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INDONESIA
Jurnal Ilmiah Arena Tekstil
Published by Kementerian Perindustrian Republik Indonesia
ISSN : 05184010     EISSN : 25487264     DOI : -
Core Subject : Engineering,
Industrial & Manufacturing Engineering
Jurnal ini memuat artikel dalam bidang tekstil yang meliputi teknik, kimia, material, desain serta konservasi energi dan lingkungan. Jurnal ini mempublikasikan artikel hasil penelitian orisinal yang menyampaikan informasi baru pada bidang tekstil, hasil penelitian teknis yang menggambarkan suatu pengembangan, kemajuan teknis, dan inovasi dalam manufaktur dan processing, teknik laboran dengan data eksperimental yang cukup yang mengilustrasikan kegunaan suatu metoda atau peralatan tertentu, atau artikel tinjauan ilmiah (review) yang mengupas secara kritis suatu topik pada bidang tekstil yang cukup penting. Topik bahasan tidak bersifat umum, tetapi berupa suatu aspek yang dibahas secara mendalam.
Arjuna Subject : -
Articles 6 Documents
 1 
Search results for , issue "Vol 33, No 1 (2018)" : 6 Documents clear
PEMANFAATAN LIMBAH SERAT KAPAS DARI INDUSTRI PEMINTALAN UNTUK FELT DAN PAPAN SERAT Eva Novarini
Arena Tekstil Vol 33, No 1 (2018)
Publisher : Balai Besar Tekstil

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (778.193 KB) | DOI: 10.31266/at.v33i1.4030

Abstract

Cotton is widely used for clothing material, because it is able to absorb sweat/water, so comfortable to wear. But the product is still an export comodity and waste that occurs after spinning into yarn is about (4 - 5)%. Much of the waste still contains short fibers, potentially as composite reinforcement; and the rest are dirt, dust, soil and others. Therefore, in the framework of handling and utilization of such waste, in order to produce an added value product, then a research was conducted to make biocomposites using that waste. The purpose is to get a biocomposite with a cotton fiber waste of felt (a nonwoven product) with a low melt polyester matrix and manufactured wood in the form of a fiber board with an epoxy resin matrix that can meet applicable standards. From the test results, it is known that the felt can absorb sound up to 78% at the reference frequency of 5000 Hz (meets minimum standards for sound absorbing coefficient, based on ISO 11654: 1997), so it can be used as a sound absorber material (for building/automotive) and can also be used as raw material for automotive textile (door trim, dashboard or head lining).  In addition, the fiber board also has performance that meets the standard (SNI 01-4449-2006) and can reflect sound ≥ 90%, so it can be used as a sound reflector interior panel
BINDER EFFECTIVENESS ON COTTON FABRIC FINISHING WITH MICROCAPSULES USING PADDING agus surya mulyawan; tatang wahyudi
Arena Tekstil Vol 33, No 1 (2018)
Publisher : Balai Besar Tekstil

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (582.782 KB) | DOI: 10.31266/at.v33i1.3900

Abstract

One of the processes to improve the function of cotton fabric is microcapsule finishing. Microcapsules are expected to have adequate resistance to surface of cotton fabric. However, since microcapsule shell has no chemical bond with cotton fabric, a binder is used for example polyacrylic and polyurethane. The aim of this research is to study the effectiveness of polyacrylic and polyurethane binder in cotton fabric microcapsule finishing using padding technique. The cotton fabric is immersed in a solution of microcapsules and binder for (5-10) minutes at room temperature, press with 90% Wet Pick Up (WPU), dried at 100 ° C for 60 seconds then followed by a temperature of 110 ° C for 120 seconds. The cotton finishing fabric of microcapsule observed from its surface with Scanning Electron Microscope (SEM), tested its washing fastness with Launder-O-meter, its tensile strength with tensile tester, and its stiffeness with stiffeness tester. Particle size of microcapsules analyzed with Particle Size Analyzer (PSA), and shell of microcapsule with Fourier Transform Infra Red (FTIR). Results showed that the microcapsule size of 1.14 μm with melamine formaldehyde shell, the use of polyacrylate and polyurethane binder could maintain the microcapsules in the fabric up to ten times, increase the tensile strength and stiffness of cotton fabric.
STUDI DAYA SERAP WARNA SERAT TANDAN PISANG DENGAN PEMBANDING SERAT ABAKA DAN SERAT SABUT KELAPA Christmastuti Nur
Arena Tekstil Vol 33, No 1 (2018)
Publisher : Balai Besar Tekstil

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (775.373 KB) | DOI: 10.31266/at.v33i1.3711

