Pembuatan Dan Karakterisasi Semi Interpenetrating Polymer Network (IPN) Dari Lateks Pekat Karet Alam - Tepung Ampas Tahu
DAFTAR PUSTAKA
Ahmed, K., Nizami, S. S and Riza, N. Z. 2014. Reinforcement of Natural Rubber
Hibrid Composite Base on Marble Sludge/ Silica and Marble Slude/ Rice
Husk Derived Silica. Journal of Advanced Reseach : 165-173
Andriyanti, W., Wisjachudin D and Faisal. 2010. Kajian Metode Vulkanisasi Lateks
Karet Alam Bebas Nitrosamin dan Protein Alergen. Pusat Teknologi
Akselerator dan Proses Bahan – BATAN, Yogyakarta. Prosiding PPI –
PDIPTN.
Arvind Mafatlal Grup. Vulcanization & Accelerators.
Azahari, B. 2000. Natural Rubber. Science and Technology. Monthly Lecture Series.
Banerjee, S., Ray, S., Maiti, S., Sen, K., Bhattacaryya, U., Khaity, S and Ghosh, A.
2010. Interpenetrating Polymer Network (Ipn): A Novel Biomaterial. India.
International Journal Of Applied Pharmaceutics Vol 2.
Cherian, E and Jayachandran, K. 2009. Microbial Degradation of Natural Rubber
Latex by a novel Species of Bacillus sp. SBS25 isolated from Soil. Autumn.
ISSN: 1735-6865. Int. J. Environ. Res., 3(4) : 599-604.
Cowd, M A. 1991. Kimia Polimer. Bandung. ITB
Dave,V,. Hasmukh, S and Patel. 2013. Synthetis and characterization of
interpenetrating polymer network from transesterified castor oil based
polyuretane and polystirene. India. Journal of Saudi Chemical Society.
Datta, R.N. 2012. Rapra Review Reports: Rubber Curing Systems. Volume 12,
Number 12. ISBN 1-85957-326-6
Deman, J.M. 1989. Principles of food chemistry. Van Nostrand Reinhold, A Division
of Wadsworth, Inc. Canada.
Halimatuddahliana. 2007. Modifikasi Bahan Elastomer Termoplastik PP/Karet Alam
(PP/NR) Dengan Proses Pemvulkanisasian Dinamik. Journal Elastomers and
Plastic. (1 ): 38-42.
Hannam, P.H. 1973. An Introduction To Latex Dipping. Natural Rubber Technology
Vol 4. P 2.
Universitas Sumatera Utara
Hatakeyam, T. 1998. Handbook of Thermal Analysis. New York: John Wiley & Sons.
Harahap, H., and Baharin, A. 2006. Effect of Diffusion of Curative on Tensile
Properties Natural Rubber Latex Films. 3rd Post Graduate Research Papers.
Malaysia.
Hernaman, I., Hidayat, R dan Mansyur. 2005. Pengaruh Penggunaan Molases dalam
Pembuatan Silase Campuran Ampas Tahu dan Pucuk Tebu Kering terhadap
Nilai pH dan Komposisi Zat-Zat Makanannya. Jurnal Ilmu Ternak, Volume 5
Nomor 2 : 94 – 99.
Idrus, S., Ismail H., Alaniandy, S., 2011. Study of the effect differrent shapes of
ultrafine silica as fillers in natural rubber compounds. Polymer testing 30 :
251-259.
Indian Rubber Institute. 1998. Rubber Engineering. Tata McGraw-Hill publishing
Cmpany Limited. New Delhi.
Ismail, H., Salleh, S.Z and Ahmad, Z. 2013. Properties of halloysite nanotubes-filled
natural rubber prepared usingdifferent mixing methods. School of Materials
and Mineral Resources Engineering, Engineering Campus, Universiti Sains
Malaysia, Nibong Tebal, Penang, Malaysia. Materials and Design 50 : 790–
797.
Jong, L. 2015. Influence of Protein Hydrolysis on The Mechanical Properties of
Natural Rubber Composites Reinforced with Soy Protein Particles.
Industrial Crops and Product : 102-109.
Kaswinarti, F. 2007. Kajian Teknis Pengolahan Limbah Ampas Padat dan Cair
Industri Tahu. Thesis Program Studi Ilmu Lingkungan. Universitas
Diponegoro.
Khongtong, S., and Fungchonlajit, N. 2008. Water Swollen Natural Rubber. Walailak
J Sci & Tech.. 5(1) : 67-75.
