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PT. SUMBER KONEKSI INDONESIA

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Kami merupakan Perusahaan Internet Service Provider (ISP) atau Penyedia Layanan Internet yang memberikan layanan Koneksi Internet Dedicated berkualitas baik melalui Fiber Optik (FO) maupun Wireless. Dengan layanan prima Terbaik dan berpengalaman kami berusaha untuk memberikan solusi bagi kebutuhan internet untuk di kantor/ Perusahaan, Sekolah, kampus/ universitas , UMKM, warnet dan lainnya untuk menikmati Layanan Provider Internet dedicated murah Unlimited paling cepat dan stabil .

Anda dapat melakukan kontak dengan kami dengan berbagai media komunikasi. Kami akan sangat terbuka untuk berkomunikasi baik dalam hal penjualan melalui marketing dan segala permasalahan koneksi internet yang mungkin muncul melalui support kami. Kami akan berusaha memahami permasalahan dan memberikan solusi yang tepat akan kebutuhan internet anda sehingga mampu memberikan pelayanan Provider Internet murah yang terbaik.

Kini wilayah layanan kami (Area coverage) telah meliputi Jakarta, Bogor, Depok, Bekasi, Cikampek, Karawang, Bandung dan sekitarnya

Jl. H. Kocen, Kalimulya, Cilodong, Kota Depok, Jawa Barat 16413, Indonesia

Office: (021) 778 400 22

Call n Chat to Marketing Officer: 0878-7830-7650 (fast response)

Marketing: 0812-9637-1993

Marketing: 0813-1888-2415

marketing@providerinternetdedicated.com

Advantages of Using Fiber Optics Internet

Advantages of Using Fiber Optics Internet

Fiber optics internet is now slowly becoming the trend especially to businesses which needs to have a very fast internet connection. Aside from the speed that a fiber optic internet offers, it is also reliable. As compared to other mediums of internet connections, fiber optic internet is more reliable since it is less prone to electrical disturbances or any other form of data disruptions since the data that is flowing through the fiber optic cables is being transported as a light signal making it reach the destination fast and efficient.

But there is only one problem when it comes to using fiber optics internet and that is the price. Using a fiber optic internet is very much expensive as compared to other types of internet services. But then again, you have to look at the advantages that it will bring you and you will see that you will be able to spend your money well.

Automation has also been a very demanding field of technology since it requires precision and accuracy especially those automation system that are being used in industrial businesses such as manufacturing. In order to efficiently and securely transmit information over a network, the company needs to use fiber optic internet. Fiber optic internet will not only enable the company to access the internet in no time but also will ensure that the information being sent over the network is still of good quality. This is important especially if you are transporting data over long distances.

As compared to other types of internet mediums, fiber optics enables the user to connect networks in long distances unlike using copper cabling. In copper cabling, if the distance is more than 100 meters, the signal will begin to weaken and eventually will not reach the destination. This is not the case with fiber optics since the data being transmitted is converted into light form and not electrical pulses.

 

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Fiber Optics Internet Has Revolutionized The Global Corporate Scenario

Fiber Optics Internet Has Revolutionized The Global Corporate Scenario
The pervasive accessibility of fiber optic network services is changing the very meaning of populaces perspective towards the potential of Dedicated Internet and how can it benefit the corporate state of affairs. The resourcefulness of Fiber Optics Internet in the corporate scenario is far too immense to describe in words, but we will try to decipher the cipher, here in this article.

When it comes to coordination between the different offices of the same corporation spread across the globe, virtually no other means of data transmission can stand up to the data transmission power and efficiency of Fiber Optics Internet. Unlike earlier times, when most of the communication requirements were catered to by phone, mail or fax, this unprecedented technology has brought about a revolution as no employee will feel outside the loop.

