A Review on Binder Jet Additive Manufacturing of 316L Stainless Steel

Binder jet additive manufacturing enables the production of complex components for numerous applications. Binder jetting is the only powder bed additive manufacturing process that is not fusion-based, thus manufactured parts have no residual stresses as opposed to laser-based additive manufacturing...

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Published inJournal of Manufacturing and Materials Processing Vol. 3; no. 3; p. 82
Main Authors Mirzababaei, Saereh, Pasebani, Somayeh
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.09.2019
Subjects
3-D printers
Additive manufacturing
Alloys
binder jetting
Ceramics
Crack propagation
Densification
Density
diffusion
Geometry
Heating rate
Laser applications
Lead time
Mechanical properties
Medical research
Metals
Optimization
porosity
Post-production processing
powder bed
Powder beds
Powder metallurgy
Printing
Process parameters
Rapid prototyping
Raw materials
Residual stress
Sintering
Sintering (powder metallurgy)
Stainless steel
stainless steel (SS) 316L
Stainless steels
Stress concentration
Thickness
three-dimensional printing
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Abstract Binder jet additive manufacturing enables the production of complex components for numerous applications. Binder jetting is the only powder bed additive manufacturing process that is not fusion-based, thus manufactured parts have no residual stresses as opposed to laser-based additive manufacturing processes. Binder jet technology can be adopted for the production of various small and large metallic parts for specific applications, including in the biomedical and energy sectors, at a lower cost and shorter lead time. One of the most well-known types of stainless steels for various industries is 316L, which has been extensively manufactured using binder jet technology. Binder jet manufactured 316L parts have obtained near full density and, in some cases, similar mechanical properties compared to conventionally manufactured parts. This article introduces methods, principles, and applications of binder jetting of SS 316L. Details of binder jetting processes, including powder characteristics (shape and size), binder properties (binder chemistry and droplet formation mechanism), printing process parameters (such as layer thickness, binder saturation, drying time), and post-processing sintering mechanism and densification processes, are carefully reviewed. Furthermore, critical factors in the selection of feedstock, printing parameters, sintering temperature, time, atmosphere, and heating rate of 316L binder jet manufactured parts are highlighted and summarized. Finally, the above-mentioned processing parameters are correlated with final density and mechanical properties of 316L components to establish a guideline on feedstock selection and process parameters optimization to achieve desired density, structure and properties for various applications.
AbstractList Binder jet additive manufacturing enables the production of complex components for numerous applications. Binder jetting is the only powder bed additive manufacturing process that is not fusion-based, thus manufactured parts have no residual stresses as opposed to laser-based additive manufacturing processes. Binder jet technology can be adopted for the production of various small and large metallic parts for specific applications, including in the biomedical and energy sectors, at a lower cost and shorter lead time. One of the most well-known types of stainless steels for various industries is 316L, which has been extensively manufactured using binder jet technology. Binder jet manufactured 316L parts have obtained near full density and, in some cases, similar mechanical properties compared to conventionally manufactured parts. This article introduces methods, principles, and applications of binder jetting of SS 316L. Details of binder jetting processes, including powder characteristics (shape and size), binder properties (binder chemistry and droplet formation mechanism), printing process parameters (such as layer thickness, binder saturation, drying time), and post-processing sintering mechanism and densification processes, are carefully reviewed. Furthermore, critical factors in the selection of feedstock, printing parameters, sintering temperature, time, atmosphere, and heating rate of 316L binder jet manufactured parts are highlighted and summarized. Finally, the above-mentioned processing parameters are correlated with final density and mechanical properties of 316L components to establish a guideline on feedstock selection and process parameters optimization to achieve desired density, structure and properties for various applications.
Author Mirzababaei, Saereh
Pasebani, Somayeh
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  surname: Pasebani
  fullname: Pasebani, Somayeh
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Snippet Binder jet additive manufacturing enables the production of complex components for numerous applications. Binder jetting is the only powder bed additive...
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StartPage 82
SubjectTerms 3-D printers
Additive manufacturing
Alloys
binder jetting
Ceramics
Crack propagation
Densification
Density
diffusion
Geometry
Heating rate
Laser applications
Lead time
Mechanical properties
Medical research
Metals
Optimization
porosity
Post-production processing
powder bed
Powder beds
Powder metallurgy
Printing
Process parameters
Rapid prototyping
Raw materials
Residual stress
Sintering
Sintering (powder metallurgy)
Stainless steel
stainless steel (SS) 316L
Stainless steels
Stress concentration
Thickness
three-dimensional printing
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Title A Review on Binder Jet Additive Manufacturing of 316L Stainless Steel
URI https://www.proquest.com/docview/2548645150
https://doaj.org/article/8be47fc4881a48578d872f5f70e15c3d
Volume 3
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