Mengenal Serat Tekstil

Pos Buletin 09

Konten

Klasifikasi Serat
Serat Alami
Serat Buatan Manusia
Parameter Serat Tekstil
Serat Properties – Comparison

Pengantar

Tekstil memiliki hubungan yang penting pada kehidupan kita sehari-hari sehingga setiap orang harus mengetahui tentang dasar-dasar serat dan sifatnya.

Serat tekstil yang digunakan untuk berbagai macam aplikasi seperti penutup, penghangat, perhiasan pribadi dan bahkan untuk menampilkan kekayaan pribadi.

Teknologi tekstil telah jauh memenuhi kebutuhan ini. Pengetahuan dasar tentang serat tekstil akan memudahkan penilaian merek dan jenis serat dan membantu mengidentifikasi kualitas yang tepat untuk aplikasinya.

Buletin ini mencakup berbagai serat tekstil dan sifat-sifat yang penting untuk aplikasi tekstil yang sesuai.

Klasifikasi Serat

Secara luas, serat tekstil dapat diklasifikasikan ke dalam dua kategori:

Serat Alami
Serat Buatan Manusia

Serat Alami

Serat Alami are subdivided further, as outlined beRendah, by their origin.

Table beRendah when available.

Nama Serat	Sumber	Komposisi
Tumbuhan
Kapas	Kapas boll	Selulosa
Kapuk	Kapuk tree	Selulosa
Linen	Tangkai lenan	Selulosa
Goni	Goni stalk	Selulosa
Hemp	Hemp or Abaca	Selulosa
Rami	Rhea and China	Selulosa
Sisal	Daun agave	Selulosa
Sabut	Sabut kelapa	Selulosa
Pina	Daun nanas	Selulosa
Hewan
Wol	Domba	Protein
Sutra	Sutraworms	Protein
Bulu	Bulu bearing Hewans	Protein
Mineral
Asbes	Varities of rock	Silikat Magnesium dan Kalsium

Serat Buatan Manusia

Serat Buatan Manusia are subdivided as shown beRendah with their various Komposisis and origin.

Selulosa
Nama Serat	Sumber
Rayon	Kapas linters or wood
Asetat	Kapas linters or wood
Tri-Asetat	Kapas linters or wood
Non-Selulosa Polymers
Nilon	Poliamida alifatik
Aramid	Poliamid aromatik
Poliester	Alkohol dihidrat dan asam tereftalat
Akrilik	Akrilonitril
ModAkrilik	Akrilonitril
Spandeks	poliurethan
Olefin	Etilena atau propilena
Vinyon	Vinil klorida
Saran	Viniliden klorida
Novoloid	Navolac berbasis fenol
Polikarbonat	Karbonic acid (Poliester derivative)
fluorokarbon	tetrafluoroethilena
Protein
Azlon	Jagung, kedelai, dan sebagainya
Karet
Karet	Natural or synthetic Karet
Logamik
Logam	Aluminium, perak, emas, baja tak berkarat
Mineral
Kaca	Pasir silika, batu kapur, mineral lainnya
Keramik	Aluminium, silika
Grafit	Karbon

1. Serat Alami

Kapas

Kapas, the natural Serat most widely used in Pakaian, grows in a boll around the seeds of Kapas plants. A single Serat is an elongated cell that is a flat, twisted, holRendah, ribbon-like structure.

Kapas plant

karakteristik

Kekuatan cukup hingga baik
Elastisitas sangat rendah
Kurang tangguh dan rentan terhadap kerutan
Nyaman dan terasa lembut
Daya serap baik
Mengalirkan panas dengan baik
Bisa rusak karena serangga, jamur, lumut dan ngengat
Bisa melemah karena paparan sinar matahari dalam jangka waktu yang lama

Aplikasi

Banyak digunakan dalam sejumlah produk tekstil
Umum digunakan dalam pakaian tenun dan rajutan
Home textile – bath towels, bath robes, bed covers etc.
Used as a blend with other Serats as Rayon, Poliester, Spandeks etc.

Linen

Linen, one of the most expensive Serat Alami, is made from the Lenan plant. It is labour-intensive to produce, hence produced in small quantities. However Linen fabric is valued for its exceptional coolness and freshness in hot weather.

