Binder jet printing, spark plasma sintering studies on 420 stainless steel

One of the classifications of Additive Manufacturing (AM) is Binder Jetting. It is the most preferred AM technology and has recognizable benefits among the 6 categories of AM technology. Binder jetting is special in a way which heat is not applied in the manufacturing process. The rest of the AM tec...

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Main Author: Leong, Jarrat Jia Jun
Other Authors: Zhou Wei
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2020
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Online Access:https://hdl.handle.net/10356/141362
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1413622023-03-04T18:15:12Z Binder jet printing, spark plasma sintering studies on 420 stainless steel Leong, Jarrat Jia Jun Zhou Wei School of Mechanical and Aerospace Engineering MWZHOU@ntu.edu.sg Engineering::Mechanical engineering One of the classifications of Additive Manufacturing (AM) is Binder Jetting. It is the most preferred AM technology and has recognizable benefits among the 6 categories of AM technology. Binder jetting is special in a way which heat is not applied in the manufacturing process. The rest of the AM technologies uses thermal energy that will generate internal stress distribution locked into a material and it must be released in a secondary process after printing. Benefits of Binder Jetting comprises of printed parts free of residual stresses, support is not necessary, and lesser powder required. Nonetheless, Binder Jetting parts in the green state have poor mechanical properties and very porous. Spark Plasma Sintering is a method that requires only a couple of minutes to finish a sintering process instead of the traditional sintering that will take a few hours. Spark Plasma Sintering can produce high relative densities in just a few minutes and the grain growth size of nanopowders is significantly low after sintering. As such, the author has prepared specimens through the standard preparation procedures. Thereafter, the specimens were analyzed through various microscopes and hardness was measured through Vickers hardness test to compute the qualities of the specimens. In this study, 6 samples were tested out with 1) Heating rate of 100 and 200 (+k/min), 2) Cooling rate of 50 (-K/min) 3) 5 minutes holding time at sintering temperature, 4) Pressure of 3kN and 5) Sintering temperature of 600, 700 and 800°C. Another sample heated at 700°C for 5 hours in Box Furnace. Green part is cured under 200°C for 8 hours in curing oven with no special atmosphere. The study showcases the effect sintering temperature and heating rate affect the relative density, hardness and the grain growth size of the specimen. Unlike conventional furnace process where grain growth in Spark Plasma Sintering is much faster. Final grain growth in SPS significantly smaller than conventional sintering process. Bachelor of Engineering (Mechanical Engineering) 2020-06-08T02:38:03Z 2020-06-08T02:38:03Z 2020 Final Year Project (FYP) https://hdl.handle.net/10356/141362 en B418 application/pdf Nanyang Technological University
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Mechanical engineering
spellingShingle Engineering::Mechanical engineering
Leong, Jarrat Jia Jun
Binder jet printing, spark plasma sintering studies on 420 stainless steel
description One of the classifications of Additive Manufacturing (AM) is Binder Jetting. It is the most preferred AM technology and has recognizable benefits among the 6 categories of AM technology. Binder jetting is special in a way which heat is not applied in the manufacturing process. The rest of the AM technologies uses thermal energy that will generate internal stress distribution locked into a material and it must be released in a secondary process after printing. Benefits of Binder Jetting comprises of printed parts free of residual stresses, support is not necessary, and lesser powder required. Nonetheless, Binder Jetting parts in the green state have poor mechanical properties and very porous. Spark Plasma Sintering is a method that requires only a couple of minutes to finish a sintering process instead of the traditional sintering that will take a few hours. Spark Plasma Sintering can produce high relative densities in just a few minutes and the grain growth size of nanopowders is significantly low after sintering. As such, the author has prepared specimens through the standard preparation procedures. Thereafter, the specimens were analyzed through various microscopes and hardness was measured through Vickers hardness test to compute the qualities of the specimens. In this study, 6 samples were tested out with 1) Heating rate of 100 and 200 (+k/min), 2) Cooling rate of 50 (-K/min) 3) 5 minutes holding time at sintering temperature, 4) Pressure of 3kN and 5) Sintering temperature of 600, 700 and 800°C. Another sample heated at 700°C for 5 hours in Box Furnace. Green part is cured under 200°C for 8 hours in curing oven with no special atmosphere. The study showcases the effect sintering temperature and heating rate affect the relative density, hardness and the grain growth size of the specimen. Unlike conventional furnace process where grain growth in Spark Plasma Sintering is much faster. Final grain growth in SPS significantly smaller than conventional sintering process.
author2 Zhou Wei
author_facet Zhou Wei
Leong, Jarrat Jia Jun
format Final Year Project
author Leong, Jarrat Jia Jun
author_sort Leong, Jarrat Jia Jun
title Binder jet printing, spark plasma sintering studies on 420 stainless steel
title_short Binder jet printing, spark plasma sintering studies on 420 stainless steel
title_full Binder jet printing, spark plasma sintering studies on 420 stainless steel
title_fullStr Binder jet printing, spark plasma sintering studies on 420 stainless steel
title_full_unstemmed Binder jet printing, spark plasma sintering studies on 420 stainless steel
title_sort binder jet printing, spark plasma sintering studies on 420 stainless steel
publisher Nanyang Technological University
publishDate 2020
url https://hdl.handle.net/10356/141362
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