CHENG Yazhen, GUO Jule, QIAO Haibin, SUN Hongzhe, LI Bobo, YANG Xuedong, LIU Yinqi. Study on Investment Casting Process of Rod Titanium Alloy Castings Based on Numerical Simulation[J]. Development and Application of Materials, 2022, 37(5): 37-44.
Citation: CHENG Yazhen, GUO Jule, QIAO Haibin, SUN Hongzhe, LI Bobo, YANG Xuedong, LIU Yinqi. Study on Investment Casting Process of Rod Titanium Alloy Castings Based on Numerical Simulation[J]. Development and Application of Materials, 2022, 37(5): 37-44.

Study on Investment Casting Process of Rod Titanium Alloy Castings Based on Numerical Simulation

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  • Received Date: May 15, 2022
  • Available Online: November 11, 2022
  • According to the structural characteristics of rod-shaped titanium alloy casting, the gating system is designed by using sequential solidification theory and equilibrium solidification theory respectively, and the two gating systems are simulated by numerical simulation method. The temperature field and stress field of rod-shaped titanium alloy casting are analyzed, and the casting scheme using equilibrium solidification theory is determined to be suitable for the production of the casting. According to the simulation results, the casting process scheme is optimized and simulated. The optimized casting process is adopted to produce castings, and qualified rod-shaped titanium alloy castings meeting the needs of customers are obtained.
  • [1]
    程亚珍, 柴自毫, 李渤渤, 等. 一种医用钛合金铸件熔模铸造工艺设计[J]. 铸造, 2022, 71(3): 362-366.
    [2]
    胡和平, 杨学东, 郑申清. 钛合金泵体铸造工艺研究[J]. 材料开发与应用, 2010, 25(1): 35-37.
    [3]
    程亚珍, 杨光, 孙宏喆, 等. 复杂薄壁航空钛合金精密铸造型壳溃散性研究[J]. 材料开发与应用, 2020, 35(3): 38-42.
    [4]
    周君华, 孙长波, 尚伟, 等. ProCAST软件在熔模铸造工艺优化中的应用[J]. 材料科学与工艺, 2013, 21(5): 109-112.
    [5]
    崔新鹏, 张晨, 范世玺, 等. 钛合金框架铸件铸造变形和应力的数值模拟[J]. 特种铸造及有色合金, 2015, 35(3): 257-259.
    [6]
    谢成木. 钛及钛合金铸造[M]. 北京: 机械工业出版社, 2005.
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