实验室简介

首页 >> 实验室概况 >> 实验室简介

材料先进技术教育部重点实验室

材料先进技术教育部重点实验室


实验室于2003年获批立项建设,2007年通过教育部验收,2012年通过教育部评估。实验室总体定位:紧密围绕国家对先进材料的战略需求和材料科学的发展前沿,凝炼材料制备加工和应用中的表界面行为这一科学问题,聚焦界面调控、表面改性、材料连接和服役评价等核心技术,围绕功能复合材料、表面改性及功能化、材料焊接技术和材料服役行为及评价等研究方向,建设成为先进材料领域的应用基础研究和关键技术创新基地

(1)界面调控技术:针对复合材料制备和改性过程中的表界面行为,开展材料复合新机制和功能调控新技术等研究。

(2)表面改性技术:揭示材料表面结构控制和服役功能协同机制,发展高性能的关键结构部件及人工器官/医疗器械的表面改性技术。

(3)材料连接技术:阐明高寒、高速、重载环境下材料表界面熔接机制,突破无缝线路和车辆的焊接技术瓶颈。

(4)服役评价技术:揭示高铁轮轨材料损伤机理和规律,发展微动摩擦学理论和表征技术,支撑关键部件的服役安全。


Key Laboratory of Advanced Technologies of Materials, Ministry of Education


The Key Laboratory of Advanced Technologies of Materials (KLATM), Ministry of Education (MOE), was approved for construction in 2003, officially established in 2007, and successfully passed the appraisal by MOE in 2012. The KLATM is positioned closely the national strategic demands for advanced materials and cutting-edge areas of materials science. The KLATM focuses on the surface and interface profiles of materials preparation, processing and application to develop core technologies for interface controlling, surface modification, material joining and service evaluation. The KLATM has set up four distinct research fields including functional composites, surface modification and functionalization, material welding techniques, and service behavior and evaluation to construct into an international known base for basic research and technological innovation of advanced materials.

(1) Interface Controlling Technologies: Focus on the surface and interface profiles of materials preparation and modification to study new compositing mechanisms and develop novel technologies for function control.

(2) Surface Modification Technologies: Clarify synergistic mechanisms for surface structures and service functions of materials to develop novel surface modification technologies for key structural equipment, artificial organs and medical devices.

(3) Material Joining Technologies: Clarify the surface and interface fusion jointing technologies under severe cold, high speed and heavy load conditions to break the bottleneck of welding technologies for jointless tracks and vehicles.

(4) Service Evaluation Technologies: Clarify the damaging mechanisms and principles for wheel and rail materials to develop microfriction theories and characterization technologies and to support service safeties of key devices for the high-speed railway.




联系方式:

地址:成都市二环路北一段111号

邮编:610031

电话/传真:028-87634649

邮箱:klam@swjtu.edu.cn

网址:http://klam.swjtu.edu.cn




材料先进技术教育部重点实验室

2018年02月19日 次浏览

材料先进技术教育部重点实验室


实验室于2003年获批立项建设,2007年通过教育部验收,2012年通过教育部评估。实验室总体定位:紧密围绕国家对先进材料的战略需求和材料科学的发展前沿,凝炼材料制备加工和应用中的表界面行为这一科学问题,聚焦界面调控、表面改性、材料连接和服役评价等核心技术,围绕功能复合材料、表面改性及功能化、材料焊接技术和材料服役行为及评价等研究方向,建设成为先进材料领域的应用基础研究和关键技术创新基地

(1)界面调控技术:针对复合材料制备和改性过程中的表界面行为,开展材料复合新机制和功能调控新技术等研究。

(2)表面改性技术:揭示材料表面结构控制和服役功能协同机制,发展高性能的关键结构部件及人工器官/医疗器械的表面改性技术。

(3)材料连接技术:阐明高寒、高速、重载环境下材料表界面熔接机制,突破无缝线路和车辆的焊接技术瓶颈。

(4)服役评价技术:揭示高铁轮轨材料损伤机理和规律,发展微动摩擦学理论和表征技术,支撑关键部件的服役安全。


Key Laboratory of Advanced Technologies of Materials, Ministry of Education


The Key Laboratory of Advanced Technologies of Materials (KLATM), Ministry of Education (MOE), was approved for construction in 2003, officially established in 2007, and successfully passed the appraisal by MOE in 2012. The KLATM is positioned closely the national strategic demands for advanced materials and cutting-edge areas of materials science. The KLATM focuses on the surface and interface profiles of materials preparation, processing and application to develop core technologies for interface controlling, surface modification, material joining and service evaluation. The KLATM has set up four distinct research fields including functional composites, surface modification and functionalization, material welding techniques, and service behavior and evaluation to construct into an international known base for basic research and technological innovation of advanced materials.

(1) Interface Controlling Technologies: Focus on the surface and interface profiles of materials preparation and modification to study new compositing mechanisms and develop novel technologies for function control.

(2) Surface Modification Technologies: Clarify synergistic mechanisms for surface structures and service functions of materials to develop novel surface modification technologies for key structural equipment, artificial organs and medical devices.

(3) Material Joining Technologies: Clarify the surface and interface fusion jointing technologies under severe cold, high speed and heavy load conditions to break the bottleneck of welding technologies for jointless tracks and vehicles.

(4) Service Evaluation Technologies: Clarify the damaging mechanisms and principles for wheel and rail materials to develop microfriction theories and characterization technologies and to support service safeties of key devices for the high-speed railway.




联系方式:

地址:成都市二环路北一段111号

邮编:610031

电话/传真:028-87634649

邮箱:klam@swjtu.edu.cn

网址:http://klam.swjtu.edu.cn