PENGUJIAN KEAUSAN KOMPOSIT ALUMINIUM YANG DIPERKUAT SERBUK BESI DAN KOMPOSIT PADUAN ALUMINIUM TEMBAGA YANG DIPERKUAT ABU TERBANG - Diponegoro University | Institutional Repository (UNDIP-IR)
DAFTAR PUSTAKA
[1] Kumar, D., Sarangi, S., (2009), F abrication and Characterisation of Aluminium-
F ly
Ash Composite Using Stir Casting Method, Rourkela: Department of Metallurgical and
Materials Engineering National Institute of Technology.
[2] Kartaman, M., (2010), F abrikasi Komposit Al/Al2 O3 Coated dengan Metode Stir Casting
dan Karakterisasinya , Depok: Universitas Indonesia .
[3] Surdia, T., Shinroku S., (1995), Pengetahuan Bahan Teknik, Jakarta: Pradnya Paramita
[4] Anggreani, Yuni, (2010), Besi , SMAI YAPPAS AL-BAROKAH, Tasikmalaya.
[5] Hasyim, J., The Production of Cast Metal Matrix Composite By a Modified Stir Casting
Method, Jurnal Teknologi, 35(A) Dis.2001: Universiti Teknologi Malaysia.
[6] Totten, George. E, 1999, Handbook of Aluminium, Vol. 1, Marcel Dekker, New York,
Bassel.
[7] Utama. (2009), Tuga s Akhir : Pengaruh Penambahan Cu (1 %, 3 %, dan 5%) Pada
Aluminium Dengan Solution Heat Treatment Dan Natural Aging Terhadap Sifat Fisis
Dan Mekanis, Surakarta: UMS .
[8] Davis, JR., (1993) “ Speciallty Handbook, Alumunium and Alumunium Alloys ”, ASM
International Handbook Comitee, Ohio.
[9] Russell, M. Alan, 2005, Structure Property Relations in NonferrousnMetals , John Wiley &
Sons, Inc., New Jersey.
[10] F. Smith,William, (1996), Principles of Materials Science and Enginering 3rd ed, New
York: Mc Graw-Hill,Inc.
[11] Murray, J.L., 1985, ” Binary Alloy Phase Diagrams”, Int.Met.Rev.Trans. Metal.Soc.AIME
[12] Indian Energy Sector, 2003. “ Managing F ly Ash “, India
[13] Emmanuel, Gikunoo, 2004. Effect of F ly Ash Particles on the Mechanical Properties and
Microstructure of Aluminium Casting Alloy A535
[14] Setyana, Budi & Suprihanto, Agus. 2006 . Pengujian Mekanik dan Fisik Pada Metal
Matrix Composite (MMC) Aluminium Fly Ash.
[15] Callister ,William D, Jr.”Materials Science and Engineering ”, Seventh Edition, copyr ight
by John Wiley and Sons, Inc.
[16]
Sciti, D., and Bellosi, A., 2002, Microstructure and Properties of Alumina-SiC
nanocomposites Prepared from Ultrafine Powder, Journal of Material Science 37, Kluwer
Academic Publishers
[17] Saranavanan, R.A., 1998, Dry Sliding Wear Behavior of A356-15 Pct SiCp Composites
under Controlled Atmospheric Conditions, Metallurgical and Materials Transactions.
[18]
ASM Metals Handbook Volume 2. Properties and Selection: Nonferrous Alloys and
Special-Purpose Materials.
[19] Emmanuel, Gikunoo, 2004. Effect of F ly Ash Particles on the Mechanical Properties and
Microstructure of Aluminium Casting Alloy A535
[20] Budynas, Richard & Nisbett, Keith. 2006. Shigley’s Mechanical Engineering Design 8th
Edition. McGraw-Hill Series in Mechanical Engineering.
[21] Almen, J.O. (1950). In Mechanical Wear (ed J.T. Burwell), Amarican Society for Metals,
pp. 229-288.
[22]
Hokkirigawa, K. and Kato, K. (1989). “Theoretical Estimation of Abrasive Wear
Resistance Based on Microscopic Wear Mechanism”, Wear of Materials (ed K.C.
Ludema), ASME, New York, pp. 1-8.
[23] Zum Gahr, K.H. (1987). “Microstrukture and Wear of Materials ”, Tribology Series,
Elsevier, Amsterdam, pp. 132-148.
[24] Yuwono H.A., 2009, “Buku Panduan Praktikum Karakterisasi Material 1 Pengujian
Merusak (Destruktive Testing)”, Universitas Indonesia, Jakarta.
[25] Novianto, RiyanYudha, 2008, Laporan Praktikum Sturktur dan Sifat Material ,Universitas
Diponegoro, Semarang.
