TY - JOUR
AU - Gu, Grace X.
AB - Introduction and BackgroundAdditive manufacturing (AM) involves the layer‐by‐layer fabrication of an extruded, jetted, or deposited material into the desired 3D object.[1] In recent years, AM processes compatible with polymer materials have demonstrated rapid growth with the development of new fabrication technologies, an increase in the number of printable materials, and advances in machine learning‐driven algorithms that enable higher quality and faster print times.[2] By using additive techniques compared to traditional subtractive manufacturing processes, it is possible to achieve a higher degree of surface detail, including the printing of organic shapes and contours, without the need for expensive mold tooling or equipment.[3] In particular, powder bed fusion (PBF) processes enable the layer‐by‐layer production of parts without the need for support material, enabling the printing of advanced geometries including captive parts, a part printed in place fully enclosed within another part.[4] PBF generally involves the distribution of a fine powder spread across a printing surface, followed by the selective application of fusing energy across the surface, which acts to melt and solidify (i.e., fuse) powder only within desired regions.[5] Using this method, the part is built up layer by layer and extracted at the end of the process, at which point 
TI - Effect of Build Parameters on the Mechanical Behavior of Polymeric Materials Produced by Multijet Fusion
JF - Advanced Engineering Materials
DO - 10.1002/adem.202100974
DA - 2022-09-01
UR - https://www.deepdyve.com/lp/wiley/effect-of-build-parameters-on-the-mechanical-behavior-of-polymeric-UTQUZbwwSm
VL - 24
IS - 9
DP - DeepDyve
ER -