Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons

10.3390/ma10090997

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Bibliographic Details
Main Authors:	Manakari, V, Parande, G, Doddamani, M, Gupta, M
Other Authors:	MECHANICAL ENGINEERING
Format:	Article
Published:	MDPI AG 2020
Subjects:	Compaction Compressive strength Foams Glass Ignition Microstructure Syntactics Compressive properties Disintegrated melt depositions Glass microspheres Hollow glass microballoons Metal matrix syntactic foams Microstructural changes Syntactic foams Ultimate compressive strength Magnesium
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/174420
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Institution:	National University of Singapore

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spelling	sg-nus-scholar.10635-1744202024-04-04T02:34:12Z Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons Manakari, V Parande, G Doddamani, M Gupta, M MECHANICAL ENGINEERING Compaction Compressive strength Foams Glass Ignition Microstructure Syntactics Compressive properties Disintegrated melt depositions Glass microspheres Hollow glass microballoons Metal matrix syntactic foams Microstructural changes Syntactic foams Ultimate compressive strength Magnesium 10.3390/ma10090997 Materials 10 9 997 2020-09-04T03:39:32Z 2020-09-04T03:39:32Z 2017 Article Manakari, V, Parande, G, Doddamani, M, Gupta, M (2017). Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons. Materials 10 (9) : 997. ScholarBank@NUS Repository. https://doi.org/10.3390/ma10090997 1996-1944 https://scholarbank.nus.edu.sg/handle/10635/174420 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	Compaction Compressive strength Foams Glass Ignition Microstructure Syntactics Compressive properties Disintegrated melt depositions Glass microspheres Hollow glass microballoons Metal matrix syntactic foams Microstructural changes Syntactic foams Ultimate compressive strength Magnesium
spellingShingle	Compaction Compressive strength Foams Glass Ignition Microstructure Syntactics Compressive properties Disintegrated melt depositions Glass microspheres Hollow glass microballoons Metal matrix syntactic foams Microstructural changes Syntactic foams Ultimate compressive strength Magnesium Manakari, V Parande, G Doddamani, M Gupta, M Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons
description	10.3390/ma10090997
author2	MECHANICAL ENGINEERING
author_facet	MECHANICAL ENGINEERING Manakari, V Parande, G Doddamani, M Gupta, M
format	Article
author	Manakari, V Parande, G Doddamani, M Gupta, M
author_sort	Manakari, V
title	Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons
title_short	Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons
title_full	Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons
title_fullStr	Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons
title_full_unstemmed	Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons
title_sort	enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons
publisher	MDPI AG
publishDate	2020
url	https://scholarbank.nus.edu.sg/handle/10635/174420
_version_	1800914241210810368

Enhancing the ignition, hardness and compressive response of magnesium by reinforcing with hollow glass microballoons

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