Lawson, D. 2001. Introduction to Fourier trnasform Infrared Spectroscopy. USA:
Thermonicolet.
Li-chun, M., Zhang, Y and Cho, R. 2014. Mechanical thermal and friction properties
of rice bran carbon/nitrile rubber composite: influence of particle size and
loading. Materials and design 63 : 565-574.
Universitas Sumatera Utara
Lipatov, Y. 1995. Polymer Reinforcement. ChemTec publishing. Canada.
Li, Y., Han. B., Wen, S., Lu, Y., Zang, L and Liu, L. 2014. Effect of the temperature
on surface modification of silicaa and properties of modified silica filled
rubber composites. Beijing University of Chemical technology, Beijing
100029, PR Chine. Composite: Part A 62 : 52-59.
Mark, E. J., Burak, E and Frederick, R. E. 2005. The Science and Technology of
Rubber. 3rd Eddition. Elsevier Academic Press.
Mathew, L. 2015. A Study on the Mechanical Properties of Natural Rubber
Vulcanizates Using PrecipiBATed Silica and Treated Coir Pith as Filler.
Volume 5 ISSN - 2249-555X.
Munirah, M. 2007. Characterization And Treatments Of Pineapple Leaf Fibre
Thermoplastic Composite For Construction Application. Research VOT
75147. Universiti Tekhnologi Malaysia.
Morton, M. 1973. Rubber Technology. Van Nostrand Reinold. 41. Company.
Nabil, H., Ismail, H and Azura. A.R. 2013. Optimisation of accelerators and
vulcanising systems on thermal stability of natural rubber/recycled ethylene–
propylene–dienemonomer blends. Materials and Design 53 : 651–661.
Nabil, H., Ismail, H and Azura. A.R. 2013. Compounding, mechanical and
morhologicak properties of carbon black- carbon filled natural
rubber/recycle ethylene- proyilene- diene- monomer (NR/R-EPDM) blends.
Polymer Testing 32 : 385-393.
Odian, G. 2004. Principles of Polimerization. Fourth Edition. John Wiley and Sons,
Inc. Canada.
Peng, F., Guan, Y., Zhang, B., Bian, J., Ren, J., Yao, C and Sun, R. 2014. Synthesis
and properties of hemicelluloses-based semi-IPN hydrogels. International
Journal of Biological Macromolecules 65 : 564–572
Publications, Unep. 2005. Ammonium Persulfate, Potassium Persulfate, Sodium
Persulfate As Members Of The Persulfate Category. Sids Initial Assessment
Report.
Universitas Sumatera Utara
Putri, E. 2015. Peningkatan Sifat Mekanik Lembaran Nanokomposit Berbasis Lateks
Pekat Karet Alam (Hevea Brasiliensis) Yang Diperkuatoleh Nanokristal
Selulosa dari Tandan Kosong Kelapa Sawit (Elaeis Guineensis Jack)
Dengan Teknik Pencelupan. Universitas Sumatera Utara. Thesis.
Puslitkaret. 2013. Warta Perkaretan. 31-(2): 103-107
Rabek, J.F. 1975. Role Of Singlet Oxigen And Photooxidative Degradation And
Photostabilisation Of Polymer. Polymer Eng And Sci. Vol 15,1.
Rini. 1992. Karet : Strategi Pemasaran Tahun 2000 Budidaya dan Pengolahannya.
Jakarta : Penebar Swadaya.
Riyajan, S,. Intharit, I and Tangboriboonrat, P. 2012. Physical properties of polymer
composite: natural rubber glove waste/polystyrene foam waste/cellulose.
Industrial Cropss and Product 36 : 376-382
Riyajan, S,. Sasithornsonti, Y., Phinyocheep, P. 2012. Green Natural Rubber-GModified Starch For Controlling Urea Release. Carbohydrate Polymers. 89 :
251-258.
Rong, L.T. 2011. Manufacture of Cellulose Nanocrystals by cation exchange ResinCatalyxzed Hydrolisis of Cellulose. Bioresource technology. 102 : 1097310977.
Saijun, D,. Nakason, C. Kaesaman, A., Klinpituksa P.2009. Water Absorption And
Mechanical Properties Of Water-Swellable Natural Rubber. Thailand.
Songklanakarin J. Sci. Technol. 31 (5) : 561-565.
Senja, R.Y., Issusilaningtyas, E., Nugroho, A.K and Setyowati, E.P. 2014.
