Effects of chamber oxygen concentration on microstructure and mechanical properties of stainless steel 316L parts by selective laser melting

Effects of chamber oxygen concentration on microstructure and mechanical properties of stainless steel 316L parts by selective laser melting

Selective laser melting (SLM) is a disruptive additive manufacturing technology that makes metal parts directly from 3D models in an automate layer-wise manner. Numerous studies have been carried out to examine the effects of various factors, such as laser power, scanning parameter, powder feedst...

Полное описание

Библиографические подробности
Главные авторы:	Sun, Zhongji, Tan, Xipeng, Tor, Shu Beng
Другие авторы:	School of Mechanical and Aerospace Engineering
Формат:	Conference Paper
Язык:	English
Опубликовано:	2018
Предметы:	DRNTU::Engineering::Mechanical engineering::Prototyping Additive Manufacturing Selective Laser Melting
Online-ссылка:	https://hdl.handle.net/10356/88716 http://hdl.handle.net/10220/45874

Схожие документы

Process parameter optimization for additively manufactured stainless steel 316L parts by selective electron beam melting
по: Wang, Chengcheng, и др.
Опубликовано: (2018)

Simultaneously enhanced strength and ductility for 3D-printed stainless steel 316L by selective laser melting
по: Sun, Zhongji, и др.
Опубликовано: (2018)

Selective laser melting of stainless steel 316L with low porosity and high build rates
по: Sun, Zhongji, и др.
Опубликовано: (2016)

Process parameter optimization and mechanical properties for additively manufactured stainless steel 316L parts by selective electron beam melting
по: Wang, Chengcheng, и др.
Опубликовано: (2020)

Review Of The Fatigue Performance Of Stainless Steel 316L Parts Manufactured By Selective Laser Melting
по: Zhang, Meng, и др.
Опубликовано: (2016)

Investigation on the integral effects of process parameters on properties of selective laser melted stainless steel parts
по: Choong, Yu Ying Clarrisa, и др.
Опубликовано: (2018)

A study on the influence of powder packing density on the melt track in the selective laser melting process
по: Le, Kim Quy, и др.
Опубликовано: (2018)

Porosity formation in selective laser melting of spodumene
по: Gan, Ming Xuan, и др.
Опубликовано: (2018)

Effects of re-melting strategies on densification behavior and mechanical properties of selective laser melted AlSi10Mg parts
по: Chua, Chee Kai, и др.
Опубликовано: (2018)

Study and modeling of melt pool evolution in selective laser melting process of SS316L
по: Tan, J. L., и др.
Опубликовано: (2019)

Microstructures and Texture of Inconel 718 Alloy Fabricated by Selective Laser Melting
по: Shuai, Li, и др.
Опубликовано: (2016)

Laser re-scanning strategy in selective laser melting for part quality enhancement : a review
по: Huang, Sheng, и др.
Опубликовано: (2018)

Densifying method in additive manufacturing process of H13 tool steel : laser re-melting
по: Choe, Jungho, и др.
Опубликовано: (2018)

Methods of residual stress reduction for metal parts manufactured using selective laser melting (a review)
по: Li, Hua, и др.
Опубликовано: (2018)

A thermo-mechanical coupling model for predicting temperature and residual stress fields in selective laser melting
по: Tan, Pengfei, и др.
Опубликовано: (2018)

Recrystallization-based grain boundary engineering of 316L stainless steel produced via selective laser melting
по: Gao, Shubo, и др.
Опубликовано: (2022)

Selective electron beam melting of Co-Cr-Mo : microstructure and mechanical properties
по: Tan, Xipeng, и др.
Опубликовано: (2018)

Selective laser melting of titanium alloy with 50 wt% tantalum : microstructure and mechanical properties
по: Sing, Swee Leong, и др.
Опубликовано: (2022)

Characterization of carbide particle-reinforced 316L stainless steel fabricated by selective laser melting
по: Bhowmik, Ayan, и др.
Опубликовано: (2022)

Mechanical properties of 316L stainless steel samples fabricated by selective laser melting and comparison with other manufacturing methods
по: A Sazgar, и др.
Опубликовано: (2022-01-01)

Thermal fluid modelling of selective laser melting
по: Tan, Jie Lun, и др.
Опубликовано: (2018)

On the study of keyhole-mode melting in selective laser melting process
по: Le, Kim Quy, и др.
Опубликовано: (2020)

Discontinuity of overhanging melt track in selective laser melting process
по: Le, Kim Quy, и др.
Опубликовано: (2020)

Selective Laser Melting Of Spodumene: An Exploratory Study
по: Gan, Mingxuan, и др.
Опубликовано: (2016)

Properties of selective laser melted spodumene glass-ceramic
по: Gan, Ming Xuan, и др.
Опубликовано: (2018)

Influence of the geometric factor for the width of the contour scan in selective laser melting
по: Ahn, Il Hyuk, и др.
Опубликовано: (2016)

An investigation of high temperature tensile properties of selective laser melted Ti-6AL-4V
по: Baitimerov, R. M., и др.
Опубликовано: (2018)

Dynamic Behaviour of Selective Laser Melted 316L Steel - Mechanical Properties and Microstructure Changes
по: Paweł BIAŁOBRZEWSKI, и др.
Опубликовано: (2023-06-01)

Microstructure and anisotropic tensile performance of 316L stainless steel manufactured by selective laser melting
по: Lin Wang
Опубликовано: (2022-04-01)

Microstructure and properties of 316L/430 duplex stainless steels processed by selective laser melting
по: HU Jianbin, и др.
Опубликовано: (2023-08-01)

Evaluation of Residual Stress in Selective Laser Melting of 316L Steel
по: Yadroitsava, Ina, и др.
Опубликовано: (2016)

On the corrosion resistance of some selective laser melted alloys
по: Suryawanshi, Jyoti, и др.
Опубликовано: (2021)

Microstructural and mechanical properties degradation of the acceleration/deceleration zones in stainless steel 316L fabricated by selective laser melting
по: Won-Sang Shin, и др.
Опубликовано: (2025-03-01)

Influences of scanning speed on selective laser melting : a computational study
по: Tang, Chao, и др.
Опубликовано: (2018)

Tribological properties of selective laser melted Al–12Si alloy
по: Rathod, Hemant J., и др.
Опубликовано: (2021)

A new phenomenon in a selective laser melted 316L stainless steel with a wider and higher laser energy density
по: Zhiping Chen, и др.
Опубликовано: (2024-05-01)

Application of Electron Beam Melting (EBM) in Additive Manufacturing of an Impeller
по: Tan, Xipeng, и др.
Опубликовано: (2016)

Spatter transport by inert gas flow in selective laser melting : a simulation study
по: Ahmad Bin Anwar, и др.
Опубликовано: (2020)

Mitigation of liquation cracking in selective laser melted Inconel 718 through optimization of layer thickness and laser energy density
по: Luu, Duy Nghia, и др.
Опубликовано: (2022)

A generalised hot cracking criterion for nickel-based superalloys additively manufactured by electron beam melting
по: Chandra, Shubham, и др.
Опубликовано: (2021)