Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process

Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process

In general, the main compositions of porcelain and bone china composed of 54-65%wt silica (SiO2), 23-34% wt alumina (Al2O3) and 0.2-0.7%wt calcium oxide (CaO) suitable for preparation high quality ceramic products such as soft-hard porcelain products for teeth and bones, bioceramics, IC substrate an...

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Main Authors: Tharasana Chaturaphat, Wongaunjai Aniruj, Sornsanee Puwitoo, Jitprarop Vichasharn, Tangboriboon Nuchnapa
Format: Article
Language:English
Published: De Gruyter 2020-11-01
Series:Reviews on Advanced Materials Science
Subjects:
eggshell coagulant
slip casting process
contact angle
chemical durability
thermal expansion coefficient
Online Access:https://doi.org/10.1515/rams-2020-0042
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spelling doaj-30f57c7c001343c48d333baa77a961c82021-09-05T14:00:08ZengDe GruyterReviews on Advanced Materials Science1605-81272020-11-0159152353710.1515/rams-2020-0042rams-2020-0042Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping processTharasana Chaturaphat0Wongaunjai Aniruj1Sornsanee Puwitoo2Jitprarop Vichasharn3Tangboriboon Nuchnapa4Materials Engineering Department, Faculty of Engineering, Kasetsart University, Bangkok10900, ThailandMaterials Engineering Department, Faculty of Engineering, Kasetsart University, Bangkok10900, ThailandMaterials Engineering Department, Faculty of Engineering, Kasetsart University, Bangkok10900, ThailandMaterials Engineering Department, Faculty of Engineering, Kasetsart University, Bangkok10900, ThailandMaterials Engineering Department, Faculty of Engineering, Kasetsart University, Bangkok10900, Thailand; Tel.: 66-2-797-0999-2106; Fax: 66-2-955-1811In general, the main compositions of porcelain and bone china composed of 54-65%wt silica (SiO2), 23-34% wt alumina (Al2O3) and 0.2-0.7%wt calcium oxide (CaO) suitable for preparation high quality ceramic products such as soft-hard porcelain products for teeth and bones, bioceramics, IC substrate and magneto-optoelectroceramics. The quality of ceramic hand mold is depended on raw material and its properties (pH, ionic strength, solid-liquid surface tension, particle size distribution, specific surface area, porosity, density, microstructure, weight ratio between solid and water, drying time, and firing temperatures). The suitable firing conditions for porcelain and bone china hand-mold preparation were firing at 1270°C for 10 h which resulted in superior working molds for making latex films from natural and synthetic rubber. The obtained fired porcelain hand molds at 1270°C for 10 h provided good chemical durability (10%NaOH, 5%HCl and 10%wtNaCl), low thermal expansion coefficient (5.8570 × 10−6 (°C−1)), good compressive (179.40 MPa) and good flexural strength (86 MPa). While thermal expansion coefficient, compressive and flexural strength of obtained fired bone china hand molds are equal to 6.9230 × 10−6 (°C−1), 128.40 and 73.70 MPa, respectively, good acid-base-salt resistance, a smooth mold surface, and easy hand mold fabrication. Both obtained porcelain and bone china hand molds are a low production cost, making them suitable for natural and synthetic rubber latex glove formation.https://doi.org/10.1515/rams-2020-0042eggshell coagulantslip casting processcontact anglechemical durabilitythermal expansion coefficient
collection DOAJ
language English
format Article
sources DOAJ
author Tharasana Chaturaphat
Wongaunjai Aniruj
Sornsanee Puwitoo
Jitprarop Vichasharn
Tangboriboon Nuchnapa
spellingShingle Tharasana Chaturaphat
Wongaunjai Aniruj
Sornsanee Puwitoo
Jitprarop Vichasharn
Tangboriboon Nuchnapa
Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process
Reviews on Advanced Materials Science
eggshell coagulant
slip casting process
contact angle
chemical durability
thermal expansion coefficient
author_facet Tharasana Chaturaphat
Wongaunjai Aniruj
Sornsanee Puwitoo
Jitprarop Vichasharn
Tangboriboon Nuchnapa
author_sort Tharasana Chaturaphat
title Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process
title_short Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process
title_full Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process
title_fullStr Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process
title_full_unstemmed Alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process
title_sort alternative of bone china and porcelain as ceramic hand molds for rubber latex glove films formation via dipping process
publisher De Gruyter
series Reviews on Advanced Materials Science
issn 1605-8127
publishDate 2020-11-01
description In general, the main compositions of porcelain and bone china composed of 54-65%wt silica (SiO2), 23-34% wt alumina (Al2O3) and 0.2-0.7%wt calcium oxide (CaO) suitable for preparation high quality ceramic products such as soft-hard porcelain products for teeth and bones, bioceramics, IC substrate and magneto-optoelectroceramics. The quality of ceramic hand mold is depended on raw material and its properties (pH, ionic strength, solid-liquid surface tension, particle size distribution, specific surface area, porosity, density, microstructure, weight ratio between solid and water, drying time, and firing temperatures). The suitable firing conditions for porcelain and bone china hand-mold preparation were firing at 1270°C for 10 h which resulted in superior working molds for making latex films from natural and synthetic rubber. The obtained fired porcelain hand molds at 1270°C for 10 h provided good chemical durability (10%NaOH, 5%HCl and 10%wtNaCl), low thermal expansion coefficient (5.8570 × 10−6 (°C−1)), good compressive (179.40 MPa) and good flexural strength (86 MPa). While thermal expansion coefficient, compressive and flexural strength of obtained fired bone china hand molds are equal to 6.9230 × 10−6 (°C−1), 128.40 and 73.70 MPa, respectively, good acid-base-salt resistance, a smooth mold surface, and easy hand mold fabrication. Both obtained porcelain and bone china hand molds are a low production cost, making them suitable for natural and synthetic rubber latex glove formation.
topic eggshell coagulant
slip casting process
contact angle
chemical durability
thermal expansion coefficient
url https://doi.org/10.1515/rams-2020-0042
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