Perbandingan Metode Ekstraksi dan Variasi Pelarut Terhadap Rendemen dan
Aktivitas Antioksidan Ekstrak Kubis Ungu (Brassica oleracea L. var.
capitata f. rubra). Trad. Med. J., Vol. 19(1), p 43-48 ISSN : 1410-5918.
Setiawan, D.H. 2005. Petunjuk Lengkap Budidaya Karet. Jakarta: Agromedia
Pustaka.
Setyamidjaja, D. 1993. Karet. Yogyakarta. Kanisius.
Shivashankar, M. 2012. A Review On Interpenetrating Polymer Network. India.
International Journal Of Pharmacy And Pharmaceutical Sciences, Vol 4,
Suppl 5.
Universitas Sumatera Utara
Silverio, H. A. 2012. Extraction and Characterization of Cellulose Nanocrystals from
Corncob for Application as Reinforcing Agen in Nanocomposites.
Homepage: Industrial Crops and Products. 6376:1-10.
Sousa, F and Scuracchio, C. 2015. The Role of Carbon Black on Devulcanization of
Natural Rubber by Microwaves. Materials Research. 18(4): 791-797
Steven, M.P. 2001. Kimia Polimer. Cetakan Pertama. Jakarta: Pradnya Paramita
Sulistiani. 2004. Pemanfaatan Ampas Tahu dalam Pembuatan Bubur Tinggi Serat
dan Protein sebagai aAlternatif Bahan Baku Pangan Fungsional. Skripsi,
Jurusan Gizi Masyarakat dan Sumberdaya Keluarga. Bogor. Institus
Pertanian Bogor.
Sulistyawati, E. 2010. Polimerisasi Akrilamida Dengan Metode, Mixed Solvent
PreciiBATion Menggunakan Ini Siator Kalium Persulfat. Univenitas
Pembangunan Nasional Veteran. VolumeX , Nomor 1.
Suprapti, L. 2005. Pembuatan Tahu. Edisi Teknologi Pengolahan Pangan.
Tanan. W and Sayant, S. 2014. Microwave Asisted Synthesis of Poly (Acrylamide-co2-Hydroxyethyl Methacrylate/ Poly(Vinil Alcohol) Semi-IPN Hydrogel.
Thailand. Energy Procedia : 286-393.
Tan, Q., Wang, F., Guo, H., Yang, Y., Du, Y., Liang, J and Zhang, F. 2015. Effect of
coupling agent on surface free energy of organic midified attapulgite (OAT)
powders and tensile strength of OAT/ethylene-propylene-diene monomer
rubber nanocomposites. Powder Technology 270 : 92-97.
Thakare, P., Chaudhary, M. D And Pokale, W. K. 2013. Growth Of Soybean Plant
(Glycine Max) In Soya Waste Blended Soil. Chemical Science Transactions.
456 ISSN/E-ISSN: 2278-3458/2278-3318
Thakur S.A., Nemade, S.N and Sharanappa, A. 2015. Solid State Fermentation of
Overheated Soybean Meal (Waste) For Production of Protease Using
Aspergillus Oryzae. International Journal of Innovative Research in Science,
Engineering and Technology (An ISO 3297 Certified Organization).
Vudjung, C., Chaisuwan, U., Pangan, U dan Chaipungdee, N. 2014. Effect Of Natural
Rubber Contents On Biodegradation And Water Absorption Of
Interpenetrating Polymer Network (Ipn) Hydrogel From Natural Rubber
And Cassava Starch. Thailand. Energy Procedia 56 : 255 – 263
Universitas Sumatera Utara
Watcharakul, S., Umsakul, K., Hodgson B., Chumeka. W and Tanrattanakul, V.
2012. Biodegradation of a blended starch/natural rubber foam biopolymer
and rubber gloves by Streptomyces coelicolor CH13. Electronic Journal of
Biotechnology ISSN: 0717-3458.
Wirjosentono, B. 1995. Analisis Dan Karakterisasi Polimer. Medan: Usu Press.
Yustina, I and Rakhmat, A. 2012. Potensi Bubur Dari Ampas Industri Pengolahan
Kedelai Sebagai Bahan Pangan. Seminar Nasional Kedaulatan Pangan Dan
Energi.
Zhao, J., Dehrabi, N., Han, W., Huang, L and Tang, Y. 2015. Electrospun multi-scale
hybrid nanofiber/net with enhanced water swelling ability in rubber
composites. Materials and Design 86 : 14–21.