[26]
ASTM Handbook, .E 18-05, Standard Tes Methods Rockwell Hardness and Rockwell
Superficial Hardness
[27] ASTM Handbook, C 373 – 88, Standard Test Method for Water Absorption, Apparent
Porosity, and Apparent Specific Gravity for F ire Whiteware Product.
[1] Kumar, D., Sarangi, S., (2009), F abrication and Characterisation of Aluminium-
F ly
Ash Composite Using Stir Casting Method, Rourkela: Department of Metallurgical and
Materials Engineering National Institute of Technology.
[2] Kartaman, M., (2010), F abrikasi Komposit Al/Al2 O3 Coated dengan Metode Stir Casting
dan Karakterisasinya , Depok: Universitas Indonesia .
[3] Surdia, T., Shinroku S., (1995), Pengetahuan Bahan Teknik, Jakarta: Pradnya Paramita
[4] Anggreani, Yuni, (2010), Besi , SMAI YAPPAS AL-BAROKAH, Tasikmalaya.
[5] Hasyim, J., The Production of Cast Metal Matrix Composite By a Modified Stir Casting
Method, Jurnal Teknologi, 35(A) Dis.2001: Universiti Teknologi Malaysia.
[6] Totten, George. E, 1999, Handbook of Aluminium, Vol. 1, Marcel Dekker, New York,
Bassel.
[7] Utama. (2009), Tuga s Akhir : Pengaruh Penambahan Cu (1 %, 3 %, dan 5%) Pada
Aluminium Dengan Solution Heat Treatment Dan Natural Aging Terhadap Sifat Fisis
Dan Mekanis, Surakarta: UMS .
[8] Davis, JR., (1993) “ Speciallty Handbook, Alumunium and Alumunium Alloys ”, ASM
International Handbook Comitee, Ohio.
[9] Russell, M. Alan, 2005, Structure Property Relations in NonferrousnMetals , John Wiley &
Sons, Inc., New Jersey.
[10] F. Smith,William, (1996), Principles of Materials Science and Enginering 3rd ed, New
York: Mc Graw-Hill,Inc.
[11] Murray, J.L., 1985, ” Binary Alloy Phase Diagrams”, Int.Met.Rev.Trans. Metal.Soc.AIME
[12] Indian Energy Sector, 2003. “ Managing F ly Ash “, India
[13] Emmanuel, Gikunoo, 2004. Effect of F ly Ash Particles on the Mechanical Properties and
Microstructure of Aluminium Casting Alloy A535
[14] Setyana, Budi & Suprihanto, Agus. 2006 . Pengujian Mekanik dan Fisik Pada Metal
Matrix Composite (MMC) Aluminium Fly Ash.
[15] Callister ,William D, Jr.”Materials Science and Engineering ”, Seventh Edition, copyr ight
by John Wiley and Sons, Inc.
[16]
Sciti, D., and Bellosi, A., 2002, Microstructure and Properties of Alumina-SiC
nanocomposites Prepared from Ultrafine Powder, Journal of Material Science 37, Kluwer
Academic Publishers
[17] Saranavanan, R.A., 1998, Dry Sliding Wear Behavior of A356-15 Pct SiCp Composites
under Controlled Atmospheric Conditions, Metallurgical and Materials Transactions.
[18]
ASM Metals Handbook Volume 2. Properties and Selection: Nonferrous Alloys and
Special-Purpose Materials.
[19] Emmanuel, Gikunoo, 2004. Effect of F ly Ash Particles on the Mechanical Properties and
Microstructure of Aluminium Casting Alloy A535
[20] Budynas, Richard & Nisbett, Keith. 2006. Shigley’s Mechanical Engineering Design 8th
Edition. McGraw-Hill Series in Mechanical Engineering.
[21] Almen, J.O. (1950). In Mechanical Wear (ed J.T. Burwell), Amarican Society for Metals,
pp. 229-288.
[22]
Hokkirigawa, K. and Kato, K. (1989). “Theoretical Estimation of Abrasive Wear
Resistance Based on Microscopic Wear Mechanism”, Wear of Materials (ed K.C.
Ludema), ASME, New York, pp. 1-8.
[23] Zum Gahr, K.H. (1987). “Microstrukture and Wear of Materials ”, Tribology Series,
Elsevier, Amsterdam, pp. 132-148.
[24] Yuwono H.A., 2009, “Buku Panduan Praktikum Karakterisasi Material 1 Pengujian
Merusak (Destruktive Testing)”, Universitas Indonesia, Jakarta.
[25] Novianto, RiyanYudha, 2008, Laporan Praktikum Sturktur dan Sifat Material ,Universitas
Diponegoro, Semarang.
[26]
ASTM Handbook, .E 18-05, Standard Tes Methods Rockwell Hardness and Rockwell
Superficial Hardness
[27] ASTM Handbook, C 373 – 88, Standard Test Method for Water Absorption, Apparent
Porosity, and Apparent Specific Gravity for F ire Whiteware Product.