Cricket ball

It is composed of 70% Selulosa and 30% pectin, ash, woody tissue and moisture.

karakteristik

Strongest Tumbuhan Serat
Elastisitas buruk, sehingga mudah mengkerut
Relatif mulus, menjadi lebih lembut saat dicuci
Berdaya serap sangat tinggi
Konduktor panas yang baik dan terasa dingin
Berkilau
Lebih rapuh, kusut menetap dalam lipatan tajam, cenderung sobek
Bisa rusak karena jamur, keringat dan pemutih
Tahan terhadap ngengat dan kumbang karpet

Aplikasi

Pakaian – setelan, gaun, rok, kemeja dan sebagainya
Home and commercial furnishing items – table cloths, dish towels, bed sheets, wallpaper / wall coverings, window treatments etc.
Produk industri – tas koper, kanvas dan sebagainya
Used as blend with Kapas

Wol

Wol Serat grows from the skin of Domba and is a relatively coarse and Berkerut Serat with scales on its surface. It is composed of Protein. The Serat appearance varies depending on the breed of the Domba. Finer, softer and warmer Serats tend to be with more and smoother scales. Thicker, less warm Serats have fewer and rougher scales. Normally, the better Wol Serats with finer scales are duller in appearance than the Buruker quality Serats which have fewer scales.

Dyed new Wol

karakteristik

Tampak berkerut
Elastis
Higroskopis, mudah menyerap kelembaban
Ignites at a Tinggier temperature than Kapas
Tingkat penyebaran api, pelepasan panas dan panas pembakaran lebih rendah
Tahan terhadap listrik statis

Aplikasi

Clothing – jackets, suits, trousers, sweaters, hats etc.
Selimut, karpet, bulu kempa dan pelapis
Karpet kuda, kain pelana

Sutra

Sutra is a fine, continuous strand unwound from the cocoon of a moth caterpillar known as the Sutraworm. It is composed of Protein. It is very shiny due to the Struktur prisma seperti segitiga of the Sutra Serat, which alRendahs Sutra cloth to refract incoming light at different angles.

Sutra pilRendahs

karakteristik

Berkilau, smooth and soft texture and not slippery
Ringan, kuat, tetapi dapat kehilangan hingga 20% kekuatannya ketika basah
Elastisity is moderate to Buruk. If elongated, it remains stretched
Dapat melemah jika terkena terlalu banyak sinar matahari
Dapat dirusak oleh serangga, terutama jika dibiarkan kotor
Bisa mengembalikan hingga 11% kelembabannya

Aplikasi

Kemeja, dasi, blus, gaun formal, pakaian mode kelas atas
Pakaian dalam wanita, piyama, jubah, setelan pria dan baju musim panas
Many furnishing Aplikasi
Pelapis jok, penutup dinding, dan hiasan dinding

Other Serat Alami

Goni

Goni is taken from a tall plant of the same name and it is easy to cultivate and harvest. It is the cheapest Serat and is used in great quantities.

karakteristik

Goni tidak tahan lama karena cepat rusak bila terkena kelembaban
Kekuatan kurang
Tidak bisa diputihkan menjadi putih bersih karena kurangnya kekuatan

Aplikasi

Benang pengikat untuk karpet, kain kasar dan murah, kantong berat dan sebagainya

Kapuk

It is a Putih Bulu-like Serat obtained from the seed capsules of plants and trees called Ceiba Pentandra grown in Java and Sumatra (Indonesia), Mexico, Central America and the Caribbean, Northern South America and tropical West Africa.

It is called Sutra Kapas due to its Tinggi Kilauan which is equal to that of Sutra.

karakteristik

Tekstur halus
Very Berkilau
Lemah
Serat pendek
Tahan terhadap kelembaban, cepat kering bila basah

Aplikasi

Kasur, bantal, furnitur berlapis

Rami

A woody Serat resembling Lenan and it is also known as Rumput Rhea dan Cina. It is taken from a tall fRendahering plant.

Embroidered fabric and alcazar cones

karakteristik

Kaku
Lebih rapuh
Berkilau

Aplikasi

Kanvas, kain pelapis, pakaian, dan sebagainya

2. Serat Buatan Manusia

2.1. Man-made (Regenerated)

Selulosa

They are derived either from the Selulosa of the cell walls of short Kapas Serats that are called linters or, more frequently from pine wood. There are three types of man made Selulosa Serats: Rayon, Asetat and tri-Asetat.