Universitas Sumatera Utara
Ahmed, K., Nizami, S. S and Riza, N. Z. 2014. Reinforcement of Natural Rubber
Hibrid Composite Base on Marble Sludge/ Silica and Marble Slude/ Rice
Husk Derived Silica. Journal of Advanced Reseach : 165-173
Andriyanti, W., Wisjachudin D and Faisal. 2010. Kajian Metode Vulkanisasi Lateks
Karet Alam Bebas Nitrosamin dan Protein Alergen. Pusat Teknologi
Akselerator dan Proses Bahan – BATAN, Yogyakarta. Prosiding PPI –
PDIPTN.
Arvind Mafatlal Grup. Vulcanization & Accelerators.
Azahari, B. 2000. Natural Rubber. Science and Technology. Monthly Lecture Series.
Banerjee, S., Ray, S., Maiti, S., Sen, K., Bhattacaryya, U., Khaity, S and Ghosh, A.
2010. Interpenetrating Polymer Network (Ipn): A Novel Biomaterial. India.
International Journal Of Applied Pharmaceutics Vol 2.
Cherian, E and Jayachandran, K. 2009. Microbial Degradation of Natural Rubber
Latex by a novel Species of Bacillus sp. SBS25 isolated from Soil. Autumn.
ISSN: 1735-6865. Int. J. Environ. Res., 3(4) : 599-604.
Cowd, M A. 1991. Kimia Polimer. Bandung. ITB
Dave,V,. Hasmukh, S and Patel. 2013. Synthetis and characterization of
interpenetrating polymer network from transesterified castor oil based
polyuretane and polystirene. India. Journal of Saudi Chemical Society.
Datta, R.N. 2012. Rapra Review Reports: Rubber Curing Systems. Volume 12,
Number 12. ISBN 1-85957-326-6
Deman, J.M. 1989. Principles of food chemistry. Van Nostrand Reinhold, A Division
of Wadsworth, Inc. Canada.
Halimatuddahliana. 2007. Modifikasi Bahan Elastomer Termoplastik PP/Karet Alam
(PP/NR) Dengan Proses Pemvulkanisasian Dinamik. Journal Elastomers and
Plastic. (1 ): 38-42.
Hannam, P.H. 1973. An Introduction To Latex Dipping. Natural Rubber Technology
Vol 4. P 2.
Universitas Sumatera Utara
Hatakeyam, T. 1998. Handbook of Thermal Analysis. New York: John Wiley & Sons.
Harahap, H., and Baharin, A. 2006. Effect of Diffusion of Curative on Tensile
Properties Natural Rubber Latex Films. 3rd Post Graduate Research Papers.
Malaysia.
Hernaman, I., Hidayat, R dan Mansyur. 2005. Pengaruh Penggunaan Molases dalam
Pembuatan Silase Campuran Ampas Tahu dan Pucuk Tebu Kering terhadap
Nilai pH dan Komposisi Zat-Zat Makanannya. Jurnal Ilmu Ternak, Volume 5
Nomor 2 : 94 – 99.
Idrus, S., Ismail H., Alaniandy, S., 2011. Study of the effect differrent shapes of
ultrafine silica as fillers in natural rubber compounds. Polymer testing 30 :
251-259.
Indian Rubber Institute. 1998. Rubber Engineering. Tata McGraw-Hill publishing
Cmpany Limited. New Delhi.
Ismail, H., Salleh, S.Z and Ahmad, Z. 2013. Properties of halloysite nanotubes-filled
natural rubber prepared usingdifferent mixing methods. School of Materials
and Mineral Resources Engineering, Engineering Campus, Universiti Sains
Malaysia, Nibong Tebal, Penang, Malaysia. Materials and Design 50 : 790–
797.
Jong, L. 2015. Influence of Protein Hydrolysis on The Mechanical Properties of
Natural Rubber Composites Reinforced with Soy Protein Particles.
Industrial Crops and Product : 102-109.
Kaswinarti, F. 2007. Kajian Teknis Pengolahan Limbah Ampas Padat dan Cair
Industri Tahu. Thesis Program Studi Ilmu Lingkungan. Universitas
Diponegoro.
Khongtong, S., and Fungchonlajit, N. 2008. Water Swollen Natural Rubber. Walailak
J Sci & Tech.. 5(1) : 67-75.
