Jurnal Dinamika Penelitian Industri

A study of the manufacture of natural latex liquid compound as a coating material on the manufacture of hard interlining fabric by varying the fineness of kaolin 100 mesh, 250 mesh and 400 mesh as a filler material plus other chemicals. The purpose of this research is to get the right natural liquid latex compound formula as a coating material in the manufacture of interlining fabrics that have specifications in accordance with the SNI 0894-2008 Standard of Hard Cloth (Interlining). Interlining fabrics are fabrics used to coat certain parts of clothing such as collars, waist, buttons, sleeves, shoulders and other parts that require high stiffness and a stable shape to enhance the appearance of clothing. The study was conducted by varying the fineness of the kaolin filler in 3 treatments each 100 mesh, 250 mesh and 400 mesh and varying the amount of kaolin filler in 4 treatments each 90 g, 180 g, 270 g and 360 g. The parameters tested were fabric rigidity, adhesive power, tensile strength, elongation and tear strength of fabric. Increased fineness of a kaolin filler from 100 mesh to 400 mesh in latex compound as a coating material, the fabric rigidity, adhesion, tensile strength, elongation and tear strength of the fabric tend to increase. Whereas the increasing amount of kaolin filler usage from 90 g to 270 g as a coating material can increase the fabric rag, but the subsequent addition decreases fabric rigidity. Conversely, the weight gain of fillers from 90 g to 360 g decreases the adhesiveness, tensile strength, elongation and tear strength of the fabric. The best results and fulfill the requirements of SNI 0894-2008 were obtained on formula IX using a 90 g kaolin filler and kaolin 400 mesh fineness with fabric stiffness value of 86.2 mg.cm, adhesion 1,8 kg / cm, tensile strength 40,59 kg for direction of warp and 31,43 kg for feed direction, 41.64% for luran direction and 36,63% for feed direction, tear strength 7,12 kg for warp and 6,53 kg for feed direction.

Abednego, (1998), Bahan Kimia Penyusun kompon, Bogor, Balai Penelitian Teknologi Karet.

Ahmed, K, Nizami, SS, Raza, NZ, and Mahmood, K, (2012), Mechanical, swelling and thermal aging properties of marble sludge natural rubber composite, International Journal of Industrial Chemistry, 3 (1) : 1-12

Al-Mosawi, AI., Ali, MM. Dan Mohammad,JH., (2008), Experimental approach to mechanical properties of natural rubber mixing with calcium carbonate powder, International Journal of physical Sciences, 49 (7), 6280-6292.

Arun, K, J, Francis & Joseph R (2010), Mechanical properties of NR latex, nano silica, composites, material rapid communication, OAM-RC:4,1520-1525

Barney, JA, (2003), Natural Rubber Production, di dalam Lecture de Notes, Bogor, Balai Penelitian Perkebunan

Blackley, DC (2011), High Polymer Latice, New York, Maclaren and sons Ltd

Chuayjuljit. S, Imvittaya and Nuchanat (2012), Effects of Particle Size and Amount of Carbon Black and Calcium Carbonate on Curing Characteristics and Dynamic Mechanical.Properties of Natural Rubber. Journal of Methal Material and Mineral. 12(1): 51-57.

Dewantara, D, (2015), Kaolin Sebagai Bahan Pengisi Pada Pembuatan Kompon Karet Pengaruh Ukuran Dan Jumlah Terhadap Sifat Mekanik Fisik, Jurnal Dinamika Penelitian Industri, 26 (1) : 41-48

Ellul, MD dan DR Hazelton (1998),Chemical Surface Treatments of Natural Rubber and EPDM Thermoplastic Elastomer : Effect on Friction and Adhession Rubber Chem. Technol. RT Vanderbilt Company Inc, Ohio.

Eqwaikhide, EE. Akporhonor dan F.E. Okieimen (2008), “The Characterization of Carbonised Coconut Fibre as Fillers in Natural Rubber Formulation” Trends Applied Research.

http://www.disperindagJabar.go.id/diakses 17/10/2008

Fachry, R, Tuti, S, Boby, A dan Dwi AK, (2012), Pengaruh penambahan filler kaolin terhadap elastisitas dan kekerasan produk souvenir dari karet alam, Pekanbaru, Dalam Seminar Nasional Teknologi Oleo dan Petrokimia Indonesia, Pekanbaru, Universitas.

