Pengaruh Variasi Komposisi Al2O3 Terhadap Sifat Fisis, Mekanis, Struktur Mikro, dan Fasa dalam Pembuatan Keramik Berbasis Bentonit dan Glass Bead
50
DAFTAR PUSTAKA
Astuti, A., 1997. Pengetahuan Keramik. Cetakan Pertama. Universitas Gajah Mada
Press. Yogyakarta.
Aviantari, M., 2008. Pembuatan dan Penggunaan Bentonite-Zeolite untuk Pemisahan
Ion Cu2+ dalam Larutan. [Skripsi]. Bandung: ITB, Program Sarjana.
Barsoum, M., 2003. Fundamental of Ceramics. Mc-Graw-Hill International.
Bergeron, GC., Risbud, HS., 2000. Introduction to Phase Equilibria in Ceramics.
The American Ceramic Sosiety, Inc. Columbus Ohio.
Callister, WD., 1994. Materials Science and Engineering an Introduction. Third
Edition. John Wiley and Sons: 434-784.
Davidson, WM., Abramowitz, M. Optical Microscopy. National High Magnetic
Field Laboratory. The Florida State University. Florida.
Della, VP., Kuhn, I., Hotza, D., 2002. Rice Husk Ash an Alternate Source for Active
Silica Production. Materials Leters. Vol 57: 818-821.
Fahmi, H., 2015. Analisa Kekerasan dan Fracture Toughness Alumina Diperkuat
Serbuk Aluminium dan Tembaga. Jurnal Teknik Mesin 5 (1): 42-48. Padang.
Gernot, K., 1988. High-Tech Ceramics. Academic Press. Zurich: 100-118.
Husain, S., Haryanti, HN., Manik, NT., 2016. Pengaruh Suhu Sintering Terhadap
Sifat Mekanik Keramik Berbahan Lempung dan Abu Sekam Padi. Jurnal
Fisika FLUX 13 (1): 1-10. Universitas Lambung Mangkurat. Banjarmasin.
James, S., 1999. Principles, Methode, and Applications of Particle Size Analysis.
Cambridge University Press. Britania Raya.
Joelianingsih, 2004. Peningkatan Kualitas Genteng Keramik dengan Penambahan
Sekam Padi dan Daun Bambu. Makalah Pribadi Falsafah Sains : 1-9. Bogor.
Kopeliovich, D., 2010. High Tech Aluminas and Unfolding their Business Prospect.
Second Edition. Kolkata. India.
Lestari, L., Riwasa, R., Susilowati, EP., Sudiana, N.I., 2017. Evolusi Mikrostruktur
dari Keramik Paduan Silika (SiO2) dan Alumina (Al2O3). Jurnal Aplikasi
Fisika 13 (1): 1-6. Universitas Haluoleo. Kendari.
Universitas Sumatera Utara
51
Lovell, A., 2006. Glass Bead Deterioration of Ethnographic Objects: Identification,
Prevention, and Treatment. [Thesis]. California: John F.Kennedy University,
Master of Arts.
Panjaitan, RR., 2010. Kajian Penggunaan Bentonit dalam Industri. Berita Litbang
Industri 45 (3): 22-28.
Raharjo, J., Rahayu, S., Mustika, T., 2015. Pengaruh Tingkat Kemurnian Bahan
Baku Alumina Terhadap Temperatur Sintering dan Karakteristik Keramik
Alumina. Prosiding Seminar Nasional Teknik Kimia; Yogyakarta, 18 Maret
2015. Tangerang Selatan: Pusat Teknologi Material. Hal 1-7.
Randal, M.N., 1991. Fundamental of Sintering, Engineered Material Handbook.
USA, ASM International Handbook Committee, Vol. 4, Hal : 260-270.
Rasin, AF., Hamad, AE., 2012. Effect of Adding MgO & Al2O3 on Ceramic Body
Prepared from Iraqi Activated Bentonite. British Journal of Science 7 (2): 5663. Department of physics. Al-Mustansiryia University. Iraq.
Reed, JS., 1995. Introduction to the Principles of Ceramic Processing. John Wiley
and Sons: 583-598.
Sebayang, P., Tetuko, PA., Khaerudini, SD., Muljadi, Ginting, M., 2007. Efek Aditif
3Al2O3.2SiO2 dan Suhu Sintering terhadap Krakteristik Keramik α- Al2O3.
Jurnal Fisika dan Aplikaisnya 3 (2): 1 - 6. LIPI. Tangerang.
Suherman, W., 1987. Buku Diktat: Pengetahuan Bahan. ITS. Surabaya.
Tuttle, OF., Bowen, NL., 1958. Origin of Granite in the Light of Experimental
Studies in the System NaAlSi3O8 - KAlSi3O8 - SiO2 - H2O. Geological
Society of America.
Warren, BE., 1969. X-ray Diffraction (Classic X-ray physics book). Addison-Wesley
Series in Metallurgy and Materials Engineering. General Publishing
Company.
