%0 Journal Article
%T 物理常温拉伸钛合金铸件的组织和力学性能探究
Microstructure and Mechanical Properties of Titanium Alloy Castings by Physical Tensile at Room Temperature
%A 田野
%J Applied Physics
%P 443-452
%@ 2160-7575
%D 2025
%I Hans Publishing
%R 10.12677/app.2025.155050
%X 本研究对物理常温拉伸钛合金铸件的组织和力学性能进行了深入探究。通过优化铸造和拉伸工艺,实现了钛合金铸件的性能提升。具体工作涵盖铸件的制备过程分析、显微组织的观察以及晶体结构表征。力学性能测试显示,经过工艺优化后的钛合金铸件在强度和塑性方面均得到显著改善。结果对比与分析表明,制备过程中的工艺参数对组织特性和力学行为有决定性影响。本研究揭示的组织与力学性能关系,为钛合金铸件的应用开发提供了理论依据和工艺指导。
This study conducts an in-depth exploration of the microstructure and mechanical properties of titanium alloy castings under normal temperature tensile conditions. By optimizing casting and stretching processes, significant improvements in the properties of titanium alloy castings were achieved. The specific work includes an analysis of the casting preparation process, observation of the microstructure, and characterization of the crystal structure. Mechanical property tests indicate that the titanium alloy castings, after process optimization, exhibit significant enhancements in both strength and ductility. Comparative analysis of the results reveals that the process parameters during preparation have a decisive impact on the microstructural characteristics and mechanical behavior. The relationship between microstructure and mechanical properties revealed in this study provides a theoretical foundation and process guidance for the application development of titanium alloy castings.
%K 钛合金铸件,
%K 常温拉伸,
%K 显微组织,
%K 晶体结构,
%K 力学性能,
%K 工艺优化
Titanium Alloy Castings
%K Room Temperature Tensile Testing
%K Microstructure
%K Crystal Structure
%K Mechanical Properties
%K Process Optimization
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=115481