Effectiveness of residual stress and pores on the β-grain refinement in L-PBF Ti6Al4V processed with hot isostatic pressing

IF 4.2 Q2 ENGINEERING, MANUFACTURING

Additive manufacturing letters Pub Date : 2025-05-15 DOI:10.1016/j.addlet.2025.100291

Vivek K Sahu , Hector R. Siller , M.H. Herman Shen

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Abstract

The present study examines the effect of HIP (Hot Isostatic Pressing) treatment above the β-transus temperature on porosity reduction and its effect on the transition from columnar to equiaxed prior β-grains in L-PBF (Laser Powder Bed Fusion) Ti6Al4V. HIP treatment was conducted at a holding temperature of 1050 °C and a pressure of 120 MPa for 2 h on the L-PBF Ti6Al4V samples, which were deposited with four different scanning speeds of 300 mm/s, 400 mm/s, 650 mm/s, and 1100 mm/s, while keeping the other deposition parameters constant. The sample with the higher scanning speed (1100 mm/s) exhibits the highest area fraction of lack-of-fusion defects, leading to more pronounced equiaxed β-grain refinement and texture weakening compared to the sample that has the lowest scanning speed (300 mm/s) and negligible lack-of-fusion defect. During the HIP treatment, the local stresses around the sharp tips of the defects, along with the inherent residual stresses in the as-built samples, contribute to the dynamic recrystallization below and above the β-transus temperature.

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残余应力和孔隙对热等静压L-PBF Ti6Al4V β晶粒细化的影响

本研究考察了热等静压（HIP）处理对L-PBF（激光粉末床熔合）Ti6Al4V中β-横截面温度以上孔隙率降低的影响及其对柱状晶粒向等轴晶粒过渡的影响。在保持L-PBF Ti6Al4V样品在300 mm/s、400 mm/s、650 mm/s和1100 mm/s四种不同扫描速度下，保温温度为1050℃，压力为120 MPa， HIP处理2 h，其余沉积参数不变。较高扫描速度（1100 mm/s）的样品显示出最高的未熔合缺陷面积分数，与最低扫描速度（300 mm/s）的样品相比，其导致的等轴β晶粒细化和织构弱化更为明显。在HIP处理过程中，缺陷尖端周围的局部应力以及构建样品中固有的残余应力有助于在β-横向温度以下和高于β-横向温度的情况下进行动态再结晶。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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