The extensive usage of fiber optic network in a majority of the corporations have led to the blurring of communication distance which was present earlier between personnel of the same company situated at geographically distant places. Starting from straight forward and the uncomplicated instant messaging to intricate technologies such as from video conferencing, fiber optics will time and again prove as a resourceful contrivance. The rise in the sheer number of offices has also broadened the usage of fiber optic network as it is increasingly coming out of the box of the domain of business communications.

Take for instance Americatel which has dedicated Data center and proffers extra ordinary services when it comes to wireless Internet or Fiber Optics Internet not only for blue chip companies but also directly to your homes. So next time you can watch movie son demand from the comfort of your dwelling with the help of fiber optics. You need to call fiber optic companies to start installing fiber optic.

Well it is high time you aptly reckon that fiber optics is not limited to computer networks as this specific technology can do much more than just that. VoIP (Voice over Internet Protocol) is yet another milestone which has taken over the world by surprise as it drastically lowers the tariffs of international calls to a near zero. If we were to argue about the advantages of fiber optic network, we will find an assortment of reasons. For starters, fiber optic network is easier and uncomplicated to install. They are in reality far lighter than their copper counterparts, which gives them an extra edge.

The most beneficial aspect is their bandwidth feature and no other data transmission mode can compare with fiber optics on this faade. Their high resistance to noise and electro magnetic interference also acts as a major driving force for folks who acquire it. Other pertinent advantages are significantly diminished power requirements and higher flexibility. Equipped with this know how you must be pretty tempted to try fiber optics hands on. But before choosing fiber optic companies, you should do a bit of intricate research on the World Wide Web pertaining to the companys profile, its experience and look into other imperative facets.

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Fiber

Fiber
Textile fiber

A unit in which many complicated textile structures are built up is said to be textile fiber.

Textile Fiber is the basic constituent (Basic raw material) required for textile industry.

Natural fibers

Main article: Natural fiber

Natural fibers include those produced by plants, animals, and geological processes. They are biodegradable over time. They can be classified according to their origin:

Vegetable fibers are generally based on arrangements of cellulose, often with lignin: examples include cotton, hemp, jute, flax, ramie, and sisal. Plant fibers are employed in the manufacture of paper and textile (cloth), and dietary fiber is an important component of human nutrition.

Wood fiber, distinguished from vegetable fiber, is from tree sources. Forms include groundwood, thermomechanical pulp (TMP) and bleached or unbleached kraft or sulfite pulps. Kraft and sulfite, also called sulphite, refer to the type of pulping process used to remove the lignin bonding the original wood structure, thus freeing the fibers for use in paper and engineered wood products such as fiberboard.

Animal fibers consist largely of particular proteins. Instances are spider silk, sinew, catgut, wool and hair such as cashmere, mohair and angora, fur such as sheepskin, rabbit, mink, fox, beaver, etc.

Mineral fibers comprise asbestos. Asbestos is the only naturally occurring long mineral fiber. Short, fiber-like minerals include wollastonite, attapulgite and halloysite.

Man-made fibers

Synthetic or man-made fibers generally come from synthetic materials such as petrochemicals. But some types of synthetic fibers are manufactured from natural cellulose, including rayon, modal, and the more recently developed Lyocell. Cellulose-based fibers are of two types, regenerated or pure cellulose such as from the cupro-ammonium process and modified cellulose such as the cellulose acetates.

Fiber classification in reinforced plastics falls into two classes: (i) short fibers, also known as discontinuous fibers, with a general aspect ratio (defined as the ratio of fiber length to diameter) between 20 to 60, and (ii) long fibers, also known as continuous fibers, the general aspect ratio is between 200 to 500.

Cellulose fibers

Cellulose fibers are a subset of man-made fibers, regenerated from natural cellulose. The cellulose comes from various sources. Modal is made from beech trees, bamboo fiber is a cellulose fiber made from bamboo, seacell is made from seaweed, etc.

Mineral fibers

Fiberglass, made from specific glass, and optical fiber, made from purified natural quartz, are also man-made fibers that come from natural raw materials.

