物联网技术
物聯網技術
물련망기술
INTERNET OF THINGS TECHNOLOGIES
2013年
11期
51-53
,共3页
拉压试验机%结构设计%拓扑优化%OptiStruct
拉壓試驗機%結構設計%拓撲優化%OptiStruct
랍압시험궤%결구설계%탁복우화%OptiStruct
tension and compression testing machine%structural design%topology optimization%OptiStruct
现代工业的发展对拉压试验机的应用范围和实验性能提出了越来越高的要求。文中介绍了拉压试验机常见的立式和卧式框架结构,分析了其结构形式、应用场合及基本应用方法,并将拓扑优化设计方法引入到拉压试验机的设计中,最终减轻了结构重量,改进了结构的强度、刚度等特性。
現代工業的髮展對拉壓試驗機的應用範圍和實驗性能提齣瞭越來越高的要求。文中介紹瞭拉壓試驗機常見的立式和臥式框架結構,分析瞭其結構形式、應用場閤及基本應用方法,併將拓撲優化設計方法引入到拉壓試驗機的設計中,最終減輕瞭結構重量,改進瞭結構的彊度、剛度等特性。
현대공업적발전대랍압시험궤적응용범위화실험성능제출료월래월고적요구。문중개소료랍압시험궤상견적입식화와식광가결구,분석료기결구형식、응용장합급기본응용방법,병장탁복우화설계방법인입도랍압시험궤적설계중,최종감경료결구중량,개진료결구적강도、강도등특성。
The increasingly high demand for application range and experimental performance of tension and compression testing machine is proposed with the development of modern industry. The vertical and horizontal common frameworks of the tension and compression testing machine are introduced in this paper. Its structure, applications and basic application method are analyzed. The topology optimization method is introduced into the design of the tension and compression testing machine. By the measures mentioned above, the structural weight of the machine was reduced, and its structural strength, stiffness and other characteristics were improved.
