Multi-materials components development for power applications by direc…
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Multi-materials components development for power applications by directed energy deposition.pdf
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DATE : 2025-02-12 16:30:37
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Summary:
• This study highlights the advanced capabilities of AM with InssTek's DED Technology, and
explores key factors influencing the joint quality of multi-material components for various applications.
• Combination of IN718 and SS316L, various deposition angles for material interfaces, ranging from horizontal to vertical directions, were explored. In the combination of IN625 and 42C steel, horizontal deposition with varying sequences of material deposition was employed. And Metallographic as well as mechanical properties investigations were carried out.
• The research demonstrates that factors like deposition order, interface orientation, and surface quality
significantly influence the structural integrity and mechanical properties of materials.
• In many industrial applications, single-material components struggle to meet all operational demands,
necessitating the development of multi-material components. This allows for simple and safe assembly.
Reference:
- https://repository.lib.ncsu.edu/server/api/core/bitstreams/153571d8-aede-41fc-9741-72dbca6f9154/content
- https://insstek.com/products/mx-lab
#Metallurgy #Alloy #FGM #Material #Research #materialresearch #Additive #Manufacturing #AM #DED #3Dprinter
• This study highlights the advanced capabilities of AM with InssTek's DED Technology, and
explores key factors influencing the joint quality of multi-material components for various applications.
• Combination of IN718 and SS316L, various deposition angles for material interfaces, ranging from horizontal to vertical directions, were explored. In the combination of IN625 and 42C steel, horizontal deposition with varying sequences of material deposition was employed. And Metallographic as well as mechanical properties investigations were carried out.
• The research demonstrates that factors like deposition order, interface orientation, and surface quality
significantly influence the structural integrity and mechanical properties of materials.
• In many industrial applications, single-material components struggle to meet all operational demands,
necessitating the development of multi-material components. This allows for simple and safe assembly.
Reference:
- https://repository.lib.ncsu.edu/server/api/core/bitstreams/153571d8-aede-41fc-9741-72dbca6f9154/content
- https://insstek.com/products/mx-lab
#Metallurgy #Alloy #FGM #Material #Research #materialresearch #Additive #Manufacturing #AM #DED #3Dprinter
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