DAFTAR PUSTAKA Pengaruh Penambahan Serat Ampas Tebu (Saccharum Officinarum L.) Terhadap Kekuatan Tekan Resin Komposit Nanofil.
DAFTAR PUSTAKA
Agunsoye, J.O., dan Aigbodion, V.S., 2013. Bagasse Filled Recycled
Polyethylene Bio-Composites : Morphological And Mechanical Properties
Study, Results And Physic, 3(1): 187-194.
Andriyanti, R., Suyanti, dan Ngasifudin., 2012. Pembuatan dan Karakterisasi
Polimer Superabsorben dari Ampas Tebu, Prosiding Pertemuan dan
Presentasi Ilmiah Teknologi Akselerator dan Aplikasinya , 13(1): 1-7.
Anusavice, K.J. 2004, Phillips: Buku Ajar Ilmu Bahan Kedokteran Gigi. Edisi:
10. Jakarta: EGC. 40-43, 51, 227-232, 237-243.
Arhun, N., Celik, C., dan Yamanel, K., 2010. Clinical Evaluation Of Resin-Based
Composites In Postreior Restorations: Two-Year Results, Operative
Dentistry, 35(4): 397-404.
Bernardinelli, O.D., Lima, M.A., Rezende, C.A., Polikarpov, I., dan Deazevedo,
E.R. 2015. Quantitative 13C MultiCP Solid-State NMR As A Tool For
Evaluation Of Cellulose Crystallinity Index Measured Directly Inside
Sugarcane Biomass, Biotechnol Biofuels, 8(1): 1-11.
Christy, C.F., Tensing, D., dan Shanti, R.M., 2013. Experimental Study On
Axial Compressive Strength And Elastic Modulus Of The Clay And Fly
Ash Brick Masonry, J Civ. Eng. Constr. Technol., 4(4): 134-141.
Hambire, U.V., dan Tripathi, V.K., 2012. Experimental Evaluation Of Different
Fillers In Dental Composites In Terms Of Mechanical Properties, ARPN
J of Eng. Appl. Sci., 7(2): 147-151.
Hamouda, I.M., dan Elkader, H.A., 2012. Evaluation The Mechanical Properties
Of Nanofilled Composite Resin Restorative Material, Journal Of
Biomaterials And Nanobiotechnology, 3: 238-242.
Hegde, M.N., Hegde, P., Bhandary, S., dan Deepika, K., 2011. An Evaluation Of
Compressive Strength Of Newer Nanocomposite : An in vitro Study,
J of Conserv. Dent., 12(1): 36-39.
Hermiati, E., Mangunwidjaja, D., Sunarti, T.C., Suparno, O., dan Prasetya, B.,
2010. Pemanfaatan Biomassa Lignoselulosa Ampas Tebu Untuk
Produksi B ioetanol, Jurnal Litbang Pertanian, 29(4): 121-130.
Indrawanto, C., purwono, siswanto, syakir, M., dan Rumini, W., 2010. Budidaya
dan Pasca Panen Tebu, Bogor: ESKA Media.
53
ISO 10477., 2004. Dentistry-Polymer-Base Crown And Bridge Material 2 nd ed.
International Organization for Standarization, Geneva, Zwitzerland.
Jayanthi, N., dan Vinod, V., 2013. Comparative Evaluation Of Compressive
Strength And Flexural Strength Of Conventional Core Materials With
Nanohybrid Composite Resin Core Material An In Vitro Study, J Indian
Prosthodont Soc, 13(3): 281-289.
Karbhari, V.M., Strassler, H., 2007. Effect Of Fiber Architecture On Flexural
Characteristic And Fracture Of Fiber-Reinforced Dental Composite, Dent
Mater , 23(8): 960-968.
Maiwita, F., Darvina, Y., dan Yulkifli. 2014. Pengaruh Variasi Komposisi Ampas
Tebu Dan Serbuk Gergaji Pada Papan Partikel Terhadap Konduktivitas
Termal, PILLAR PHYSICS, 1(1): 41-48.
