-
79
DAFTAR PUSTAKA Abdullah, Mikrajuddin, Yudistira Virgus, Nirmin
dan Khairurrijal, (2008),
Review : Sintesis Nanomaterial, Jurnal Nanosains &
Nanoteknologi ISSN 1979-0880, Vol. 1, No.2.
Achilias, D.S, (2007), Chemical recycling of plastic waste made
from
polyethylene (LDPE and HDPE) and polypropylene (PP), Journal of
Hazardous Materials, Vol.149, hal. 536-542.
Adamson, A. W. (1990), Physical Chemistry of Surfaces, 5th
Edition, John Wiley
& Sons, Canada American Society for Testing Materials, ASTM,
(2003), Standard Specification
for Coal Fly Ash and Raw or Calcined Natural Pozzolan for Use as
a Mineral Admixture in Concrete, Designation C 618-03,
Philadelphia, PA, USA
Anam, Khoirul, (1999), Laju Korosi Aluminium Pada Kapal FPB 28
Dalam
Larutan NaCl dengan Metode Polarisasi, Jurusan Teknik
Perkapalan, Fakultas Teknologi Kelautan, ITS Surabaya.
Arkatkar, Ambika , J. Arutchelvi , Sumit Bhaduri , Parasu Veera
Uppara , Mukesh
Doble, (2009), Degradation of unpretreated and thermally
pretreated polypropylene by soil consortia, International
Biodeterioration & Biodegradation, Vol. 63, hal. 106111.
Atzeni, C, L. Massidda dan U. Sanna, (1990), Mechanical
Properties of Epoxy
Mortars with Fly Ash as Filler, Cement and Concrete Composite,
Vol. 12, hal. 3-8.
Awang, M dan Ismail,H.,(2008), Preparation and characterization
of
polypropylene/waste tyre dust blends with addition of DCP and
HVA-2 (PP/WTDP-HVA2), Polymer Testing, Vol. 27, hal. 321 -329.
Bakharev, T., (2005), Resistance of geopolymer materials to acid
attack ,
Cement and Concrete Research, Vol. 35, hal. 658-670. Bienias,
J., Walczak, M., Surowska, B.dan Sobczak, J.,(2003),
Microstructure
and Corrosion Behavior of Aluminium Fly Ash Composite, Journal
of Optoelectronics and Advanced Materials,Vol. 5, hal. 493-502.
Billmeyer, Fred, (1984), Textbook of Polymer Science, John Wiley
& Sons Inc,
Singapura. Bose, Suryasarathi dan P.A. Mahanar, (2004), Effect
of Fly Ash on the
Mechanical, Thermal, Dielectric, Reological and
Morphological
-
80
Properties of Filled Nylon 6, Journal of Minerals &
Materials Characterization & Engineering, Vol. 3, No. 2, hal.
65-72.
Bumrongjaroen, Walairat, Isabelle Muller, Jeffrey Schweltzer dan
Richard A.
Livingston, (2007), Application of glass corrotion tests to the
reactivity of fly ash, World of Coal Ash (WOCA), Covington,
Kentucky,USA.
Bundjati, Bunbun, Surdia, N.M. dan Liang, Oei Ban, (2004),
Konstruksi
Diagram Potensial-pH untuk Baja Karbon dalam Buffer Asetat
secara Potensiodinamik Eksperimental, Jurnal Matematika dan Sains,
Vol. 9 No. 4, hal. 307-312.
Callister, Jr., William D, (1994), Materials Science And
Engineering, An
Introduction, third edition, John Wiley & Sons, Inc, New
York , USA. Comrie, D.C., dan W.M. Kriven, (2004), Composite Cold
Ceramic Geopolymer
in a Refractory Application, America. Dai Lam, Tran, Vinh Hoang,
Tran, Tuan Quang, Duong dan Seung Kim, Jong,
(2009), Effect of nanosize and surface-modified precipitated
calcium carbonate on properties of CaCO3/polypropylene
nanocomposite, Materials Science and Engineering A, Vol. 501, hal.
87-93.
Demir, H., Balkose, D., Ulku, S., (2006), Influence of Surface
Modification of
Fillers and Polymer on Flammability and Tensile Behavior of
Polypropylene-Composite, Polymer Degradation and Stability, Vol.
91, hal. 1079-1085.
Demjen, Zoltan, Bela Pukanszky dan Jozsef Nagy Jr, (1999),
Possible coupling
reaction of functional silanes and polypropylene, Polymer, Vol.