Rayon

Rayon [link to Raylon] is made from naturally occurring polymers that simulate natural Selulosa Serats. It is neither a truly synthetic Serat nor a truly natural Serat.

There are two varieties of Rayon; viscose and Tinggi wet modulus (HWM). These in turn are produced in a number of types to provide certain specific properties.

karakteristik

Halus, lembut dan nyaman
Kilau alaminya tinggi
Berdaya serap sangat tinggi
Daya tahan dan retensi bentuk rendah, terutama ketika basah
Rendah Elastis recovery
Normally Lemah, but HWM Rayon is much stronger, Tahan lama and has Baik appearance retention.

Aplikasi

Pakaian – blus, gaun, jaket, pakaian, pelapis, setelan, dasi untuk leher dan sebagainya
Barang-barang perabotan – penutup tempat tidur, seprai, selimut, dekorasi jendela, pelapis jok dan sebagainya
Penggunaan industri misalnya produk operasi medis, produk bukan tenun, kawat ban dan sebagainya
Kegunaan lain – produk kesehatan wanita, popok, handuk dan sebagainya

Asetat

Asetat consists of a Selulosa compound identified as acetylated Selulosa – a Selulosa salt. Hence it possesses different qualities compared to Rayon.

Asetat is Termoplastik and can be formed into any shape by application of pressure combined with Panas. Asetat Serats have Baik shape retention.

karakteristik

Termoplastik
Kelangsaian baik
Halus, lembut dan tangguh
Daya serap tinggi dan cepat kering
Berkilau appearance
Lemah, rapidly loses Kekuatan when wet, must be dry-cleaned
Ketahanan terhadap abrasi buruk

Aplikasi

Terutama dalam pakaian – blus, gaun, jaket, pakaian dalam wanita, pelapis, setelan, dasi untuk leher, dan sebagainya
Digunakan dalam kain seperti satin, brokat, kain taf, dan sebagainya

Tri-Asetat

Tri-Asetat consists of acetylated Selulosa that retains acetic groupings, when it is being produced as triAsetat Selulosa. It is a Termoplastik Serat and is more Tangguh than other Selulosa Serats

karakteristik

Termoplastik
Tangguh
Bentuk kuat dan tahan kerut
Tahan susut
Mudah dicuci, bahkan pada suhu yang lebih tinggi
Mempertahankan lipatan dan wiru dengan baik

Aplikasi

Terutama pakaian
Digunakan dalam pakaian yang mementingkan retensi lipatan / wiru misalnya rok dan gaun
Can be used with Poliester to create shiny Pakaian

2.2. Man-made – Non-Selulosa

Serat polimer

Kelompok serat ini dibedakan dengan disintesis atau dibuat dari berbagai elemen menjadi molekul yang lebih besar yang disebut polimer linear.

Molekul-molekul dari masing-masing senyawa tertentu disusun dalam garis paralel dalam serat. Susunan molekul ini disebut orientasi molekul.

The properties of such Serats are dependent on their chemical Komposisi and kinds of molecular orientation.

Nilon

In Nilon, the Serat forming substance is a long-chain synthetic polyamide in which less than 85% of the amide linkages are attached directly to two aromatic rings. The elements Karbon, oxygen, nitrogen and hydrogen are combined by chemical processes into compounds which react to form long-chain molecules, chemically known as polyamides and are then formed into Serats. There are several forms of Nilon. Each depends upon the chemical synthesis.

Outdoor Baiks

They are: Nilon 4; 6; 6.6; 6.10; 6.12; 8; 10; and 11.

karakteristik

Tinggily Tangguh
Tinggi elongation and Elastisity
Sangat kuat dan tahan lama
Ketahanan terhadap abrasi sangat baik
Termoplastik
Has the ability to be very Berkilau, semi-Berkilau or dull
Tahan terhadap serangga, jamur, lumut dan kebusukan

Aplikasi

Pakaian – pantyhose, stockings, leggings, etc.
Perabotan rumah
Industrial Aplikasi - parachutes, tyre cords, ropes, airbags, hoses, etc.

Poliester

In Poliester, the Serat forming substance is any long-chain synthetic polymer composed of at least 85% by weight of an ester of a substituted aromatic carboxylic acid, but not restricted to substituted terapthalate units and para-substituted hydroxybenzoate units.