McCabe, J.F., dan Walls, A.W.G. 2014. Bahan Kedokteran Gigi (Applied Dental
Materials). Edisi: 9. Jakarta: EGC.
Mitra, S.B., Wu, D., dan Holmes, B.N., 2003, An Application Nanotechnology
In Advanced Dental Materials, J Am Dent Assoc, 134(1): 1382-1390.
Mozartha, M., Herda, E., dan Soufyan, A., 2010. Pemilihan Resin Komposit Dan
Fiber Untuk Meningkatkan Kekuatan Fleksural Fiber Reinforced
Composite (FRC), Jurnal PDGI, 59(1): 29-34.
Mulyatno, I.P., dan Jokosisworo, S., 2008. Analisa Teknis Penggunaan Serat
Kulit Rotan Sebagai Penguat Pada Komposit Polimer Dengan Matriks
Polyester Yukalac 157 Ditinjau Dari Kekuatan Tarik Dan Kekuatan
Tekuk, Kapal, 5(3): 173-180.
Murthy, H.B.M., Shaik, S., Sachdeva, H., Khare, S., Haralur, S.B., dan Roopa,
K.T., 2015. Effect Of Reinforcement Using Stainless Steel Mesh, Glass
Fibers, And Polyethylene on the Impact Strength of Heat Cure Denture
Base Resin-An In Vitro Study, Journal of International Oral Health, 7(6):
71-79.
Natarajan, P., dan C. Thulasingam, 2013. The Effect Of Glass And Polyethylene
Fiber Reinforcement on Flexural Strength of Provisional Restorativeresin:
An In Vitro Study, J Indian Prosthodont Soc, 13(4): 421-427.
Oladele, I.O., 2014. Effect Of Bagasse Fibre Reinforcement On The Mechanical
Properties Of Polyester Composites, The Journal Of The Association Of
Professional Engineers Of Trinidad And Tobago, 42(1): 12-15.
Ozak, S.T., dan Pelin Ozak, 2013. Nanotechnology And Dentistry, European
Journal Of Dentistry, 7: 145-151.
54
Purnawan, C., Hilmiyana, D., Wantini., dan Fatmawati, E., 2012. Pemanfaatan
Limbah Ampas Tebu Untuk Pembuatan Kertas Dekorasi Dengan Metode
Organosolv, Jurnal EKOSAINS, 4(2): 1-6.
Power, J.M., dan Wataha, J.C., 2008. Dental Materials Properties and
Manipulation. Ninth Edition. India: Elsevier.
Rahmad, D., 2012. Karakteristik Morfologi Pertumbuhan Beberapa Varietas
Tebu, Jurnal Ilmiah Budidaya Dan Pengelolaan Tanaman Perkebunan
Agroplantae, 1(2): 126-131.
Rahman, M.B.N., dan Kamiel, B.P. 2011. Pengaruh Fraksi Volume Serat
Terhadap Sifat -Sifat Tarik Komposit Diperkuat Unidirectional Serat Tebu
Dengan Matrik Poliester, Jurnal Ilmiah Semesta Teknika , 14(2): 133 -138.
Rokhman, H., Taryono, dan Supriyanta, 2014. Jumlah Anakan dan Rendemen
Enam Klon Tebu (Saccharum officinarum L.) Asal Bibit Bagal, Mata Ruas
Tunggal, Dan Mata Tunas Tunggal, Vegetalika , 3(3): 89-96
Rosa, R.S., Balbinot, C.E.A., Blando, E., Mota, E.G., Oshima, H.M.S.,
Hirakata, L., Pires, L.A.G., dan Hubler, R., 2012. Evaluation Of
Mechanical Properties On Three Nanofilled Composites, Stomatologija,
Baltic Dental And Maxillofacial Journal, 14(4): 126-130.
Sakaguchi, R.L., dan Powers, J.M., 2012. Craig’s Restorative Dental Materials.
Thirtheenth Edition. USA: Elsevier Mosby.