Fang, Q., Song, B., Tee, T., Sin, L. T., Hui, D., & Bee, S. (2014). Investigation of dynamic characteristics of nano-size calcium carbonate added in natural rubber vulcanizate. Composites: Part B, 60, 561-567

Herminiwati dan Arum Y (2010), Penggunaan PCC Sebagai Filler Untuk Sol Karet Sepatu Olahraga, Majalah Kulit Karet Plastik, Vol. (26)1: 25-32

Indiah, RD dan Hemirniwati, (2014), Lateks Karet Alam untuk Sol Sepatu Metode Pembuatan, sifat mekanik dan Morfologi. Majalah Kulit, Karet dan Plastik, Vol. 30 (2): 61-70

Jeong, SH., JH, Kim and CJ, Hong (2013), Selecting Optimal Interlining with a Neutral network, Textile Research Journal, 70 (11) PP 1005-1010)

Luftinor, (2017), Penggunaan lateks alam cair untuk pembuatan kain interlining, Jurnal Dinamika penelitian Industri, 28 (2) : 76-86

Maged S. Sobhy, D.E. Nashar, E.L. and Nabila (2008), Cure Characteristics and Physicomechanical.Properties of Calcium Carbonate Reinforcement Rubber Composites, Journal of Egypt. J. Sol, 26 (2) : 241-257.

Mishra, S and Shimpi NG (2005), Mechanical and flame retarding properties of styrene –butadiene rubber filled with nano CaCO3 as a filler and linseed oil as an extender, Jurnal of Apple Polimer Sci 98 (6) 2563-2571

Morton, M, (2008), Introduction of Rubber Technologi, New York, Reinhold Publishing Corporation

Mustafa, NS (2012), Effect of Kaolin on the Mechanicsal Properties of Polypropilena Composite Material, Diayala Journal of Engeneering Sciencis, Vol. 05 (02) : 162-178

Nuraya, ASS, Baharin, A, Azura, AR, dan Hakim, MH (2012), Reinforcement of prevulcanised natural rubber latex film by bananastem powder and comparison with silica and calcium carbonat, Jurnal of Rubber Research, 15 (2): 124-140

Polmanteer, KE and Lentz, C. W., (2008) Effect of Silica Structure on Properties and Crosslink Density, Rubber Chem Technol, 20 (5) :795-809.

Poompradub, S., Luthikaviboon, T., Linpoo, S., Rojanathanes, R., & Prasassarakich, P. (2011). Improving oxidation stability and mechanical properties of natural rubber vulcanizates filled with calcium carbonate modified by gallic acid. Polymer Bulletin, 66 (7), 965-977.

Ridla, B., Trisye, U dan Indra, PS., (2008), Kaolin Sebagai Sumber SiO2 Untuk Pembuatan Katalis Ni/SiO2, Makara Sains, Vol. 12 (1), 37-43

Richard, S (2009), Latex Technology, London, John Willey and Sons Inc

Sasidharan, KK, Joseph, R, Palaty, S and Pillai, PV (2007), Effect of vulcanization time and storage on the stability and physical properties of sulfur prevulcanized natural rubber latex, Journal of Applied Polimer science, 97 (1): 1804-1812

Sitorus, IMS, Yudha, W dan Indra, S, (2013), Pengaruh Penambahan Alkalonamida Terhadap Karakteristik Pematangan dan kekerasan Vulkanisat karet alam Berpengisi Kaolin, Jurnal Teknik Kimia USU, 4(1): 38-46

William JH, (2008), “Pyrolysis of Latex Glove in the Presence of Y-Zeolite”, Journal ofwaste management 29 (4) : 797-803.

Stagg, R (2007), Latex Technology. John Wiley and Sons Inc.

Sulam, A.L, (2008), Teknologi Pembuatan Benang dan Kain, Jakarta, Departemen Pendidikan Nasional,

Suparman, Surdia, NM dan Budiarti, (2009), Teknologi Penyempurnaan Tekstil, Bandung, Institut Teknologi Tekstil,

William JH, (2008), “Pyrolysis of Latex Glove in the Presence of Y-Zeolite”, Journal ofwaste management 29 (4) : 797-803.

Yudha, W,. Sitorus, IMS, Indra S, (2013), Pengaruh penambahan alkalonamida terhadap sifat uji Tarik vulkanisat karet alam berpengisi kaolin, Jurnal Teknik Kimia USU, Vol. 2, No. 4.