材料各向异性与织构教育部重点实验室

发稿时间:2020-04-10浏览次数:28

200512月由教育部批准立项建设,20085月通过验收正式成立,20127月和201811月通过教育部复评。实验室依托于东北大学国家重点学科材料学二级学科,是学校“211工程“985工程和“双一流大学”重点建设的科技创新基地之一。秦高梧教授担任实验室主任,卢柯院士任学术委员会主任。

实验室以材料各向异性与织构的表征、设计和控制及相关高新材料研制为主要特色,紧密结合国际学科发展趋势及国家和区域经济社会发展需求,重点建设材料织构与微结构调控、材料集成计算工程、金属型线材与织构控制、金属材料腐蚀与防护、超导带材制备及应用等作为五个主干研究方向。

实验室围绕重点研究方向集聚和培养高素质专业人才,形成了一支年龄和知识结构合理、富有创新精神和国际化视野、团结合作的科研教学集体。实验室目前拥有固定人员57人,包括教授36人,副教授14人,讲师2人,技术人员4人,管理人员1人。其中国家千人计划”3人、长江学者1人、国家杰出青年基金获得者4人、四青人才”4人、教育部跨/新世纪人才13人。

实验室大力加强基础研究、高新技术开发与应用研究,积极参与国际科技前沿竞争,取得了一批具有远景性和重要价值的理论成果以及自主知识产权的新技术。最近5年,实验室承担国家级、省部级企业科研项目共440余项,科研进款共计1.2亿元,其中纵向到帐经费7500万元。其中国家“973”项目、“863”计划项目、国家科技支撑计划项目、国家重点研发计划等30余项,国家自然科学基金重点/面上项目70余项。发表学术论文980余篇,其中SCI收录论文602篇,包括Acta MaterialiaPhysical Review LettersAdvanced Functional MaterialsAdvanced Energy MaterialsCorrosion Science等相关领域一流期刊论文60余篇。编写中文专著5部,参编外文专著1部,其中一部荣获中国优秀科普图书奖,出版2部科普专著。获得国家级科研奖励1项,省部级科研奖励16项。授权发明专利84项,部分专利已实现转化。取得的代表性成果有:新型铁磁形状记忆合金相变晶体学与织构调控超低铁损硅钢织构控制理论与产业化关键技术第二代高温超导取向钉扎阵列与千米级带材制备高强铝合金板型材形变织构梯度与各向异性控制等。上述成果已成功应用于国家高铁、地铁、超高压输电、大飞机等国家重大工程。

坚持以高水平科研促进具有鲜明学科特色的高层次专业人才的培养,通过引进国外优质智力资源及联合培养研究生等形式使研究生教育与国际接轨并保持同步。跨院系打造交叉研究中心,联合培养创新型人才。与东北大学理学院、机械学院和生命健康学院联合成立医用金属材料研究中心,与东北大学理学院、计算机学院与软件学院联合成立计算材料学研究中心。每年招收硕士研究生、博士研究生、博士后200余人,培养了包括全国优秀博士论文奖获得者在内的大批优秀专业人才。每年选派4-5名优秀博士生出国进行为期1-2年的联合培养。

利用“985工程“211工程专项资金及地方政府和学校配套资金的投入,重点加强实验室基础设施和科研装备条件建设。拥有超过8000平方米的实验基地,建成了较为完整配套的材料制备-表征-检测实验平台,仪器设备总价值8000万元以上。最近5年,新购高分辨PPMSSQUIDXPS等材料检测设备等。已基本具备了开展材料各向异性与织构领域各种复杂、综合实验研究的能力,为实验室快速发展、迈向国际一流奠定了坚实的基础。

最近5年,实验室人员应邀在国际重要会议上作大会报告3、主题报告3次和特邀报告15次。邀请国(境)外学者来校合作交流72人次;教师出国(境)进修学习、科研合作及学术交流40人次。已与日本东北大学、法国梅兹大学、美国橡树岭国家实验室和阿贡国家实验室、美国田纳西大学等国外知名高校、研究机构建立了良好的国际合作关系;与国内中科院金属研究所、清华大学、北京科技大学、中南大学以及宝钢、本钢、东北轻合金、西南铝等开展了密切的科研合作,共同承担国家和企业重大科研任务。

实验室坚持前沿性、前瞻性和战略性相结合的建设原则,以各向异性材料领域的国际发展趋势为导向,以国民经济建设和国家安全的重大需求为驱动力,发展与强化具有优势的主攻学术方向,建立了特色鲜明的实验研究平台;加强国际科技交流与合作,积极引入并有效利用国外优质资源,进一步提升了高层次人才培养能力和科技创新实力;通过突破材料各向异性与织构领域的理论与技术,提高了我国在该研究领域的自主创新能力和参与国际前沿竞争的能力,为推进我国传统基础材料高性能化以及新材料研发提供了若干原创性理论成果与关键技术储备。

  

  

 验室网址链接: http://www.atm.neu.edu.cn/

  

  

  

Key Laboratory for Anisotropy and Texture of Materials (ATM)

Ministry of Education

     The Key Laboratory for Anisotropy and Texture of Materials ATM) was approved by the Ministry of Education of China in Dec. 2005, formally founded in May 2008, consequently passed the government assessment in July 2012 and Nov. 2018, respectively. ATM now is one of key innovation centers for science and technology of Northeastern University under “Project 211”, “Project 985” and “Double First-Class Initiative” based on the National Key discipline of Materials Science of. Professor Gaowu Qin is the director of the laboratory and Prof. Ke Lu, the member of the Chinese Academy of Sciences, is the Chairman of the academic committee.