Shabiri, A.N., Ritonga, R.S., Ginting, M.H.S., 2014. Pengaruh Rasio
Epoksi/Ampas Tebu Dan Perlakuan Alkali Pada Ampas Tebu Terhadap
Kekuatan Bentur Komposit Partikel Epoksi Berpengisi Serat Ampas Tebu,
Jurnal Teknik Kimia USU, 3(3): 28-31.
Sonwane, S.R., dan Hambire, U.V., 2015. Comparison Of Flexural &
Compressive Strength Of Nano Hybrid Composites, International Journal
Of Engineering Trends And Applications, 12(2): 47-52.
Strassler, H.E., 2008. Clinical Material Review : Fiber-Reinforcing Materials for
Dental Resins, Inside Dentistry.
Tewari, M., Singh, V.K., Gope, P.C., Chaudhary, A.K., 2012. Evaluation Of
Mechanical Properties Of Bagasse-Glass Fiber Reinforced Composite, J.
Mater. Environ. Sci., 3(1): 171-184.
Verma, D., Gope, P.C., Maheshwari, M.K., dan Sharma, R.K., 2012. Bagasse
Fiber Composites-A Review, J. Mater. Environ. Sci., 3(6): 1079-1092
Wang, L., Alpino, P.H.P., Lopes, L.G., dan Pereira, J.C., 2003. Mechanical
Properties Of Dental Restorative Materials: Relative Contribution Of
Laboratory Tests, J Appl Oral Sci, 11(3): 162-7.
55
Widyapramana, Widjijono, dan Sunarintyas, S., 2013. Pengaruh Kombinasi Posisi
Fiber Terhadap Kekuatan Fleksural Dan Ketangguhan Retak Fiber
Reinforced Composite Polyethylene, IDJ , 2(2): 1-8.
Yuanisa, A., Ulum, K., dan Wardani, A.K., 2015. Pretreatment Lignoselulosa
Batang Kelapa Sawit Sebagai Langkah Awal Pembuatan Bioetanol
Generasi Kedua : Kajian Pustaka, Jurnal Pangan dan Agroindustri, 3(4):
1620-1626.
56
Agunsoye, J.O., dan Aigbodion, V.S., 2013. Bagasse Filled Recycled
Polyethylene Bio-Composites : Morphological And Mechanical Properties
Study, Results And Physic, 3(1): 187-194.
Andriyanti, R., Suyanti, dan Ngasifudin., 2012. Pembuatan dan Karakterisasi
Polimer Superabsorben dari Ampas Tebu, Prosiding Pertemuan dan
Presentasi Ilmiah Teknologi Akselerator dan Aplikasinya , 13(1): 1-7.
Anusavice, K.J. 2004, Phillips: Buku Ajar Ilmu Bahan Kedokteran Gigi. Edisi:
10. Jakarta: EGC. 40-43, 51, 227-232, 237-243.
Arhun, N., Celik, C., dan Yamanel, K., 2010. Clinical Evaluation Of Resin-Based
Composites In Postreior Restorations: Two-Year Results, Operative
Dentistry, 35(4): 397-404.
Bernardinelli, O.D., Lima, M.A., Rezende, C.A., Polikarpov, I., dan Deazevedo,
E.R. 2015. Quantitative 13C MultiCP Solid-State NMR As A Tool For
Evaluation Of Cellulose Crystallinity Index Measured Directly Inside
Sugarcane Biomass, Biotechnol Biofuels, 8(1): 1-11.
Christy, C.F., Tensing, D., dan Shanti, R.M., 2013. Experimental Study On
Axial Compressive Strength And Elastic Modulus Of The Clay And Fly
Ash Brick Masonry, J Civ. Eng. Constr. Technol., 4(4): 134-141.
Hambire, U.V., dan Tripathi, V.K., 2012. Experimental Evaluation Of Different
Fillers In Dental Composites In Terms Of Mechanical Properties, ARPN
J of Eng. Appl. Sci., 7(2): 147-151.
