Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent

Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent

Metal-resin composites, using metal particles instead of inorganic particles as the filler and 4- META as the coupling agent, were experimentally prepared under 20 different conditions (five different concentrations of 4-META, and four different contents of metal particles). The flexural strength of...

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Main Authors: Kiyoshi Kakuta, Somchai Urapepon, Yukio Miyagawa, Hideo Ogura, Chatcharee Suchatlampong, Apiwat Rittapai
Other Authors: Nippon Dental University
Format: Article
Published: 2018
Subjects:
Dentistry
Materials Science
Online Access:https://repository.li.mahidol.ac.th/handle/123456789/25402
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Institution: Mahidol University
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spelling th-mahidol.254022018-09-07T15:52:38Z Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent Kiyoshi Kakuta Somchai Urapepon Yukio Miyagawa Hideo Ogura Chatcharee Suchatlampong Apiwat Rittapai Nippon Dental University Mahidol University Dentistry Materials Science Metal-resin composites, using metal particles instead of inorganic particles as the filler and 4- META as the coupling agent, were experimentally prepared under 20 different conditions (five different concentrations of 4-META, and four different contents of metal particles). The flexural strength of the prepared metal-resin composites was in the range of about 14.5-61.3 MPa. The flexural strength was significantly influenced by the 4-META concentration, the metal particle content and their interaction. The highest strength was estimated at 2-3 mass% of 4-META concentration and 92.0-93.5 mass% metal filler content. The flexural modulus of the metal resin composite ranged approximately from 7.8 GPa to 15.5 GPa. The flexural modulus of the metal resin composite significantly increased with the metal particle content. The effect of the 4- META concentration on the flexural modulus was not significant. 2018-09-07T08:50:08Z 2018-09-07T08:50:08Z 1999-01-01 Article Dental Materials Journal. Vol.18, No.1 (1999), 1-10 10.4012/dmj.18.1 02874547 2-s2.0-0033085803 https://repository.li.mahidol.ac.th/handle/123456789/25402 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=0033085803&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 Dentistry
Materials Science
spellingShingle Dentistry
Materials Science
Kiyoshi Kakuta
Somchai Urapepon
Yukio Miyagawa
Hideo Ogura
Chatcharee Suchatlampong
Apiwat Rittapai
Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent
description Metal-resin composites, using metal particles instead of inorganic particles as the filler and 4- META as the coupling agent, were experimentally prepared under 20 different conditions (five different concentrations of 4-META, and four different contents of metal particles). The flexural strength of the prepared metal-resin composites was in the range of about 14.5-61.3 MPa. The flexural strength was significantly influenced by the 4-META concentration, the metal particle content and their interaction. The highest strength was estimated at 2-3 mass% of 4-META concentration and 92.0-93.5 mass% metal filler content. The flexural modulus of the metal resin composite ranged approximately from 7.8 GPa to 15.5 GPa. The flexural modulus of the metal resin composite significantly increased with the metal particle content. The effect of the 4- META concentration on the flexural modulus was not significant.
author2 Nippon Dental University
author_facet Nippon Dental University
Kiyoshi Kakuta
Somchai Urapepon
Yukio Miyagawa
Hideo Ogura
Chatcharee Suchatlampong
Apiwat Rittapai
format Article
author Kiyoshi Kakuta
Somchai Urapepon
Yukio Miyagawa
Hideo Ogura
Chatcharee Suchatlampong
Apiwat Rittapai
author_sort Kiyoshi Kakuta
title Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent
title_short Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent
title_full Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent
title_fullStr Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent
title_full_unstemmed Development of Metal-Resin Composite Restorative Material Part 1 Experimental Composite using Silver-Tin Alloy as Filler and 4-META as Coupling Agent
title_sort development of metal-resin composite restorative material part 1 experimental composite using silver-tin alloy as filler and 4-meta as coupling agent
publishDate 2018
url https://repository.li.mahidol.ac.th/handle/123456789/25402
_version_ 1763489831691747328

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