Deformation‑Induced Strengthening Mechanism in a Newly Designed L‑40 Tool Steel Manufactured by Laser Powder Bed Fusion  

作　　者：Yuan Tian Kanwal Chadha Clodualdo Aranas Jr 

机构地区：[1]Voestalpine Additive Manufacturing Centre Ltd,Mississauga,ON L5N 7Y3,Canada [2]Department of Mechanical Engineering,University of New Brunswick,Fredericton,NB E3B 5A3,Canada [3]Planetary and Space Science Centre,University of New Brunswick,Fredericton,NB E3B 5A3,Canada

出　　处：《Acta Metallurgica Sinica(English Letters)》2023年第1期21-34,共14页金属学报（英文版）

基　　金：funding received from the Natural Sciences and Engineering Research Council of Canada(NSERC);Canada Foundation for Innovation(CFI);New Brunswick Innovation Foundation(NBIF);the Harrison McCain Foundation.Kuda Nyamuchiwa and Dr.Ven Reddy are also acknowledged who assisted the authors in performing XRD analysis.

摘　　要：The microstructural and mechanical properties of a newly designed tool steel(L-40),specifcally designed to be employed in the laser powder bed fusion(LPBF)technique,were examined.Melt pool boundaries with submicron dendritic structures and about 14%retained austenite phase were evident after printing.The grain orientation after high cooling rate solidifcation is mostly<110>α∥building direction(BD).Then,the heat treatment converted the microstructure into a conventional martensitic phase,reduced the retained austenite to about 1.5%,and increased<111>α∥BD texture.The heat-treated sample exhibits higher tensile strength(1720±14 MPa)compared to the as-printed sample(1540±26 MPa)along the building direction,mainly due to hardening caused by a lower volume fraction of retained austenite phase and precipitation of carbides.As a consequence of the strength-to-ductility trade-of,the heat-treated sample showed lower elongation(10%±2%)than that of the as-printed sample(18%±2%).It was observed that transformation-induced plasticity(TRIP)occurs in both the as-printed and heat-treated samples during tensile testing,which dynamically transforms the retained austenite into martensite,leading to improved ductility.The minimum driving force to initiate the displacive phase transformation is about 6000 J/mol,which was achieved during tensile testing.The strength and ductility of LPBF-produced L-40 were compared with the other LPBF-produced tool steels in literature;the data indicate that heat-treated L-40 has an excellent combination of strength and ductility complemented with high printability.

关 键 词：Additive manufacturing Laser powder bed fusion L-40 tool steel Phase transformation 

分 类 号：TG1[金属学及工艺—金属学]