J. Boes scite author profile

In this work, we examined the influence of different types of selective laser melting (SLM) devices on the microstructure and the associated material properties of austenitic 316L stainless steel. Specimens were built using powder from the same powder batch on four different SLM machines. For the specimen build-up, optimized parameter sets were used, as provided by the manufacturers for each individual SLM machine. The resulting microstructure was investigated by means of scanning electron microscopy, which revealed that the different samples possess similar microstructures. Differences between the microstructures were found in terms of porosity, which significantly influences the material properties. Additionally, the build-up direction of the specimens was found to have a strong influence on the mechanical properties. Thus, the defect density defines the material’s properties so that the ascertained characteristic values were used to determine a Weibull modulus for the corresponding values in dependence on the build-up direction. Based on these findings, characteristic averages of the mechanical properties were determined for the SLM-manufactured samples, which can subsequently be used as reference parameters for designing industrially manufactured components.

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Processing of gas-nitrided AISI 316L steel powder by laser powder bed fusion – Microstructure and properties

Boes

Röttger

Becker

et al. 2019

Additive Manufacturing

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Microstructure and mechanical properties of X65MoCrWV3-2 cold-work tool steel produced by selective laser melting

Boes

Röttger

Mutke³

et al. 2018

Additive Manufacturing

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Microstructure and properties of high-strength C + N austenitic stainless steel processed by laser powder bed fusion

Boes

Röttger

Theisen

2020

Additive Manufacturing

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Mechanisms of severe sliding abrasion of single phase steels at elevated temperatures: Influence of lattice structure and microstructural parameters

Walter

Weber

Boes

et al. 2017

Wear

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J. Boes

Microstructure and mechanical properties of 316L austenitic stainless steel processed by different SLM devices

Processing of gas-nitrided AISI 316L steel powder by laser powder bed fusion – Microstructure and properties

Microstructure and mechanical properties of X65MoCrWV3-2 cold-work tool steel produced by selective laser melting

Microstructure and properties of high-strength C + N austenitic stainless steel processed by laser powder bed fusion

Mechanisms of severe sliding abrasion of single phase steels at elevated temperatures: Influence of lattice structure and microstructural parameters

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J. Boes

Microstructure and mechanical properties of 316L austenitic stainless steel processed by different SLM devices

Processing of gas-nitrided AISI 316L steel powder by laser powder bed fusion – Microstructure and properties

Microstructure and mechanical properties of X65MoCrWV3-2 cold-work tool steel produced by selective laser melting

Microstructure and properties of high-strength C + N austenitic stainless steel processed by laser powder bed fusion

Mechanisms of severe sliding abrasion of single phase steels at elevated temperatures: Influence of lattice structure and microstructural parameters

Contact Info

Product

Resources

About

Microstructure and properties of high-strength C + N austenitic stainless steel processed by laser powder bed fusion