Tribology, mechanical properties and coloration of a mica glass-ceramic

Tribology, mechanical properties and coloration of a mica glass-ceramic

© 2020, Chulalognkorn University. The research employed pigments, Fe2O3 and CeO2, into the glass frit for adjustable mechanical properties and coloration. Disc samples were prepared to determine microstructures and mechanical properties in terms of tribology and nano-indentation hardness as well as...

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Main Authors: Sahadsaya Prasertwong, Sukanda Angkulpipat, Thapanee Srichumpong, Kallaya Suputtamongkol, Chanchana Thanachayanont, Ramona Sola, Greg Heness, Cristina Leonelli, Duangrudee Chaysuwan
Other Authors: University of Technology Sydney
Format: Article
Published: 2020
Subjects:
Engineering
Materials Science
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/57901
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spelling th-mahidol.579012020-08-25T17:18:11Z Tribology, mechanical properties and coloration of a mica glass-ceramic Sahadsaya Prasertwong Sukanda Angkulpipat Thapanee Srichumpong Kallaya Suputtamongkol Chanchana Thanachayanont Ramona Sola Greg Heness Cristina Leonelli Duangrudee Chaysuwan University of Technology Sydney Kasetsart University Thailand National Metal and Materials Technology Center Mahidol University Università degli Studi di Modena e Reggio Emilia Engineering Materials Science © 2020, Chulalognkorn University. The research employed pigments, Fe2O3 and CeO2, into the glass frit for adjustable mechanical properties and coloration. Disc samples were prepared to determine microstructures and mechanical properties in terms of tribology and nano-indentation hardness as well as biaxial flexural strength. The glass system presented the crystalline phases, by XRD, of phlogopite Ca-mica, fluorapatite, stishovite, anorthite and strontium apatite. Furthermore, SEM micrographs revealed rod-like microstructures and parent glass phase in all specimens 1) GC, 2) GC + 1wt% CeO2, 3) GC + 0.1wt% Fe2O3 and 4) GC + 1wt% CeO2 + 0.1wt% Fe2O3. For the tribology test, specimens were tested by a pin-on-disc tribometer with 10 N load and 1,000 wear cycles. The obtained values of wear rate and friction coefficient of GCF were better than those of others. The nanoindentation hardness results showed that GC exhibited 3.2 GPa which lower than those of GCC, GCF and GCCF, respectively. The addition of pigments affected reddish yellow color. After crystallization, the contrast ratio is around 0.72 for GC and decreases to 58-75% for the mica glass-ceramics that contain the pigments. The values of biaxial flexural strength of all were acceptable (≥100 MPa) according to ISO 6872:2015. 2020-08-25T09:53:39Z 2020-08-25T09:53:39Z 2020-01-01 Article Journal of Metals, Materials and Minerals. Vol.30, No.2 (2020), 83-90 10.14456/jmmm.2020.24 26300508 08576149 2-s2.0-85088860714 https://repository.li.mahidol.ac.th/handle/123456789/57901 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85088860714&origin=inward
institution Mahidol University
building Mahidol University Library
continent Asia
country Thailand
Thailand
content_provider Mahidol University Library
collection Mahidol University Institutional Repository
topic Engineering
Materials Science
spellingShingle Engineering
Materials Science
Sahadsaya Prasertwong
Sukanda Angkulpipat
Thapanee Srichumpong
Kallaya Suputtamongkol
Chanchana Thanachayanont
Ramona Sola
Greg Heness
Cristina Leonelli
Duangrudee Chaysuwan
Tribology, mechanical properties and coloration of a mica glass-ceramic
description © 2020, Chulalognkorn University. The research employed pigments, Fe2O3 and CeO2, into the glass frit for adjustable mechanical properties and coloration. Disc samples were prepared to determine microstructures and mechanical properties in terms of tribology and nano-indentation hardness as well as biaxial flexural strength. The glass system presented the crystalline phases, by XRD, of phlogopite Ca-mica, fluorapatite, stishovite, anorthite and strontium apatite. Furthermore, SEM micrographs revealed rod-like microstructures and parent glass phase in all specimens 1) GC, 2) GC + 1wt% CeO2, 3) GC + 0.1wt% Fe2O3 and 4) GC + 1wt% CeO2 + 0.1wt% Fe2O3. For the tribology test, specimens were tested by a pin-on-disc tribometer with 10 N load and 1,000 wear cycles. The obtained values of wear rate and friction coefficient of GCF were better than those of others. The nanoindentation hardness results showed that GC exhibited 3.2 GPa which lower than those of GCC, GCF and GCCF, respectively. The addition of pigments affected reddish yellow color. After crystallization, the contrast ratio is around 0.72 for GC and decreases to 58-75% for the mica glass-ceramics that contain the pigments. The values of biaxial flexural strength of all were acceptable (≥100 MPa) according to ISO 6872:2015.
author2 University of Technology Sydney
author_facet University of Technology Sydney
Sahadsaya Prasertwong
Sukanda Angkulpipat
Thapanee Srichumpong
Kallaya Suputtamongkol
Chanchana Thanachayanont
Ramona Sola
Greg Heness
Cristina Leonelli
Duangrudee Chaysuwan
format Article
author Sahadsaya Prasertwong
Sukanda Angkulpipat
Thapanee Srichumpong
Kallaya Suputtamongkol
Chanchana Thanachayanont
Ramona Sola
Greg Heness
Cristina Leonelli
Duangrudee Chaysuwan
author_sort Sahadsaya Prasertwong
title Tribology, mechanical properties and coloration of a mica glass-ceramic
title_short Tribology, mechanical properties and coloration of a mica glass-ceramic
title_full Tribology, mechanical properties and coloration of a mica glass-ceramic
title_fullStr Tribology, mechanical properties and coloration of a mica glass-ceramic
title_full_unstemmed Tribology, mechanical properties and coloration of a mica glass-ceramic
title_sort tribology, mechanical properties and coloration of a mica glass-ceramic
publishDate 2020
url https://repository.li.mahidol.ac.th/handle/123456789/57901
_version_ 1763490027094933504

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