首页|镍基单晶涡轮叶片定向凝固过程温度场数值模拟研究进展

镍基单晶涡轮叶片定向凝固过程温度场数值模拟研究进展

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作为先进航空发动机不可缺少的核心部件之一,镍基单晶涡轮叶片(简称单晶叶片)的空心结构尺寸精度、合金元素的分布均匀性和表面及内腔冶金质量等要求极为苛刻.研究发现,定向凝固过程中温度梯度的控制直接影响单晶叶片性能和质量,能否持续获得稳定热流成为定向凝固技术的关键.随着计算机技术的不断进步,数值模拟已经成为单晶叶片定向凝固研究的重要手段之一.首先,对单晶叶片制备技术进行了介绍,分析了定向凝固过程中的传热方式.其次,总结了数值模拟界面换热系数边界条件的优化方法,重点介绍了Beck非线性估算法和有限差分法在界面换热系数求解中的应用,证明了两种方法均可以对铸件/型壳间的界面换热系数进行求解,有效提升了温度场模拟的准确性.最后,对定向凝固过程温度场数值模拟的研究进展进行了追踪,总结归纳出了工艺参数对温度场的影响规律.基于对镍基单晶涡轮叶片定向凝固过程温度场数值模拟研究进展的分析,提出了定向凝固工艺优化方向以及相关技术后续的发展趋势,以促进单晶涡轮叶片的高质量研发.
Research Progress on Numerical Simulation of Temperature Field during Directional Solidification of Nickel-based Single Crystal Turbine Blades
As one of the indispensable core components of advanced aero-engine,nickel-based single crystal turbine blades(hereinafter referred to as single-crystal blades)have extremely demanding requirements in terms of dimensional accuracy of the hollow structure,uniformity of alloying element distribution,and metallurgical quality of the surface and inner cavity.It is found that the control of temperature gradient during directional solidification directly affects the perfor-mance and quality of single crystal blades,and whether the continuous acquisition of stable heat flow becomes the key of directional solidification.With the continuous progress of computer technology,numerical simulation has become one of the important methods of single crystal blade directional solidification research.Firstly,introduce the single crystal blade technology is introduced and the heat transfer method in the directional solidification process is then analyzed.Secondly,the optimization methods of boundary conditions of interfacial heat transfer coefficient for numerical simulation are summa-rized,focusing on the application of Beck's inverse method and finite difference method in the solution of interfacial heat transfer coefficient.The results proves that the two methods can be used to solve the interfacial heat transfer coefficient be-tween castings/shells,where the accuracy of the simulation of the temperature field can be effectively improved.Finally,the research progress of numerical simulation of the temperature field during directional solidification is also traced,and the influence of process parameters on the temperature field is summarized.Based on the analysis of the research progress of numerical simulation of temperature field during directional solidification of nickel-based single crystal turbine blades,the optimization direction of the directional solidification process and the subsequent development trend of the related tech-nology are proposed to promote the research and development process of single crystal turbine blades.

Nickel-based Single Crystal Turbine BladeDirectional SolidificationNumerical SimulationTemperature FieldInterfacial Heat Transfer Coefficient

孙佳怡、董龙沛、赵云松、王恩会、侯新梅

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北京科技大学碳中和研究院,北京 100083

北京航空材料研究院 先进高温结构材料重点实验室,北京 100095

镍基单晶涡轮叶片 定向凝固 数值模拟 温度场 界面换热系数

"十四五"国家重点研发计划国家自然科学基金杰出青年基金项目国家自然科学基金面上项目

2022YFB34045005202504152174294

2024

10.20057/j.1003-8620.2024-00058

特殊钢
中国金属学会特殊钢分会 大冶特殊钢股份有限公司

特殊钢

影响因子:0.345
ISSN:1003-8620
年,卷(期):2024.45(4)
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