Characteristics and Evaluation of Al/Al2O3/SiC/Mg Nano-Powder on Perforated SS316L Composite Bimetallic Sheet

The enhancement of nuclear and high-temperature applications largely depends on the cladding procedure for the composition of bimetallic sheets made of stainless steel. The current study presents a modified version of a unique experimental set-up for a perforated substrate sheet with ball-milled, na...

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Published in	Transactions of the Indian Institute of Metals Vol. 77; no. 11; pp. 3321 - 3330
Main Authors	Trivedi, Ayush, Dwivedi, Vijay Kumar, Agarwal, Mayank
Format	Journal Article
Language	English
Published	New Delhi Springer India 01.11.2024 Springer Nature B.V
Subjects	Aluminum oxide Ball milling Bimetals Chemistry and Materials Science Corrosion and Coatings Heat resistant steels High temperature Magnesium Materials Science Metal sheets Metallic Materials Microhardness Original Article Particulate composites Rare gases Silicon carbide Sintering (powder metallurgy) Stainless steels Tribology EDX Composite bimetallic sheet Micro-hardness Microstructure SS316L
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Abstract	The enhancement of nuclear and high-temperature applications largely depends on the cladding procedure for the composition of bimetallic sheets made of stainless steel. The current study presents a modified version of a unique experimental set-up for a perforated substrate sheet with ball-milled, nano-scale clad powder reinforcement. To create the clad material, Al 2 O 3 , SiC nano-sized grain powders and Mg coarse grain powder were combined with fine Al powder particles using a ball milling technique. In parallel, SS316L substrate sheets were utilised to fabricate bimetallic composite sheets and were perforated at regular intervals for a specific area. In an inert gas environment, a conventional heating process with mild initial compaction was offered for the sintering process to progress upon. The influence of the processing on the interfaces is suggested by the microstructure, energy-dispersive X-ray (EDX) and micro-hardness results from different sites in the synthesised bimetallic composite sheet. The processing methods and how they affect the diffusion behaviour of the clad intersection and perforation zone are described in depth in this experimental study.
AbstractList	The enhancement of nuclear and high-temperature applications largely depends on the cladding procedure for the composition of bimetallic sheets made of stainless steel. The current study presents a modified version of a unique experimental set-up for a perforated substrate sheet with ball-milled, nano-scale clad powder reinforcement. To create the clad material, Al 2 O 3 , SiC nano-sized grain powders and Mg coarse grain powder were combined with fine Al powder particles using a ball milling technique. In parallel, SS316L substrate sheets were utilised to fabricate bimetallic composite sheets and were perforated at regular intervals for a specific area. In an inert gas environment, a conventional heating process with mild initial compaction was offered for the sintering process to progress upon. The influence of the processing on the interfaces is suggested by the microstructure, energy-dispersive X-ray (EDX) and micro-hardness results from different sites in the synthesised bimetallic composite sheet. The processing methods and how they affect the diffusion behaviour of the clad intersection and perforation zone are described in depth in this experimental study. The enhancement of nuclear and high-temperature applications largely depends on the cladding procedure for the composition of bimetallic sheets made of stainless steel. The current study presents a modified version of a unique experimental set-up for a perforated substrate sheet with ball-milled, nano-scale clad powder reinforcement. To create the clad material, Al2O3, SiC nano-sized grain powders and Mg coarse grain powder were combined with fine Al powder particles using a ball milling technique. In parallel, SS316L substrate sheets were utilised to fabricate bimetallic composite sheets and were perforated at regular intervals for a specific area. In an inert gas environment, a conventional heating process with mild initial compaction was offered for the sintering process to progress upon. The influence of the processing on the interfaces is suggested by the microstructure, energy-dispersive X-ray (EDX) and micro-hardness results from different sites in the synthesised bimetallic composite sheet. The processing methods and how they affect the diffusion behaviour of the clad intersection and perforation zone are described in depth in this experimental study.
Author	Agarwal, Mayank Dwivedi, Vijay Kumar Trivedi, Ayush
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SubjectTerms	Aluminum oxide Ball milling Bimetals Chemistry and Materials Science Corrosion and Coatings Heat resistant steels High temperature Magnesium Materials Science Metal sheets Metallic Materials Microhardness Original Article Particulate composites Rare gases Silicon carbide Sintering (powder metallurgy) Stainless steels Tribology
Title	Characteristics and Evaluation of Al/Al2O3/SiC/Mg Nano-Powder on Perforated SS316L Composite Bimetallic Sheet
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