Whittaker, D., 2008. Powder Metallurgy The Process and Its Products (Substantially
Revised). European Powder Metallurgy Association.
Universitas Sumatera Utara
DAFTAR PUSTAKA
Astuti, A., 1997. Pengetahuan Keramik. Cetakan Pertama. Universitas Gajah Mada
Press. Yogyakarta.
Aviantari, M., 2008. Pembuatan dan Penggunaan Bentonite-Zeolite untuk Pemisahan
Ion Cu2+ dalam Larutan. [Skripsi]. Bandung: ITB, Program Sarjana.
Barsoum, M., 2003. Fundamental of Ceramics. Mc-Graw-Hill International.
Bergeron, GC., Risbud, HS., 2000. Introduction to Phase Equilibria in Ceramics.
The American Ceramic Sosiety, Inc. Columbus Ohio.
Callister, WD., 1994. Materials Science and Engineering an Introduction. Third
Edition. John Wiley and Sons: 434-784.
Davidson, WM., Abramowitz, M. Optical Microscopy. National High Magnetic
Field Laboratory. The Florida State University. Florida.
Della, VP., Kuhn, I., Hotza, D., 2002. Rice Husk Ash an Alternate Source for Active
Silica Production. Materials Leters. Vol 57: 818-821.
Fahmi, H., 2015. Analisa Kekerasan dan Fracture Toughness Alumina Diperkuat
Serbuk Aluminium dan Tembaga. Jurnal Teknik Mesin 5 (1): 42-48. Padang.
Gernot, K., 1988. High-Tech Ceramics. Academic Press. Zurich: 100-118.
Husain, S., Haryanti, HN., Manik, NT., 2016. Pengaruh Suhu Sintering Terhadap
Sifat Mekanik Keramik Berbahan Lempung dan Abu Sekam Padi. Jurnal
Fisika FLUX 13 (1): 1-10. Universitas Lambung Mangkurat. Banjarmasin.
James, S., 1999. Principles, Methode, and Applications of Particle Size Analysis.
Cambridge University Press. Britania Raya.
Joelianingsih, 2004. Peningkatan Kualitas Genteng Keramik dengan Penambahan
Sekam Padi dan Daun Bambu. Makalah Pribadi Falsafah Sains : 1-9. Bogor.
Kopeliovich, D., 2010. High Tech Aluminas and Unfolding their Business Prospect.
Second Edition. Kolkata. India.
Lestari, L., Riwasa, R., Susilowati, EP., Sudiana, N.I., 2017. Evolusi Mikrostruktur
dari Keramik Paduan Silika (SiO2) dan Alumina (Al2O3). Jurnal Aplikasi
Fisika 13 (1): 1-6. Universitas Haluoleo. Kendari.
Universitas Sumatera Utara
51
Lovell, A., 2006. Glass Bead Deterioration of Ethnographic Objects: Identification,
Prevention, and Treatment. [Thesis]. California: John F.Kennedy University,
Master of Arts.
Panjaitan, RR., 2010. Kajian Penggunaan Bentonit dalam Industri. Berita Litbang
Industri 45 (3): 22-28.
Raharjo, J., Rahayu, S., Mustika, T., 2015. Pengaruh Tingkat Kemurnian Bahan
Baku Alumina Terhadap Temperatur Sintering dan Karakteristik Keramik
Alumina. Prosiding Seminar Nasional Teknik Kimia; Yogyakarta, 18 Maret
2015. Tangerang Selatan: Pusat Teknologi Material. Hal 1-7.
Randal, M.N., 1991. Fundamental of Sintering, Engineered Material Handbook.
USA, ASM International Handbook Committee, Vol. 4, Hal : 260-270.
Rasin, AF., Hamad, AE., 2012. Effect of Adding MgO & Al2O3 on Ceramic Body
Prepared from Iraqi Activated Bentonite. British Journal of Science 7 (2): 5663. Department of physics. Al-Mustansiryia University. Iraq.
Reed, JS., 1995. Introduction to the Principles of Ceramic Processing. John Wiley
and Sons: 583-598.
Sebayang, P., Tetuko, PA., Khaerudini, SD., Muljadi, Ginting, M., 2007. Efek Aditif
3Al2O3.2SiO2 dan Suhu Sintering terhadap Krakteristik Keramik α- Al2O3.
Jurnal Fisika dan Aplikaisnya 3 (2): 1 - 6. LIPI. Tangerang.
Suherman, W., 1987. Buku Diktat: Pengetahuan Bahan. ITS. Surabaya.
Tuttle, OF., Bowen, NL., 1958. Origin of Granite in the Light of Experimental
Studies in the System NaAlSi3O8 - KAlSi3O8 - SiO2 - H2O. Geological
Society of America.
Warren, BE., 1969. X-ray Diffraction (Classic X-ray physics book). Addison-Wesley
Series in Metallurgy and Materials Engineering. General Publishing
Company.
Whittaker, D., 2008. Powder Metallurgy The Process and Its Products (Substantially
Revised). European Powder Metallurgy Association.
Universitas Sumatera Utara