructure evolution and enhancement; electron microscopy characterization of nanomaterials and nano-films; ultra-high-strength steel and special alloy steel Bayesian body, martensitic transformation; and the transition stage precipitation hardening stainless steel, wear-resistant austenitic steel research and development, high cobalt hot die steel and so on.
Courses: "Materials Characterization of the structure and organization", "crystal dislocations and plastic deformation theory", "crystal structure basis", "micro-analysis material."
In academic journals published more than 50 articles, SCI indexed more than 20 articles.
Publications:
1. XZ Yang, HY Zhu, Jiangwen Liu, XP Gao, WN Martens, RL Frost, YN Shen, ZF Yuan. Microporous and Mesoporous Materials, 2008, V112, 32
2. HL Cao, CP Luo, Jiangwen Liu, C.L. Wu and G.F. Zou. Scripta Materialia, 2008,V58,786
3. Yanling Ai, Chengpin Luo, and Jiangwen Liu. Acta Materialia, 2007, V55, 531
4. Dongling Jiao, Chengping Luo, and Jiangwen Liu. Scripta Materialia, 2007, V56, 613
5. XB Ke, HY Zhu, XP Gao, Jiangwen Liu, and ZF Zheng. Advanced Materials, 2007, V19, 785
6. HY Zhu, JC Zhao, Jiangwen Liu, XZ Yang, and YN Shen. Chemistry of Materials, 2006, V18, 3993
7. Jiangwen Liu, and Chengping Luo. Materials Science and Engineering A, 2006, V438-440, 153
8. Chengping Luo, and Jiangwen Liu. Materials Science and Engineering A, 2006, V438-440, 149
9. Jiangwen Liu, Chengping Luo, Dongxiao Wu. Progress in Natural Science, 2005, V15, 273
10. Chengping Luo, Jiangwen Liu, and Hongwei Liu. Materials Science Forum, 2005, V488-489, 205
Prof. Bin YUAN
Born in June 1977, Jiangxi Taihe
Currently Professor of Materials Science and Engineering, South China University Guangzhou, Ministry of Education, "New Century Excellent Talents"
Email:apsheng@scut.edu.cn
Introduction:
Pro. Hui Wang
School of Materials Science and Engineering,
Tel : +86-(020) 87112762
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Learning Experience | ||
Teaching: “Mechanical Engineering Materials”, “Functional Materials” Research on Rietveld refinement of microstructure from the X-ray powder diffraction Preparation, microstructure and hydrogen storage properties of Mg-Ni films by magnetron sputtering | ||
Research | ||
Development on the light-weight hydrogen storage alloys with high capacity of hydrogen: such as Mg, Mg-Ni and complex aluminum hydrides Non-equilibrium state synthesis of metastable materials by film deposition and mechanical alloying Microstructure analysis by X-ray diffraction with Rietveld method; Line profile analysis; X-ray reflection characterization of thin film | ||
| Reports | ||
| 1. Microstructure and hydrogenation properties of Mg-Ni films by magnetron sputtering The 7th APAM (Asia-Pacific Academy of Materials) Topical Seminar: Multilayered Structures and Coatings, Guangzhou, China, 2002 2. Preparation of Mg2Ni hydrogen storage alloy by two-step method The 9th National Young Material Scientists Meeting, Haerbin, China, 2001 | ||