40. hal. 1763-1773.
Fried, Jeol R., (1995), Polymer Science and Technology,
Prentice-Hall Inc. A
Simon & Schuster Company Upper Saddle River, New Jersey
07458. Feldman, Dorel dan Hartomo, Anton J., (1995), Bahan Polimer
Konstruksi
Bangunan, Penerbit PT. Gramedia Pustaka Utama, Jakarta. Gregg,
S. J. and Sing, K. S. W. (1982), Adsorption, Surface Area and
Porosity,
2nd edition, London: Academic Press Guo-Sheng Gai, Yang,Yu-Fen
dan Fan,Shi-Min, (2005),Preparation and
Properties of Composite Mineral Powders, Powder Technology,
Vol.153, hal. 153-158.
-
81
Ha-Da Bao, Zhao-Xia dan Jian Yu, (2008), Effect of electrically
inert particulate filler on electrical resistivity of
polymer/multi-walled carbon nanotube composites, Polymer, Vol. 49,
hal. 3826-3831.
Hashimoto, M., Hiroaki Takadema, Mineo M., dan Tadashi K.,
(2006),
Enhancement of mechanical strength of TiO2/HDPE Composites for
bone repair with silane-coupling agent, Materials Research
Bulletin, Vol. 41, hal. 515-524.
Hasyim, Al Chutub, (1998), Pengaruh Kecepatan Pengambilan Baja
Pada
Proses Pelapisan TiO2 SiO2 dengan Menggunakan Metode Sol-Gel
Terhadap Ketebalan Lapisan dan Laju Korosinya Dalam Media Asam
Sulfat, Jurusan Kimia, Fakultas Matematika dan Ilmu Pengetahuan
Alam, ITS Surabaya.
Hernandez, G.Montes, R. Perez-Lopez, F.Renard, J.M Nieto dan L.
Charlet,
(2009), Mineral sequestration of CO2 by aqueous carbonation of
coal combustion fly ash, Journal of Hazardous Materials, Vol. 161,
hal.1347-1354.
Huang, X., J. W. Hwang dan J. M. Gillis, (2003), Processed Low
NOx Fly Ash as
a Filler in Plastics, Journal of Minerals & Materials
Characterization & Engineering, Vol. 2, No.1, hal. 11-31.
Iijima, Motoyuki, Mayumi Tsukada, Hidehiro Kamiya, (2007),
Effect of Particle
Size on Surface Maodification of Silica Nanoparticles by Using
Silane Agents and Their Dispersion Stability in Methylethylketone,
Journal of Colloid and Interface Science, Vol. 37, hal.
418-424.
Jansson, Anna, Kenneth Moller dan Thomas Hjertberg, (2004),
Chemical
degradation of polypropylene material exposed to simulated
recycling, Polymer Degradation and Stability, Vol. 84, hal.
227-232.
Jones, Denny A., (1992), Principles and Prevention of Corrosion,
Macmillan
Publishing Company, a division of Macmillan,Inc., USA. Kim,
Bunjoo dan Prezzi, Monica, (2008), Compaction Characteristics
and
Corrosivity of Indiana Clas-F Fly and Bottom Ash Mixtures,
Contruction and Building Materials, Vol. 22, hal. 694-702.
Kroschwitz J.,(1990), Polymer Characterization and Analysis,
John Wiley and
Sons, Canada. Mahajan, S., (2003), Production of Functional
Fillers for Plastics, Intertech
Corp., Atlanta, G.A.
-
82
Mujiarto, Imam, (2005), Sifat dan Karakteristik Material Plastik
dan Bahan Aditif, Traksi, Vol.3, No.2.
Nakamoto, K., (1970), Infrared Spectra of Inorganic and
Coordination
Compounds, John Wiley & Sons, Inc., New York. Nimah, Yatim
Lailun, (2008), Karakterisasi dan Sintesis Film Plastik HDPE
Pengemas Herbisida Menggunakan Filler Abu Layang Kelas F, Tesis
Magister, Jurusan Kimia, Fakultas Matematika dan Ilmu Pengetahuan
Alam, Institut Teknologi Sepuluh Nopember, Surabaya.
Omya International AG, (2004), Physicochemical Aspects of
Mineral
Components for Plastics Processors, Review Technical Information
Plastics R1-02, Switzerland.