Abstract

Exploration of banana peduncle waste is an attempt to search new product material alternatives. The purpose of this research is to reveal the character of banana peduncle fiber especially in its ability to absorb the color compared to abaca fiber and coir fiber. The color intensity test was conducted by calculating the luminance or the intensity of light which was reflected back by the surface area of the fiber. The result of this research was the bleached banana peduncle fiber generates more vivid and brighter color than the unbleached banana peduncle fiber. The unbleached one was similar to abaca fiber especially in absorbing red color (ratio = 1.00) and blue color (ratio = 1.01), however, it was lower than abaca fiber in absorbing green color (ratio = 0.98) and yellow color (ratio = 0.92). Thus, the unbleached banana peduncle fiber can be used effectively to perform color gradation of red and blue. Comparing to coir fiber, the absorption of banana peduncle fiber toward red, green, blue, and yellow color was higher. This research can be applied in coloring process of product material because it can accelerate production process and save production cost.
OPTIMASI KONDISI LARUTAN DAN PARAMETER PROSES PEMINTALAN ELEKTRIK PADA SINTESIS SERAT NANO KITOSAN-PEO Rizka Yulina; Wiwin Winiati; Irene Bonadies; Paola Laurienzo; Giovanni Dal Poggetto
Arena Tekstil Vol 33, No 1 (2018)
Publisher : Balai Besar Tekstil

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (803.581 KB) | DOI: 10.31266/at.v33i1.3537

Abstract

Serat nano kitosan telah berhasil dibuat dengan penambahan polietilen oksida (PEO) sebagai polimer sekunder pada kondisi larutan dan parameter proses pemintalan elektrik yang optimum. Pada penelitian ini, larutan polimer kitosan/PEO pada berbagai konsentrasi (3,2, 3,6, dan 4 wt%) dan rasio (3:2 dan 1:1) dipintal secara elektrik (electrospinning) untuk memperoleh serat dengan morfologi paling baik. Selain kondisi larutan, parameter proses pintal elektrik yang penting seperti tegangan, laju alir umpan, dan jarak antara jarum dengan kolektor juga disesuaikan untuk mendapatkan proses dengan kondisi jet polimer yang stabil. Serat nano yang terbaik yakni tanpa butiran polimer (polymer microspheres) dan minim jumlah manik-manik (beads) berhasil diperoleh pada konsentrasi kitosan/PEO 4 wt% dan rasio 3:2. Parameter proses yang digunakan untuk mendapatkan serat ini yaitu tegangan 30 kV, laju alir umpan 0,3 ml/jam, dan jarak antara jarum dan kolektor 30 cm. Karakterisasi morfologi serat dari setiap eksperimen dilakukan dengan menggunakan mikroskop Phenom. Selanjutnya, serat nano terbaik yang diperoleh dikarakterisasi dengan menggunakan SEM dan diameter rata-rata serat diukur dengan aplikasi ImageJ. Hasil menunjukkan bahwa serat nano yang dihasilkan pada kondisi optimum memiliki diameter rata-rata 68 nm dan distribusi ukuran diameter serat tersebar cukup lebar mulai dari 30-150 nm. 
PENGEMBANGAN ATBM (ALAT TENUN BUKAN MESIN) MENGGUNAKAN SISTEM DOBBY ELEKTRONIK Rizal Fahruroji
Arena Tekstil Vol 33, No 1 (2018)
Publisher : Balai Besar Tekstil

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (411.164 KB) | DOI: 10.31266/at.v33i1.3324

Abstract

ABSTRAKPembuatan ATBM dobby elektronik telah dilakukan dengan menyusun perangkat dobby elektronik dan mendesain rangka ATBM yang disesuaikan dengan perangkat dobby. Penelitian meliputi pembuatan desain ATBM, menyusun perangkat dobby elektronik, pembuatan software desain, pembuatan sistem kontrol dobby elektronik, persiapan pertenunan, dan pengujian ATBM (proses tenun). Hasil pengujian ATBM dobby elektronik dibandingkan dengan ATBM dobby mekanik dalam hal pembuatan kain tenun menunjukkan bahwa ATBM dobby elektronik unggul dalam hal pembuatan desain, mekanisasi proses tenun (pembukaan mulut lusi, peluncuran benang pakan, penguluran benang lusi dan penggulungan kain), dan kemudahan operasional tenun berkat penerapan teknologi elektronik.Kata kunci : pertenunan, ATBM, sistem dobby, software desain, sistem kontrol elektronik ABSTRACTThe manufacture of handloom electronic dobby has been done by arranging the electronic dobby device and designing handloom which is adjusted to dobby device. The research includes designing of ATBM frame, arranging the electronic dobby device, making the design software, the manufacture of electronic dobby control system, weaving preparation, and handloom testing (weaving process). handloom dobby electronic test results compared to handloom dobby mechanics in terms of fabrics manufacture shows that handloom dobby electronics excel in terms of making design, mechanization of weaving process (shedding,picking, let-off, take up), and ease of operation of weaving thanks to the application of electronic technology. Keywords : weaving, handloom, dobby system, software design, electronic control system
Preface Arena Tekstil Vol 33 No 1 2018 Author BBT
Arena Tekstil Vol 33, No 1 (2018)
Publisher : Balai Besar Tekstil

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (116.852 KB) | DOI: 10.31266/at.v33i1.5487

Abstract

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