Anisotropy of Mechanical Properties of DMD Build Inconel 738

International Thermal Spray Conference Pub Date : 2023-05-22 DOI:10.31399/asm.cp.itsc2023p0473

O. Kovárík, J. Čech, Egehan Kiziklioglu, J. Cizek, Tobias Stittgen

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Abstract

Anisotropy of stress-strain behavior, fracture toughness, and fatigue crack growth rate was studied for Inconel 738LC alloy built by the Dynamic Metal Deposition technique (3DMD, a high-speed Directed Energy Deposition technique). The measured quasi-static properties, i.e. stress-strain and fracture toughness showed only subtle anisotropy, with no more than 10% differences found for different orientations. The fatigue crack growth rate was influenced by the specimen orientation more significantly (30% for fatigue crack growth threshold, up to 90% for Paris exponent and coefficient). This pilot study attributes the anisotropy of fatigue crack growth properties to material texture and the columnar grain geometry resulting from directional solidification. The obtained testing results indicate that 3DMD technology can produce materials with good mechanical and fracture properties even from materials considered as non-weldable such as In 738LC. The study provides a solid experimental base for further investigation of the fatigue crack growth mechanism relation to the material texture in 3DMD In 738LC.

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DMD铸造Inconel 738力学性能的各向异性

研究了动态金属沉积技术(3DMD，一种高速定向能沉积技术)制备的Inconel 738LC合金的应力应变行为、断裂韧性和疲劳裂纹扩展速率的各向异性。测量的准静态性能，即应力应变和断裂韧性仅表现出微妙的各向异性，不同取向的差异不超过10%。试样取向对疲劳裂纹扩展速率的影响更为显著(疲劳裂纹扩展阈值为30%，Paris指数和系数高达90%)。本初步研究将疲劳裂纹扩展特性的各向异性归因于材料的织构和定向凝固产生的柱状晶粒几何形状。试验结果表明，即使采用in738lc等不可焊接材料，3DMD技术也能生产出具有良好力学性能和断裂性能的材料。该研究为进一步研究3DMD in 738LC材料织构与疲劳裂纹扩展机制的关系提供了坚实的实验基础。

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International Thermal Spray Conference

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