In producing such Serats, the basic elements of Karbon, oxygen and hydrogen are polymerised. Variations are possible in the methods of production, in the combination of ingredients and in the ultimate molecular structures of the Serat forming substance.

karakteristik

Termoplastik
Kekuatan baik
Hydrophobic (non absorbent)

Aplikasi

Pakaian – woven and knits, shirts, pants, jackets, hats etc.
Perabotan rumah – bed sheets, blankets, upholstered furniture, cushioning material
Industrial uses – conveyor belts, safety belts, tyre reinforcement

Spandeks

The Serat forming substance used to produce Spandeks is any long-chain synthetic polymer composed of at least 85% of segmented polyurethane. Variations are possible when producing this Serat.

The basic elements of nitrogen, hydrogen, Karbon and oxygen are synthesised with other substances to ethyl ester compounds in polymer chains of soft segments or sections that provide stretch and harder segments that hold the chain together.

Trademarks of three Spandeks Serats are Cleer-span, Glospan and Lycra.

karakteristik

Tinggily Elastis
Nyaman
Retensi bentuk tinggi
Tahan lama

Aplikasi

Tidak pernah digunakan sendiri, tapi selalu dicampur dengan serat lainnya
Pakaian dan barang-barang pakaian dengan peregangan yang nyaman dan pas
Kaus kaki
Pakaian dalam pembentuk tubuh
Pakaian renang, pakaian atletik, pakaian aerobik
Pakaian dalam wanita, legging dan kaus kaki
Pakaian berbentuk misalnya cup bra
Sarung tangan

Akrilik

In Akriliks, the Serat forming substance is any long chain polymer composed of at least 85% by weight of Akrilonitril units. Using complicated processes, Karbon, hydrogen and nitrogen, the basic elements are synthesised with small amounts of other chemicals into larger polymer combinations. Variations are possible in the methods of production, in the combination of ingredients and in the ultimate molecular structures of the Serat forming substance.

karakteristik

Soft, warm handling karakteristik similar to Wol
Tangguh
Menjaga bentuk

Aplikasi

Pakaian
Perabotan rumah

3. Man-made – Protein Serats

Protein dari produk-produk seperti jagung dan susu diproses secara kimia dan diubah menjadi serat. Namun, serat tersebut tidak sukses secara komersial.

4. Man-made – Karet Serats

The Serat forming substance is comprised of natural and synthetic Karet. The treated Karet is produced in strands, so that the cross-section is either round or square and the longitudinal surface is relatively smooth.

5. Man-made – Logamik Serats

These Serats are composed of Logam, plastic-coated Logam, Logam-coated plastic, or a core completely covered by Logam. These Serats are usually produced in flat, narrow, smooth strips which possess Tinggi Kilauan.

Iridescent

Aplikasi

Decorative yarns in Pakaian and Perabotan rumah items.

6. Man-made – Mineral Serats

Various Minerals have been manufactured into Kaca, Keramik and Grafit Serats having prescribed properties for specific uses.

Kaca

Although Kaca is a hard and inflexible material, it can be made into a fine, translucent textile Serat that has an appearance and feel of Sutra.

Natural Minerals such as silica sand, limestone, soda ash, borax, boric acid, feldspar and fluorspar have been fused under very Tinggi temperatures into Kaca which is processed into a Serat.

karakteristik

Lembam
Sangat tahan api

Aplikasi

Panas Tahan industrial Aplikasi

Parameter Serat Tekstil

Fibrous materials should possess certain properties to become a suitable textile raw material. Properties which are essential for acceptance as a suitable raw material may be classified as ‘Sifat primer’. The other properties which add specific desirable character or aesthetics to the end product and its use may be classified as ‘Sifat sekunder’.

Sifat primer

1. Panjangnya

2. Tenacity (Kekuatan)

3. Keluwesan

4. Kohesi

5. Keseragaman sifat

Sifat sekunder

1. Bentuk fisik

2. Specific gravity (influence weight, cover etc.)

3. Kembalinya kelembaban* and absorption (comfort, static electricity etc.)

4. Elastis character

5. Thermo plasticity (softening point and Panas - set character)

6. Kemampuan pencelupan

7. Resistensi terhadap pelarut, bahan kimia korosif, mikro organisme dan kondisi lingkungan

8. Sifat mudah terbakar

9. Kilauan