Lawson, D. 2001. Introduction to Fourier trnasform Infrared Spectroscopy. USA:
Thermonicolet.
Li-chun, M., Zhang, Y and Cho, R. 2014. Mechanical thermal and friction properties
of rice bran carbon/nitrile rubber composite: influence of particle size and
loading. Materials and design 63 : 565-574.
Universitas Sumatera Utara
Lipatov, Y. 1995. Polymer Reinforcement. ChemTec publishing. Canada.
Li, Y., Han. B., Wen, S., Lu, Y., Zang, L and Liu, L. 2014. Effect of the temperature
on surface modification of silicaa and properties of modified silica filled
rubber composites. Beijing University of Chemical technology, Beijing
100029, PR Chine. Composite: Part A 62 : 52-59.
Mark, E. J., Burak, E and Frederick, R. E. 2005. The Science and Technology of
Rubber. 3rd Eddition. Elsevier Academic Press.
Mathew, L. 2015. A Study on the Mechanical Properties of Natural Rubber
Vulcanizates Using PrecipiBATed Silica and Treated Coir Pith as Filler.
Volume 5 ISSN - 2249-555X.
Munirah, M. 2007. Characterization And Treatments Of Pineapple Leaf Fibre
Thermoplastic Composite For Construction Application. Research VOT
75147. Universiti Tekhnologi Malaysia.
Morton, M. 1973. Rubber Technology. Van Nostrand Reinold. 41. Company.
Nabil, H., Ismail, H and Azura. A.R. 2013. Optimisation of accelerators and
vulcanising systems on thermal stability of natural rubber/recycled ethylene–
propylene–dienemonomer blends. Materials and Design 53 : 651–661.
Nabil, H., Ismail, H and Azura. A.R. 2013. Compounding, mechanical and
morhologicak properties of carbon black- carbon filled natural
rubber/recycle ethylene- proyilene- diene- monomer (NR/R-EPDM) blends.
Polymer Testing 32 : 385-393.
Odian, G. 2004. Principles of Polimerization. Fourth Edition. John Wiley and Sons,
Inc. Canada.
Peng, F., Guan, Y., Zhang, B., Bian, J., Ren, J., Yao, C and Sun, R. 2014. Synthesis
and properties of hemicelluloses-based semi-IPN hydrogels. International
Journal of Biological Macromolecules 65 : 564–572
Publications, Unep. 2005. Ammonium Persulfate, Potassium Persulfate, Sodium
Persulfate As Members Of The Persulfate Category. Sids Initial Assessment
Report.
Universitas Sumatera Utara
Putri, E. 2015. Peningkatan Sifat Mekanik Lembaran Nanokomposit Berbasis Lateks
Pekat Karet Alam (Hevea Brasiliensis) Yang Diperkuatoleh Nanokristal
Selulosa dari Tandan Kosong Kelapa Sawit (Elaeis Guineensis Jack)
Dengan Teknik Pencelupan. Universitas Sumatera Utara. Thesis.
Puslitkaret. 2013. Warta Perkaretan. 31-(2): 103-107
Rabek, J.F. 1975. Role Of Singlet Oxigen And Photooxidative Degradation And
Photostabilisation Of Polymer. Polymer Eng And Sci. Vol 15,1.
Rini. 1992. Karet : Strategi Pemasaran Tahun 2000 Budidaya dan Pengolahannya.
Jakarta : Penebar Swadaya.
Riyajan, S,. Intharit, I and Tangboriboonrat, P. 2012. Physical properties of polymer
composite: natural rubber glove waste/polystyrene foam waste/cellulose.
Industrial Cropss and Product 36 : 376-382
Riyajan, S,. Sasithornsonti, Y., Phinyocheep, P. 2012. Green Natural Rubber-GModified Starch For Controlling Urea Release. Carbohydrate Polymers. 89 :
251-258.
Rong, L.T. 2011. Manufacture of Cellulose Nanocrystals by cation exchange ResinCatalyxzed Hydrolisis of Cellulose. Bioresource technology. 102 : 1097310977.
Saijun, D,. Nakason, C. Kaesaman, A., Klinpituksa P.2009. Water Absorption And
Mechanical Properties Of Water-Swellable Natural Rubber. Thailand.
Songklanakarin J. Sci. Technol. 31 (5) : 561-565.
Senja, R.Y., Issusilaningtyas, E., Nugroho, A.K and Setyowati, E.P. 2014.
