Thermally Induced Porosity within HIPed Ti64 Parts: Effect of Entrapped Argon Versus Helium in L-PBF

机译：HIP固定的Ti64零件内的热致孔隙率：L-PBF中夹带的氩气对氦气的影响

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For Laser-Powder Bed Fusion (L-PBF), gas porosity is likely to be introduced by gas entrapment within the rapidly solidifying melt pool. Under standard argon processing conditions, argon is likely to be within these pores. It is believed that porosity can be efficiently removed by Hot Isostatic Pressing (HIP). However, when Ti-6Al-4V parts are HIPed and further subjected to high temperatures, there is a risk for thermally induced porosity (TIP) to occur. The latter is formed by the previously pressurized argon gas, not eliminated during the HIP because of the limited diffusion of atomic argon within the metal matrix. Helium, because of its smaller atomic radius, is suspected to diffuse faster. In this study, effect of helium on process induced porosity and its elimination during HIP in comparison to Ar is investigated. This is done through the X-ray computed tomography study of the porosity evolution through the AM process chain.

机译：对于激光粉末床熔合（L-PBF），气孔可能是由于快速凝固的熔池中的气体截留而引入的。在标准氩气处理条件下，氩气可能在这些孔中。据信，可以通过热等静压（HIP）有效地去除孔隙。然而，当将Ti-6Al-4V零件进行HIP处理并进一步经受高温时，存在发生热致孔隙（TIP）的风险。后者由先前加压的氩气形成，由于原子氩在金属基体内的扩散有限，因此在HIP期间并未消除。氦由于其原子半径较小而被怀疑扩散得更快。在这项研究中，研究了与Ar相比，氦气对过程诱导的孔隙率及其在HIP过程中的消除作用的影响。这是通过X射线计算机断层扫描研究，通过AM过程链研究孔隙度的变化而完成的。

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《European Powder Metallurgy Association;Euro PM congress exhibition》|2019年|1-6|共6页
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Camille Pauzon; Sophie Dubiez-Le Goff; Eduard Hryha; Pierre Forêt;
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机译：在Hiped Ti64份内的热诱导孔隙率：L-PBF陷阱氩气与氦气的影响
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Thermally Induced Porosity within HIPed Ti64 Parts: Effect of Entrapped Argon Versus Helium in L-PBF

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