DAFTAR PUSTAKA
1. Abdullah,Kdan Hussin,M,2010, Fire Resistance Properties of Palm Oil Fuel Ash Cement Based Aerated Concrete, Conrete Research, vol.1 (3).
2. Abolarin,M.,S, Olugboji,O.,Adan Ogunwole,O.,A,2007,Cating of Brake Disc and Impeller from aluminium scrap Using Silica Sand, Leonardo Electronic Journal of Practices and Technologies, ISSN 1583-1078, p.145-150.
3. Basuki,B., DjuhanadanNurwasito,B., 2005, PengecoranAluminiumUntuk Bucket TurbinPeltonSkalaLaboratorium, Seminar Material Metalurgi, ISBN ; 9-793-68847-5.
4. Brown, J.R.,1999, Foseco Non-Ferrous Foundryman’s Handbook, Butterworth Heinemann, Eleventh Edition, Oxford.
5. Chaudhury,S.K.,Singh,A.K., Sivaramakrishnan,C.S.S. danPanigrahi, 2004,
Preparation and thermomechanical properties of stir cast Al–2Mg–11TiO2
(rutile) composite, Bull. Mater. Sci., Vol. 27, No. 6, December 2004, pp. 517–521. 6. Gikunoo,E,etl,2004, Efect of fly ash addition on the magnesium content of
casting aluminium alloy A535, Journal of material science 39, 6619 – 6622.
7. Hashim,J, 2001, The Production Of Cast Metal Matrix Composite By A
Modified Stir Casting Method, jurnal Teknologi,35(A), 9-20,
UniversitasTeknologi Malaysia.
8. Juang,S.,HdanWu,S.,M, 2008,Study On Mechanical Properties Of A356
Alloys Enhanced With Preformed Thixotropic Structure, Journal of Marine
Science and Technology,Vol.16,No.4, pp.271-274.
9. Kainer,K.,U,2006, Basic of Metal Matrix Composites, Wiley-VCH Verlag
GmbH&Co.KGaA,ISBN;3-527-31360-5, Weinheim.
10.Lee,J.,A,2003, Cast Aluminum Alloy For High Temperature Applications,
The minerals,Metals& Materials Society.
11.Melo,M.L.N.M., Rizzo,E.M.S. dan Santos,R.G.,2005, Numerical
Simulation Application in Microporosity Prevision in Aluminium Alloy
Casting, RevistaBrasileira de Aplicacoes de Vacuo,V.24,n. 36-40
xiv
12. Mahendra,K.V. danRadhakrishna,K., 2007, Fabrication of Al–4.5% Cu alloy with fly ash metal matrix composites and its characterization, Materials Science-Poland, Vol. 25, No. 1,
13. Nadca, 1997, Alloy data ;Aluminium Die Casting Alloys, NADCA Product Specification Standards for Die Casting, Sec.3.
14.Purnomo,2004, Pengaruh pengecoran ulang terhadap kekuatan tarik dan
ketangguhan impak pada paduan Aluminium tuang 320, Proceedings,
Komputerdan system intelijen, Universitas Gunadarma, Jakarta.
15. Suprianto,Isranuri,I, danTugiman, 2010, Studi Perbaikan Sifat Mekanis Limbah Aluminium Dengan Penambahan Unsur Si, Laporan Akhir Penelitian, Dana Masyarakat Lembaga Penelitian USU.
16.Sarangi,S dan Kumar,D,2009, Fabrication and Characterisation of
Aluminium-Fly Ash Composite Using Stir Casting Method, A Thesis,
Departement of Metallurgy & Materials Engineering National Institute of
Technology Rourkel.
17.Zulfikar, 2010, Studi Sifat Fisis dan Mekanis Komposit Aluminium / Fly
ash dengan Variasi Fraksi Berat dan Temperatur Sintering, Teknik Mesin
Politeknik Negeri Padang, Padang.
18.Van den berg MARK R,. 1998 Alumunium MMC
19.Zotolorovsky, 2007, Alumunium paduan dengan silikon sebagai unsur
utama adalah kelas paduan yang mempunyai mampu cor yang baik hingga
penggunaannya hampir mencapai 90% dari total pengecoran alumunium.
20.Vincent,A.,dkk,1996, Transient Internal Damping in Metal Matrix
Composite, Journal De Physique IV,Vol.6, Villeurbanne cedex, France.
21.