Perbandingan Metode Ekstraksi dan Variasi Pelarut Terhadap Rendemen dan
Aktivitas Antioksidan Ekstrak Kubis Ungu (Brassica oleracea L. var.
capitata f. rubra). Trad. Med. J., Vol. 19(1), p 43-48 ISSN : 1410-5918.
Setiawan, D.H. 2005. Petunjuk Lengkap Budidaya Karet. Jakarta: Agromedia
Pustaka.
Setyamidjaja, D. 1993. Karet. Yogyakarta. Kanisius.
Shivashankar, M. 2012. A Review On Interpenetrating Polymer Network. India.
International Journal Of Pharmacy And Pharmaceutical Sciences, Vol 4,
Suppl 5.
Universitas Sumatera Utara
Silverio, H. A. 2012. Extraction and Characterization of Cellulose Nanocrystals from
Corncob for Application as Reinforcing Agen in Nanocomposites.
Homepage: Industrial Crops and Products. 6376:1-10.
Sousa, F and Scuracchio, C. 2015. The Role of Carbon Black on Devulcanization of
Natural Rubber by Microwaves. Materials Research. 18(4): 791-797
Steven, M.P. 2001. Kimia Polimer. Cetakan Pertama. Jakarta: Pradnya Paramita
Sulistiani. 2004. Pemanfaatan Ampas Tahu dalam Pembuatan Bubur Tinggi Serat
dan Protein sebagai aAlternatif Bahan Baku Pangan Fungsional. Skripsi,
Jurusan Gizi Masyarakat dan Sumberdaya Keluarga. Bogor. Institus
Pertanian Bogor.
Sulistyawati, E. 2010. Polimerisasi Akrilamida Dengan Metode, Mixed Solvent
PreciiBATion Menggunakan Ini Siator Kalium Persulfat. Univenitas
Pembangunan Nasional Veteran. VolumeX , Nomor 1.
Suprapti, L. 2005. Pembuatan Tahu. Edisi Teknologi Pengolahan Pangan.
Tanan. W and Sayant, S. 2014. Microwave Asisted Synthesis of Poly (Acrylamide-co2-Hydroxyethyl Methacrylate/ Poly(Vinil Alcohol) Semi-IPN Hydrogel.
Thailand. Energy Procedia : 286-393.
Tan, Q., Wang, F., Guo, H., Yang, Y., Du, Y., Liang, J and Zhang, F. 2015. Effect of
coupling agent on surface free energy of organic midified attapulgite (OAT)
powders and tensile strength of OAT/ethylene-propylene-diene monomer
rubber nanocomposites. Powder Technology 270 : 92-97.
Thakare, P., Chaudhary, M. D And Pokale, W. K. 2013. Growth Of Soybean Plant
(Glycine Max) In Soya Waste Blended Soil. Chemical Science Transactions.
456 ISSN/E-ISSN: 2278-3458/2278-3318
Thakur S.A., Nemade, S.N and Sharanappa, A. 2015. Solid State Fermentation of
Overheated Soybean Meal (Waste) For Production of Protease Using
Aspergillus Oryzae. International Journal of Innovative Research in Science,
Engineering and Technology (An ISO 3297 Certified Organization).
Vudjung, C., Chaisuwan, U., Pangan, U dan Chaipungdee, N. 2014. Effect Of Natural
Rubber Contents On Biodegradation And Water Absorption Of
Interpenetrating Polymer Network (Ipn) Hydrogel From Natural Rubber
And Cassava Starch. Thailand. Energy Procedia 56 : 255 – 263
Universitas Sumatera Utara
Watcharakul, S., Umsakul, K., Hodgson B., Chumeka. W and Tanrattanakul, V.
2012. Biodegradation of a blended starch/natural rubber foam biopolymer
and rubber gloves by Streptomyces coelicolor CH13. Electronic Journal of
Biotechnology ISSN: 0717-3458.
Wirjosentono, B. 1995. Analisis Dan Karakterisasi Polimer. Medan: Usu Press.
Yustina, I and Rakhmat, A. 2012. Potensi Bubur Dari Ampas Industri Pengolahan
Kedelai Sebagai Bahan Pangan. Seminar Nasional Kedaulatan Pangan Dan
Energi.
Zhao, J., Dehrabi, N., Han, W., Huang, L and Tang, Y. 2015. Electrospun multi-scale
hybrid nanofiber/net with enhanced water swelling ability in rubber
composites. Materials and Design 86 : 14–21.
Universitas Sumatera Utara