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Development of powder bed fusion – laser beam process for AISI 4140, 4340 and 8620 low-alloy steel

William Hearn, Peter Harlin, Eduard Hryha

2022Powder Metallurgy26 citationsDOIOpen Access PDF

Abstract

This study focuses on process development and mechanical property evaluation of AISI 4140, 4340 and 8620 low-alloy steel produced by powder bed fusion – laser beam (PBF-LB). Process development found that increasing the build plate preheating temperature to 180°C improved processability, as it mitigated lack of fusion and cold cracking defects. Subsequent mechanical testing found that the low-alloy steels achieved a high ultimate tensile strength (4140:∼1400 MPa, 4340:∼1500 MPa, 8620:∼1100 MPa), impact toughness (4140:∼90–100 J, 4340:∼60–70 J, 8620:∼150–175 J) and elongation (4140:∼14%, 4340:∼14%, 8620:∼14–15%) that met or exceeded the ASTM standards. Mechanical testing also revealed limited directional anisotropy that was attributed to low levels of internal defects (< 0.1%), small grains with weak crystallographic texture and improved tempering due to build plate preheating and post PBF-LB stress relief. This indicates that with adequate process development, low-alloy steels produced by PBF-LB can meet or exceed the performance of conventionally produced alloys.

Topics & Concepts

Materials scienceAlloyTemperingMetallurgyUltimate tensile strengthElongationCrackingComposite materialAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesLaser Material Processing Techniques
Development of powder bed fusion – laser beam process for AISI 4140, 4340 and 8620 low-alloy steel | Litcius