Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response

Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response

10.3390/ma9030134

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Main Authors: Meenashisundaram, G.K, Nai, M.H, Almajid, A, Gupta, M
Other Authors: MECHANICAL ENGINEERING
Format: Article
Published: MDPI AG 2020
Subjects:
Ceramic materials
Compaction
Grain refinement
Grain size and shape
Magnesium
Magnesium printing plates
Nanocomposites
Strengthening (metal)
Tensile strength
Titanium
Titanium compounds
Volume fraction
X ray diffraction
Compression properties
Disintegrated melt deposition technique
Hall-petch
Micro-structural characterization
Nanoparticulates
Strengthening mechanisms
Tensile
X-ray diffraction studies
Titanium nitride
Online Access:https://scholarbank.nus.edu.sg/handle/10635/174988
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1749882024-04-04T02:33:58Z Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response Meenashisundaram, G.K Nai, M.H Almajid, A Gupta, M MECHANICAL ENGINEERING MECHANOBIOLOGY INSTITUTE Ceramic materials Compaction Grain refinement Grain size and shape Magnesium Magnesium printing plates Nanocomposites Strengthening (metal) Tensile strength Titanium Titanium compounds Volume fraction X ray diffraction Compression properties Disintegrated melt deposition technique Hall-petch Micro-structural characterization Nanoparticulates Strengthening mechanisms Tensile X-ray diffraction studies Titanium nitride 10.3390/ma9030134 Materials 9 3 134 2020-09-09T01:40:37Z 2020-09-09T01:40:37Z 2016 Article Meenashisundaram, G.K, Nai, M.H, Almajid, A, Gupta, M (2016). Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response. Materials 9 (3) : 134. ScholarBank@NUS Repository. https://doi.org/10.3390/ma9030134 19961944 https://scholarbank.nus.edu.sg/handle/10635/174988 MDPI AG Unpaywall 20200831
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic Ceramic materials
Compaction
Grain refinement
Grain size and shape
Magnesium
Magnesium printing plates
Nanocomposites
Strengthening (metal)
Tensile strength
Titanium
Titanium compounds
Volume fraction
X ray diffraction
Compression properties
Disintegrated melt deposition technique
Hall-petch
Micro-structural characterization
Nanoparticulates
Strengthening mechanisms
Tensile
X-ray diffraction studies
Titanium nitride
spellingShingle Ceramic materials
Compaction
Grain refinement
Grain size and shape
Magnesium
Magnesium printing plates
Nanocomposites
Strengthening (metal)
Tensile strength
Titanium
Titanium compounds
Volume fraction
X ray diffraction
Compression properties
Disintegrated melt deposition technique
Hall-petch
Micro-structural characterization
Nanoparticulates
Strengthening mechanisms
Tensile
X-ray diffraction studies
Titanium nitride
Meenashisundaram, G.K
Nai, M.H
Almajid, A
Gupta, M
Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response
description 10.3390/ma9030134
author2 MECHANICAL ENGINEERING
author_facet MECHANICAL ENGINEERING
Meenashisundaram, G.K
Nai, M.H
Almajid, A
Gupta, M
format Article
author Meenashisundaram, G.K
Nai, M.H
Almajid, A
Gupta, M
author_sort Meenashisundaram, G.K
title Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response
title_short Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response
title_full Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response
title_fullStr Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response
title_full_unstemmed Reinforcing low-volume fraction nano-tin particulates to monolithical, pure MG for enhanced tensile and compressive response
title_sort reinforcing low-volume fraction nano-tin particulates to monolithical, pure mg for enhanced tensile and compressive response
publisher MDPI AG
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/174988
_version_ 1800914281741418496

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