摘要
适应新工科形势要求,践行新材料的“材料基因组”创新研究模式,讨论并精选材料综合计算实践内容,培养学生在材料与零件创新设计中的新材料源头设计(结构与性能)计算、成形工艺仿真计算和服役与安全评估计算这一全链条、跨尺度材料开发应用过程中的综合计算能力,减少材料开发研究与零件设计研究中炒菜式试错试验,使材料与零件创新设计的思路尽可能发散而不受束缚。项目研究选取相关典型计算案例,设计出开放性虚拟仿真实验项目,通过这些具体实验使学生掌握目前先进的材料计算软件,既补全了学生材料学科知识体系,也适应新工科形势下的材料教学与研究需求。
To adapt to the new engineering situation,the new“materials genome”innovation research model was practiced and the comprehensive materials calculation cases were well-designed.The students creativity in the whole process of source design of new materials and parts,simulation calculation of forming process and life evaluation calculation was aimed to cultivate.The mass trials and error tests in material design were reduced.The creativity in materials design were motivated at the largest degree.Typical calculation cases were selected and open virtual simulation experiments were designed.Students can be proficient in the advanced material calculation software,which not only improve their knowledge system,but also the needs of material teaching and research at the new engineering situation.
作者
席生岐
高圆
王红洁
丁向东
牛靖
李烨飞
XI Shengqi;GAO Yuan;WANG Hongjie;DING Xiangdong;NIU Jing;LI Yefei(School of Material Science and Engineering,Xi an Jiaotong University,Xi an 710049,China)
出处
《实验室科学》
2021年第1期29-33,39,共6页
Laboratory Science
基金
西安交通大学教改项目(项目编号:17ZX075
1815Y
1612A)
西安交通大学材料学科交叉实践创新平台建设项目(项目编号:1708
1902)。
关键词
新工科形势
“材料基因组”创新研究模式
全链条材料综合计算实践
new engineering situation
materials genome innovation research model
whole chain comprehensive materials calculation practice