Hamouda, I.M., dan Elkader, H.A., 2012. Evaluation The Mechanical Properties
Of Nanofilled Composite Resin Restorative Material, Journal Of
Biomaterials And Nanobiotechnology, 3: 238-242.
Hegde, M.N., Hegde, P., Bhandary, S., dan Deepika, K., 2011. An Evaluation Of
Compressive Strength Of Newer Nanocomposite : An in vitro Study,
J of Conserv. Dent., 12(1): 36-39.
Hermiati, E., Mangunwidjaja, D., Sunarti, T.C., Suparno, O., dan Prasetya, B.,
2010. Pemanfaatan Biomassa Lignoselulosa Ampas Tebu Untuk
Produksi B ioetanol, Jurnal Litbang Pertanian, 29(4): 121-130.
Indrawanto, C., purwono, siswanto, syakir, M., dan Rumini, W., 2010. Budidaya
dan Pasca Panen Tebu, Bogor: ESKA Media.
53
ISO 10477., 2004. Dentistry-Polymer-Base Crown And Bridge Material 2 nd ed.
International Organization for Standarization, Geneva, Zwitzerland.
Jayanthi, N., dan Vinod, V., 2013. Comparative Evaluation Of Compressive
Strength And Flexural Strength Of Conventional Core Materials With
Nanohybrid Composite Resin Core Material An In Vitro Study, J Indian
Prosthodont Soc, 13(3): 281-289.
Karbhari, V.M., Strassler, H., 2007. Effect Of Fiber Architecture On Flexural
Characteristic And Fracture Of Fiber-Reinforced Dental Composite, Dent
Mater , 23(8): 960-968.
Maiwita, F., Darvina, Y., dan Yulkifli. 2014. Pengaruh Variasi Komposisi Ampas
Tebu Dan Serbuk Gergaji Pada Papan Partikel Terhadap Konduktivitas
Termal, PILLAR PHYSICS, 1(1): 41-48.
McCabe, J.F., dan Walls, A.W.G. 2014. Bahan Kedokteran Gigi (Applied Dental
Materials). Edisi: 9. Jakarta: EGC.
Mitra, S.B., Wu, D., dan Holmes, B.N., 2003, An Application Nanotechnology
In Advanced Dental Materials, J Am Dent Assoc, 134(1): 1382-1390.
Mozartha, M., Herda, E., dan Soufyan, A., 2010. Pemilihan Resin Komposit Dan
Fiber Untuk Meningkatkan Kekuatan Fleksural Fiber Reinforced
Composite (FRC), Jurnal PDGI, 59(1): 29-34.
Mulyatno, I.P., dan Jokosisworo, S., 2008. Analisa Teknis Penggunaan Serat
Kulit Rotan Sebagai Penguat Pada Komposit Polimer Dengan Matriks
Polyester Yukalac 157 Ditinjau Dari Kekuatan Tarik Dan Kekuatan
Tekuk, Kapal, 5(3): 173-180.
Murthy, H.B.M., Shaik, S., Sachdeva, H., Khare, S., Haralur, S.B., dan Roopa,
K.T., 2015. Effect Of Reinforcement Using Stainless Steel Mesh, Glass
Fibers, And Polyethylene on the Impact Strength of Heat Cure Denture
Base Resin-An In Vitro Study, Journal of International Oral Health, 7(6):
71-79.
Natarajan, P., dan C. Thulasingam, 2013. The Effect Of Glass And Polyethylene
Fiber Reinforcement on Flexural Strength of Provisional Restorativeresin:
An In Vitro Study, J Indian Prosthodont Soc, 13(4): 421-427.
Oladele, I.O., 2014. Effect Of Bagasse Fibre Reinforcement On The Mechanical
Properties Of Polyester Composites, The Journal Of The Association Of
Professional Engineers Of Trinidad And Tobago, 42(1): 12-15.
Ozak, S.T., dan Pelin Ozak, 2013. Nanotechnology And Dentistry, European
Journal Of Dentistry, 7: 145-151.
