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Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling

Research output: Contribution to journalJournal article

Published

Standard

Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling. / Hasib, Hazman; Taufik, Roni Sahroni; Mohd, Nurul Farah Adibah; Yahaya, Saifudin Hafiz; Mohamad, Ahmad Kamely; Abdullah, Zulkeflee; Ariff, Hambali; Hambali, Ruzy Haryati.

In: Journal of Advanced Manufacturing Technology, Vol. 8, No. 2, 2014.

Research output: Contribution to journalJournal article

Harvard

Hasib, H, Taufik, RS, Mohd, NFA, Yahaya, SH, Mohamad, AK, Abdullah, Z, Ariff, H & Hambali, RH 2014, 'Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling', Journal of Advanced Manufacturing Technology, vol. 8, no. 2.

APA

Hasib, H., Taufik, R. S., Mohd, N. F. A., Yahaya, S. H., Mohamad, A. K., Abdullah, Z., ... Hambali, R. H. (2014). Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling. Journal of Advanced Manufacturing Technology, 8(2).

Vancouver

Hasib H, Taufik RS, Mohd NFA, Yahaya SH, Mohamad AK, Abdullah Z et al. Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling. Journal of Advanced Manufacturing Technology. 2014;8(2).

Author

Hasib, Hazman ; Taufik, Roni Sahroni ; Mohd, Nurul Farah Adibah ; Yahaya, Saifudin Hafiz ; Mohamad, Ahmad Kamely ; Abdullah, Zulkeflee ; Ariff, Hambali ; Hambali, Ruzy Haryati. / Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling. In: Journal of Advanced Manufacturing Technology. 2014 ; Vol. 8, No. 2.

Bibtex

@article{8de2c0001f1a493689185519bb9b1357,
title = "Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling",
abstract = "Experimental specimens were fabricated using Tin (Sn) as core material while silicon carbide and rice husk acted as reinforced materials to increase the specimen’s hardness. Silicon carbide and rice husk were reinforced in the Tin using metal casting process (mold plate casting). The specimen mold plate was cut using laser cutting machine and the material plate used was Aluminum. After metal casting process has been completed, the specimen in the mould were pressed using the hot press molding machine. Two types of testing were used in this study namely tensile test and hardness test. Three specimens have been used for each test. The result for the testings have been observed and analyzed based on their tensile strength and material hardness. It has been found that the tensile strength for the composite material is higher than the initial Tin (Sn), as well as its hardness. However, the mixing technique could have been improved to obtain better SiC and rice husk distribution.",
author = "Hazman Hasib and Taufik, {Roni Sahroni} and Mohd, {Nurul Farah Adibah} and Yahaya, {Saifudin Hafiz} and Mohamad, {Ahmad Kamely} and Zulkeflee Abdullah and Hambali Ariff and Hambali, {Ruzy Haryati}",
year = "2014",
language = "English",
volume = "8",
journal = "Journal of Advanced Manufacturing Technology",
issn = "1985-3157",
publisher = "Penerbit Universiti Teknikal Malaysia Melaka",
number = "2",

}

RIS

TY - JOUR

T1 - Experimental evaluation of mechanical properties of tin composite (tin, rice husk and silicon carbide) for sustainable production tooling

AU - Hasib, Hazman

AU - Taufik, Roni Sahroni

AU - Mohd, Nurul Farah Adibah

AU - Yahaya, Saifudin Hafiz

AU - Mohamad, Ahmad Kamely

AU - Abdullah, Zulkeflee

AU - Ariff, Hambali

AU - Hambali, Ruzy Haryati

PY - 2014

Y1 - 2014

N2 - Experimental specimens were fabricated using Tin (Sn) as core material while silicon carbide and rice husk acted as reinforced materials to increase the specimen’s hardness. Silicon carbide and rice husk were reinforced in the Tin using metal casting process (mold plate casting). The specimen mold plate was cut using laser cutting machine and the material plate used was Aluminum. After metal casting process has been completed, the specimen in the mould were pressed using the hot press molding machine. Two types of testing were used in this study namely tensile test and hardness test. Three specimens have been used for each test. The result for the testings have been observed and analyzed based on their tensile strength and material hardness. It has been found that the tensile strength for the composite material is higher than the initial Tin (Sn), as well as its hardness. However, the mixing technique could have been improved to obtain better SiC and rice husk distribution.

AB - Experimental specimens were fabricated using Tin (Sn) as core material while silicon carbide and rice husk acted as reinforced materials to increase the specimen’s hardness. Silicon carbide and rice husk were reinforced in the Tin using metal casting process (mold plate casting). The specimen mold plate was cut using laser cutting machine and the material plate used was Aluminum. After metal casting process has been completed, the specimen in the mould were pressed using the hot press molding machine. Two types of testing were used in this study namely tensile test and hardness test. Three specimens have been used for each test. The result for the testings have been observed and analyzed based on their tensile strength and material hardness. It has been found that the tensile strength for the composite material is higher than the initial Tin (Sn), as well as its hardness. However, the mixing technique could have been improved to obtain better SiC and rice husk distribution.

M3 - Journal article

VL - 8

JO - Journal of Advanced Manufacturing Technology

JF - Journal of Advanced Manufacturing Technology

SN - 1985-3157

IS - 2

ER -