摘要
针对传统加工和普通三维设计软件在创新设计存在限制的问题,为释放学生的创新设计思维,将3D打印和创新拓扑优化设计进行交叉结合,通过仿真驱动设计,借助结构优化软件工具,采用拓扑优化技术最大化地挖掘3D打印的制造潜力,获得复杂结构、异形、轻量而高性能的产品。同时通过与企业产学研合作,建设了创新设计优化结合3D打印的创新实践平台,将3D打印在产业中的应用案例引入到本科教学,引入企业导师,将企业资源以通选学分课程的方式融入学校人才培养课程体系,建设了“3D打印结构优化与创新设计”校企课程,通过与企业合作引入新技术、共建课程、组织竞赛的循环联动模式,将3D打印领域实践教育与产业界深度融合,吸引了大量学生参与,有效提高了学生的创新实践能力,形成了良性互动的产学协同育人机制。
In order to remove the limitations of traditional processing&common CAD software on innovative design,this paper introduces the cross-integration of 3D printing with innovative topological optimaization design through simulation-driven design,with the help of structure optimization software tools,topology optimization technology is used to maximize the manufacturing potential of 3D printing,broaden students'innovative design mode of thinking and obtain products with complex structure,special shape,light weight and high performance.Through the cooperation with enterprises,an innovative practice platform of innovative design optimization combined with 3D printing was constructed.The industrial application case of 3D printing was introduced to undergraduate teaching.Enterprise tutors were introduced.Enterprise resources were integrated into curriculum system of talent cultivation in universities in the form of general elective credit courses.And the university-enterprise credit course of“structure optimization and design innovation for 3D printing”was constructed.Through cooperation with enterprises,the linkage mode of introducing new technologies,co-building courses and organizing competitions was established.The practical education in the field of 3D printing was deeply integrated with the industry,which attracts many students to participate and effectively improves students'innovative and practical ability.A positive interactive industry-university collaborative education mechanism has been formed.
作者
李翠超
陶波
蔡天舒
徐巍
吴俊琦
LI Cuichao;TAO Bo;CAI Tianshu;XU Wei;WU Junqi(Student Innovation Center,Shanghai Jiao Tong University,Shanghai 200240,China;Altair Engineering Software(Shanghai)Co.,Ltd.,Shanghai 200436,China)
出处
《实验室科学》
2025年第6期233-239,共7页
Laboratory Science
基金
上海交通大学2023年决策咨询课题实验技术专项(项目编号:JCZXSJB2023-08)。
关键词
3D打印
学分课程
拓扑优化
校企协同育人
仿真驱动设计
3D printing
credit courses
topology optimization
school-enterprise cooperative education
simulation driven design