Pandey, Jitendra K., K. Raghunatha Reddy, A. Pratheep Kumar,
R.P. Singh,
(2005), An overview on the degradability of polymer
nanocomposites, Polymer Degradation and Stability, Vol. 88, hal.
234-250.
Pasaribu, Nuraida, (2004), Berbagai Ragam Pemanfaatan Polimer
,
Perpustakaan Digital Universitas Sumatra Utara (USU). Rizain,
(2008), Pelarutan Aluminium dan Silikon Berbagai Abu Layang
Batubara
dari Empat PLTU Menggunakan Variasi Konsentrasi NaOH
danTemperatur, Tesis, Program Magister FMIPA Institut Teknologi
Sepuluh Nopember, Surabaya.
Salmah, (2005), Pencirian dan Sifat-Sifat Komposit Polipropilen
(PP)/Etilena
Propilena Diena Monomer (EPDM) Terisi Sludge Kertas, Tesis,
University Sains Malaysia, Malaysia.
Salvador, M.D., (2003), Evaluation of Chemical Degradation of
Commercial
Polypropylene, Journal of Materials Processing Technology, Vol.
143-144, hal. 693-697.
Samsudin, Sani Amril, (2006), Chemical Resistance Evaluation
of
Polystyrene/Polypropylene Blends Effect of Blend Compositions
and SEBS Content, Malaysian Polymer Journal, Vol. 1, No.1 , hal.
11-24.
Sanadi, A.R., D. F. Caulfield, R. E. Jacobson, dan R. M. Rowell
(1994),
Reinforcing Polypropylene with Agricultural Fibers, Resume of
Paper, International Symposium on Biocomposites and Blends Based on
Jute and Allied Fibers, Calcuta, India.
Sarbak, Z. dan M.Kramer-Wachowiak, (2002), Porous structure of
waste fly ash
and their chemical modification, Powder Technology, Vol. 123,
hal. 53-58.
-
83
Setyawati, Dina, (2003), Komposit Serbuk Kayu Plastik Daur
Ulang: Teknologi Alternatif Pemanfaatan Limbah Kayu dan Plastik,
Makalah Falsafah Sains (PPS 702), Program Pascasarjana/ S3,
Institut Pertanian Bogor.
S. Horiuchi, M. Kawaguchi, K. Yasuhara, (2000), Effective use of
fly ash slurry
as fill material, Journal of Hazardous Materials, Vol. 76 (23),
hal. 301333.
Silverstein, Robert M., G. Clayton Bassler dan Terence C.
Morrill, (1986),
Penyelidikan Spektrometrik Senyawa Organik, edisi ke empat,
Penerbit Erlangga, Jakarta.
Sole, B.M. dan Ball, A., (1996), On The Abrasive Wear Behavior
of Mineral
Filled Polypropylene, Tribology International, Vol. 29, hal.
457-465. Surdia, Tata, Shinroku Saito, (1999), Pengetahuan Bahan
Teknik, cetakan
keempat, PT. Padnya Paramita, Jakarta. vab, Iztok, Musil, Vojko
dan Leskovac, Mirela, (2005), The Adhesion
Phenomena in Polypropylene/Wollastonite Composite, Acta Chim,
Slovenia, Vol. 52, hal. 264-271.
Trethewey, K.R. dan J. Chamberlain, (1991), Korosi Mahasiswa
dan
Rekayasawan, Gramedia, Jakarta. Van Deventer, J. S. J., Provis,
L. J., dan Lukey, G. C., (2007), Reaction
Mechanisms in the Geopolymeric Conversion of Inorganic Waste to
Useful Products, Journal of Hazardous Materials, Vol. A139, hal.
506-513.
www.downcorning.com/silane, 11 Oktober 2008. Xanthos, M.,
(1996), Plastics Processing, Kirk-Othmer Encyclopedia of
Chemical Technology, Edisi keempat. John Wiley & Sons, New
York. Yang Yu-Fen, Guo-Sheng, Gai, Zhen-Fang, Cai dan Qing-Ru,
Chen, (2006),
Surface modification of purified fly ash and application in
polymer, Journal of Hazardous Materials, Vol. B133, hal.
276-282.
Yusuf, Muhammad (2004), Studi Penggunaan Inhibitor 4-metil
imidazol pada
Korosi Baja 316 L Dalam Media HCl Dengan Variasi Konsentrasi,
Jurusan Kimia, Fakultas Matematika dan Ilmu Pengetahuan Alam, ITS
Surabaya.
-
84
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