PENGARUH FRAKSI BERAT FLY ASH PADA KOMPOSIT MATRIK SERBUK LIMBAH ALUMINIUM TERHADAP SIFAT KEKERASAN

Muh Sadat Hamzah, Alimuddin Sam, Irvan Mukkas

Abstract


This study aims to determine the effect of weight fraction of fly ash on the hardness properties of composite aluminum/fly ash. This research uses fly ash powder and aluminum waste powder is processed through water atomization method. Fly ash powder as much as 10%, 20%, and 30% of the weight fraction was mixed with powder from aluminum waste (size ≤ 53 μm). Each mixture is stirred using a mixer for 2 hours. A mixture of fly ash powder and powder from aluminum waste is uniaxially compressed at a pressure of 120 MPa and sintering in atmospheric environments with temperatures of 525 , 550 and 575 , then hardness testing. The test results show that along with the increase in the weight fraction of fly ash at the same temperature the hardness value decreases and the hardness value increases at a higher temperature. The highest hardness value is at sintering temperature of 525 °C with a weight fraction of 10% fly ash of 32.83 BHN, while the lowest hardness value is at a temperature of 575 °C with a weight fraction of 30% fly ash of 17.55 BHN.


Full Text:

PDF

References


Gibson, R.F., 1994, “Principles of Composite Material Mechanics”, Mc Graw Hill Book Co New York

Subarmono, Jamasri, M.W. Wildan dan Kusnanto., 2008, “Pemanfaatan Limbah Abu Terbang Sebagai Penguat Aluminium Matrix Composite”, Jurnal Teknik Mesin Universitas Kristen Petra Surabaya Vol. 10 No. 2: 109-114

Callister Jr, William D, 2009, “Materials Science And Engineering An Introduction”8th Edition, New Jersey: John Wiley & Sons, Inc, Hoboken

Erol M., Genc A., Overcoglu M.L., Yucelen U., Kucukbayrak S., dan Taptik Y, “Characterization of Glass Ceramic Produced from Thermal Power Plant Fly Ash” Journal of the European Ceramic Society, 20, 2209-2214, 2000

Wildan, W.M., Rusianto, T., dan Rochardjo, B.S.H, “Pengaruh Kandungan Serbuk Alumina Terhadap Kekerasan dan Kekuatan Bending Komposit Paduan Al-Si/Alumina”, Jurnal Mesin dan Industri, Volume 2 (1), 2005

Suarsana K., Rudy S., A Suprapto.,Anindito P., dan Wijaya S., “Pengaruh Komposisi Penguat SiC Wisker dan Al2O3 pada Aluminium Matrix Composite (AMC) terhadap Kekerasan Setelah Proses Sintering”, Proseding Konfferensi Nasional Perhotelan, Universitas Udayana Bali, Nomor 1. Volume 3. ISSN 2338 – 414X, 2015

Barsoum, M.W., 1997, “Fundamental of Ceramics”, Mc Graw-Hill Book Co New York

German, R.M., 1994, “Powder Metallurgy Science”, Metal Powder Industries Federation, Princeton New Jersey

Warren, R., 1992,”Ceramic-Matrix Composite”, Published in the USA by Chapman and Hall, New York

Rusianto, T., 2004, “Sifat fisis dan mekanis komposit paduan Al-Si/Al2O3 yang dibuat dengan metode metalurgi serbuk”, Tesis Program Pascasarjana Jurusan Teknik Mesin UGM

Wang, H., Rui Z., Xing H., Chang-An W., dan Yong H., 2008, “ Characterization of a powder metallurgy SiC/Cu-Al composite”, Journal of Materials Processing Technology Vol. 197: 43-48


Refbacks

  • There are currently no refbacks.