    ATM is mainly characterized by the characterization, the design and control of the anisotropy and texture of materials and the development of the related high-tech materials, and is closely combined with the international development tendency of the Materials Science disciplines and the needs of the national and regional economic and social development, focusing on the construction of the material texture and microstructure control, the material integrated computing engineering, the metal wire and texture control, the metal material corrosion and protection, and the preparation and application of superconducting strip.

    Focusing on the key research directions and the training of high high-quality professionals, ATM has formed a scientific research and teaching group with reasonable age and knowledge structure, innovative spirit, international vision, and unity and cooperation. At present, the laboratory has 57 faculty members, including 36 professors, 14 associate professors, 2 lecturers, 4 technicians and 1 manager. Among them, there are 3 National thousand talents plan, 1 “Yangtze River scholar”, 4 winners of National Science Fund for Distinguished Young Scholars, 4 Four Young Talents, and 13 New Century Talents of the Ministry of education.

   The Lab emphasizes the fundamental research, the developing and application of high- and new-technology, actively participates in the international competition in the frontier of materials science and technology, and obtains great theoretical achievements with great vision and importance, and new technologies with independent intellectual property rights. In the past 5 years, the lab has been in charge of over 440 scientific research projects including national projects, provincial projects and companies’ projects, raising a total of ¥120,000,000 in research funding, in which ¥75,000,000 from governments. Over 30 projects are from the National Key Basic Research Program (973-Program), the National High Technology Research and Development Program of China(863-Program), the National Key Technology R&D Program of China and The National Key Research and Development Program of China, and over 70 projects come from General/Key Program of National Natural Science Foundation of China.

   The Lab has published over 980 academic papers, 602 of which were indexed by SCI, 60 of which were published on Acta Materialia, Physical Review Letters, Advanced Functional Materials, Advanced Energy Materials, Corrosion Science and other top Journals in the related fields. The Lab has edited 5 Chinese professional books, 1 foreign language professional book and 2 popular science books, one of which was awarded Outstanding Popular Science Book Award. The lab was awarded 1 National Scientific Research Award, 16 Provincial Scientific Research Award, authorized 84 patents. Main research achievements include Transformation crystallography and texture control of a new ferromagnetic shape memory alloyTexture control theory and key technology of industrialization of ultra-low iron loss silicon steel,the second generation of HTS oriented pinning arrays and the fabrication of kilometer scale tapes and Deformation texture gradient and the anisotropy control of high strength aluminum alloy sheet, which havebeen successfully applied to national G-series high-speed train, subway, extra-high voltage power transmission, large aircraft and other projects

   The Lab insists on the promotion of the education and training of the high-level professionals with distinctive disciplinary characteristics by high-level scientific research and to integrate and keep pace with international postgraduate education by introducing foreign expert intellectual resources and united training programs, builds cross-department cross-research centers and jointly cultivate innovative talents. A Medical Metal Materials research center was established jointly with School of Science, School of Mechanical Engineering and School of Life and Health, and a Computational Materials research center was setup jointly with School of Science, school of Computer and Software. Every year, the Lab recruits more than 200 postgraduate students, doctoral degree students and postdoctoral students, and has trained a large number of outstanding professional talents, including the winners of the National Excellent Doctoral Dissertation Award. Each year, 4-5 outstanding doctoral students are sent abroad for joint training for 1-2 years.

   Under the constructure of Project 985 and Project 211, the Lab focused on the laboratory infrastructure and scientific research equipment. A relatively complete experimental platform of “material preparation-characterization-testing” with more than 8,000 square meters and a total value of more than ¥80,000,000 in equipment has been built. In the past 5 years, ATM has newly purchased high-resolution PPMS, SQUID, XPS and other high-level materials testing equipment. It has basically the ability to carry out various complex and comprehensive experimental research in the field of material anisotropy and texture, which has laid a solid foundation for the rapid development of the laboratory and becoming a first-class in the world.

    In the last 5 years, laboratory members have been invited to make 3 plenary conference reports, 3 keynote reports and 15 special reports at important international conferences. More than 72 international Scholars were invited for cooperation and exchanges, and more than 40 teachers have been sent abroad (outside) for further study, scientific research cooperation, and academic exchanges. ATM has been continuously enhancing exchanges and cooperating with relevant universities, research institutions and enterprises both domestically and internationally, and strive to expand the academic impact of the laboratory both domestically and internationally, including Tohoku University of Japan, Metz University of France, Oak Ridge National Laboratory and Argonne National Laboratory, University of Tennessee and other well-known foreign universities and research institutions, as well as closely cooperation relationship with Institute of Metal Research, Chinese Academy of Sciences Universities, Beijing University of Science and Technology, Central South University, Baosteel, Benxi Iron and Steel, Northeast Light Alloy, Southwest Aluminum, etc.

     ATM insists on the construction principle of combination of cutting-edge, forward-looking and strategic following the international development trend in the field of anisotropic materials as the guide, takes the major needs of national economic construction and national security as the driving force, develops and strengthens the main academic characteristic direction, establishes a distinctive experimental research platform, strengthens international scientific and technological exchanges and cooperation, and actively introduces and integrates effectively foreign high-quality resources to improve the ability of high-level personnel training and scientific and technological innovation, enhances our independent innovation ability and the ability to participate in international frontier by breaking through the theory and technology in the field of material anisotropy and texture, which has provided some original theoretical fundaments and key technologies support.