54
Purnawan, C., Hilmiyana, D., Wantini., dan Fatmawati, E., 2012. Pemanfaatan
Limbah Ampas Tebu Untuk Pembuatan Kertas Dekorasi Dengan Metode
Organosolv, Jurnal EKOSAINS, 4(2): 1-6.
Power, J.M., dan Wataha, J.C., 2008. Dental Materials Properties and
Manipulation. Ninth Edition. India: Elsevier.
Rahmad, D., 2012. Karakteristik Morfologi Pertumbuhan Beberapa Varietas
Tebu, Jurnal Ilmiah Budidaya Dan Pengelolaan Tanaman Perkebunan
Agroplantae, 1(2): 126-131.
Rahman, M.B.N., dan Kamiel, B.P. 2011. Pengaruh Fraksi Volume Serat
Terhadap Sifat -Sifat Tarik Komposit Diperkuat Unidirectional Serat Tebu
Dengan Matrik Poliester, Jurnal Ilmiah Semesta Teknika , 14(2): 133 -138.
Rokhman, H., Taryono, dan Supriyanta, 2014. Jumlah Anakan dan Rendemen
Enam Klon Tebu (Saccharum officinarum L.) Asal Bibit Bagal, Mata Ruas
Tunggal, Dan Mata Tunas Tunggal, Vegetalika , 3(3): 89-96
Rosa, R.S., Balbinot, C.E.A., Blando, E., Mota, E.G., Oshima, H.M.S.,
Hirakata, L., Pires, L.A.G., dan Hubler, R., 2012. Evaluation Of
Mechanical Properties On Three Nanofilled Composites, Stomatologija,
Baltic Dental And Maxillofacial Journal, 14(4): 126-130.
Sakaguchi, R.L., dan Powers, J.M., 2012. Craig’s Restorative Dental Materials.
Thirtheenth Edition. USA: Elsevier Mosby.
Shabiri, A.N., Ritonga, R.S., Ginting, M.H.S., 2014. Pengaruh Rasio
Epoksi/Ampas Tebu Dan Perlakuan Alkali Pada Ampas Tebu Terhadap
Kekuatan Bentur Komposit Partikel Epoksi Berpengisi Serat Ampas Tebu,
Jurnal Teknik Kimia USU, 3(3): 28-31.
Sonwane, S.R., dan Hambire, U.V., 2015. Comparison Of Flexural &
Compressive Strength Of Nano Hybrid Composites, International Journal
Of Engineering Trends And Applications, 12(2): 47-52.
Strassler, H.E., 2008. Clinical Material Review : Fiber-Reinforcing Materials for
Dental Resins, Inside Dentistry.
Tewari, M., Singh, V.K., Gope, P.C., Chaudhary, A.K., 2012. Evaluation Of
Mechanical Properties Of Bagasse-Glass Fiber Reinforced Composite, J.
Mater. Environ. Sci., 3(1): 171-184.
Verma, D., Gope, P.C., Maheshwari, M.K., dan Sharma, R.K., 2012. Bagasse
Fiber Composites-A Review, J. Mater. Environ. Sci., 3(6): 1079-1092
Wang, L., Alpino, P.H.P., Lopes, L.G., dan Pereira, J.C., 2003. Mechanical
Properties Of Dental Restorative Materials: Relative Contribution Of
Laboratory Tests, J Appl Oral Sci, 11(3): 162-7.
55
Widyapramana, Widjijono, dan Sunarintyas, S., 2013. Pengaruh Kombinasi Posisi
Fiber Terhadap Kekuatan Fleksural Dan Ketangguhan Retak Fiber
Reinforced Composite Polyethylene, IDJ , 2(2): 1-8.
Yuanisa, A., Ulum, K., dan Wardani, A.K., 2015. Pretreatment Lignoselulosa
Batang Kelapa Sawit Sebagai Langkah Awal Pembuatan Bioetanol
Generasi Kedua : Kajian Pustaka, Jurnal Pangan dan Agroindustri, 3(4):
1620-1626.
56