11月29日北京科技大学牛康民教授来校作学术报告
报告题目:大型民用飞机复合材料结构的经验总结之一:
碳纤维增强复合材料的抗压强度研究
报 告 人:北京科技大学 牛康民教授、博士生导师
报告时间:2024年11月29日(周五) 上午10点
报告地点:航北楼506会议室
组织单位:新型航空飞行器江西省重点实验室、南昌航空大学洪都650所研究生工作站、南昌航空大学航空宇航学院联合举办
专家简介:
牛康民,北京科技大学教授、佐治亚理工大学 Georgia Institute of Technology 航空工程博士、博导、北科杰出学者、国家特聘专家;现任北科大复合材料结构工程中心主任;此前任西门子公司院士工程师,负责新一代大型燃气轮机叶片完整性和寿命方法包括高性能碳纤维树脂基复合材料和陶瓷基复合材料结构。曾任美国波音公司机体结构实验室结构技术负责人,做为波音民用飞机集团复合材料结构资深专家参与了最新型777X、787梦想飞机机翼和机身结构的设计、分析与试验。主导确立公司非线性有限元模型分析方法。
报告摘要:
The successful development of all composite structure aircraft, for example well known Boeing's 787 and Airbus's A350 aircrafts, represents a revolutionary breakthrough in composite material technology. However, it is well recognized that the compressive strength of advanced resin-based composites is much lower than the tensile strength. The higher the fiber strength property, the greater the gap. The low compressive strength of high-performance carbon fiber reinforced polymer (CFRP) composites has been an issue in the companying composites industry for decades. K Niu and R Talreja (2000) proposed a resin controlled yield criterion for the compressive failure of unidirectional fiber composites, which turned out to be in a very simple expression as the rule of mixtures for axial compression. The rule of mixtures is illustrated to show compressive failure of a fiber composite in this presentation.