Evolution of 316L stainless steel feedstock due to laser powder bed fusion process

MJ Heiden, LA Deibler, JM Rodelas, JR Koepke… - Additive …, 2019 - Elsevier
Some of the primary barriers to widespread adoption of metal additive manufacturing (AM)
are persistent defect formation in built components, high material costs, and lack of …
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[引用][C] Evolution of 316L stainless steel feedstock due to laser powder bed fusion process

MJ Heiden, LA Deibler, JM Rodelas, JR Koepke… - Additive …, 2019 - cir.nii.ac.jp
Evolution of 316L stainless steel feedstock due to laser powder bed fusion process | CiNii
Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ移動 …

Evolution of 316L stainless steel feedstock due to laser powder bed fusion process

MJ Heiden, LA Deibler, JM Rodelas, JR Koepke… - Additive …, 2019 - osti.gov
Some of the primary barriers to widespread adoption of metal additive manufacturing (AM)
are persistent defect formation in built components, high material costs, and lack of …

Evolution of 316L Stainless Steel Feedstock Due to Laser Powder Bed Fusion Process.

M Heiden - 2019 - osti.gov
Evolution of 316L Stainless Steel Feedstock Due to Laser Powder Bed Fusion Process Page 1
Evolution of 316L Stain ess Steel Feedstock Due to Laser Powder Bed Fusion Process US …