The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy

The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy

In this study, the effect of molding materials on microstructure and wear behavior of A356 alloy was investigated. Different microstructures were obtained by casting A356 alloy into the molds made from three different materials. Homogenization and aging heat treatments were applied as cast blocks. T...

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Main Authors: Yildirim Musa, Özyürek Dursun, Tunçay Tansel
Format: Article
Language:English
Published: De Gruyter 2017-05-01
Series:High Temperature Materials and Processes
Subjects:
a356
cooling rate
wear behavior
81.40.pq
Online Access:https://doi.org/10.1515/htmp-2015-0240
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spelling doaj-303e801f2d474630bc4a9090a200a59b2021-09-06T19:19:55ZengDe GruyterHigh Temperature Materials and Processes0334-64552191-03242017-05-0136551552110.1515/htmp-2015-0240The Effects of Molding Materials on Microstructure and Wear Behavior of A356 AlloyYildirim Musa0Özyürek Dursun1Tunçay Tansel2Department of Manufacturing Engineering, Technology Faculty, Karabuk University, Karabuk, TurkeyDepartment of Manufacturing Engineering, Technology Faculty, Karabuk University, Karabuk, TurkeyDepartment of Manufacturing Engineering, Technology Faculty, Karabuk University, Karabuk, TurkeyIn this study, the effect of molding materials on microstructure and wear behavior of A356 alloy was investigated. Different microstructures were obtained by casting A356 alloy into the molds made from three different materials. Homogenization and aging heat treatments were applied as cast blocks. The aged samples were tested by pin-on-disk-type standard wear equipment. The results showed that casting into different mold materials resulted in different microstructures of A356 alloy. Microstructures of the Al–Si–Mg alloy differ depending on the mold materials. Secondary dendrite arm space (SDAS) decreased proportionally with increasing cooling rate. Based on the cooling rate, hardness values of the alloy also differ. As the cooling rate increased, hardness of the alloy increased. The SDAS increased due to the decreasing cooling rate. In wear tests, increasing weight loss was observed with decreasing cooling rate.https://doi.org/10.1515/htmp-2015-0240a356cooling ratewear behavior81.40.pq
collection DOAJ
language English
format Article
sources DOAJ
author Yildirim Musa
Özyürek Dursun
Tunçay Tansel
spellingShingle Yildirim Musa
Özyürek Dursun
Tunçay Tansel
The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy
High Temperature Materials and Processes
a356
cooling rate
wear behavior
81.40.pq
author_facet Yildirim Musa
Özyürek Dursun
Tunçay Tansel
author_sort Yildirim Musa
title The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy
title_short The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy
title_full The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy
title_fullStr The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy
title_full_unstemmed The Effects of Molding Materials on Microstructure and Wear Behavior of A356 Alloy
title_sort effects of molding materials on microstructure and wear behavior of a356 alloy
publisher De Gruyter
series High Temperature Materials and Processes
issn 0334-6455
2191-0324
publishDate 2017-05-01
description In this study, the effect of molding materials on microstructure and wear behavior of A356 alloy was investigated. Different microstructures were obtained by casting A356 alloy into the molds made from three different materials. Homogenization and aging heat treatments were applied as cast blocks. The aged samples were tested by pin-on-disk-type standard wear equipment. The results showed that casting into different mold materials resulted in different microstructures of A356 alloy. Microstructures of the Al–Si–Mg alloy differ depending on the mold materials. Secondary dendrite arm space (SDAS) decreased proportionally with increasing cooling rate. Based on the cooling rate, hardness values of the alloy also differ. As the cooling rate increased, hardness of the alloy increased. The SDAS increased due to the decreasing cooling rate. In wear tests, increasing weight loss was observed with decreasing cooling rate.
topic a356
cooling rate
wear behavior
81.40.pq
url https://doi.org/10.1515/htmp-2015-0240
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