Metallic fibers can be drawn from ductile metals such as copper, gold or silver and extruded or deposited from more brittle ones, such as nickel, aluminum or iron.

Carbon fibers are often based on carbonised polymers, but the end product is pure carbon.

Polymer fibers

Polymer fibers are a subset of man-made fibers, which are based on synthetic chemicals (often from petrochemical sources) rather than arising from natural materials by a purely physical process. These fibers are made from:

polyamide nylon,

PET or PBT polyester

phenol-formaldehyde (PF)

polyvinyl alcohol fiber (PVA)

polyvinyl chloride fiber (PVC)

polyolefins (PP and PE)

acrylic polyesters, pure polyester PAN fibers are used to make carbon fiber by roasting them in a low oxygen environment. Traditional acrylic fiber is used more often as a synthetic replacement for wool. Carbon fibers and PF fibers are noted as two resin-based fibers that are not thermoplastic, most others can be melted.

Aromatic polyamids (aramids) such as Twaron, Kevlar and Nomex thermally degrade at high temperatures and do not melt. These fibers have strong bonding between polymer chains

polyethylene (PE), eventually with extremely long chains / HMPE (e.g. Dyneema or Spectra).

Elastomers can even be used, e.g. spandex although urethane fibers are starting to replace spandex technology.

polyurethane fiber

Coextruded fibers have two distinct polymers forming the fiber, usually as a core-sheath or side-by-side. Coated fibers exist such as nickel-coated to provide static elimination, silver-coated to provide anti-bacterial properties and aluminum-coated to provide RF deflection for radar chaff. Radar chaff is actually a spool of continuous glass tow that has been aluminum coated. An aircraft-mounted high speed cutter chops it up as it spews from a moving aircraft to confuse radar signals.

Microfibers

Microfibers in textiles refer to sub-denier fiber (such as polyester drawn to 0.5 dn). Denier and Detex are two measurements of fiber yield based on weight and length. If the fiber density is known you also have a fiber diameter, otherwise it is simpler to measure diameters in micrometers. Microfibers in technical fibers refer to ultra fine fibers (glass or meltblown thermoplastics) often used in filtration. Newer fiber designs include extruding fiber that splits into multiple finer fibers. Most synthetic fibers are round in cross-section, but special designs can be hollow, oval, star-shaped or trilobal. The latter design provides more optically reflective properties. Synthetic textile fibers are often crimped to provide bulk in a woven, non woven or knitted structure. Fiber surfaces can also be dull or bright. Dull surfaces reflect more light while bright tends to transmit light and make the fiber more transparent.

Very short and/or irregular fibers have been called fibrils. Natural cellulose, such as cotton or bleached kraft, show smaller fibrils jutting out and away from the main fiber structure.

See also

Optical fiber

Fiber crop

Tensile strength

Molded pulp

Dietary fiber

Fibers in Differential Geometry

International Year of Natural Fibres

References

^ Hans-J. Koslowski. “Dictionary of Man-made fibers”. Second edition. Deutscher Fachverlag. 2009

^ Serope Kalpakjian, Steven R Schmid. “Manufacturing Engineering and Technology”. International edition. 4th Ed. Prentice Hall, Inc. 2001. ISBN 0-13-017440-8.

^ Hans-J. Koslowski. “Dictionary of Man-made fibers”. Second edition. Deutscher Fachverlag. 2009

v d e

Fibers

Natural

Animal

Alpaca  Angora  Bison Down  Camel hair  Cashmere  Catgut  Chiengora  Llama  Mohair  Pashmina  Qiviut  Rabbit  Silk  Sinew  Spider silk  Wool  Vicua  Yak

Vegetable

Abac  Bamboo  Coir  Cotton  Flax  Hemp  Jute  Kapok  Kenaf  Pia  Raffia palm  Ramie  Sisal  Wood

Mineral

Asbestos  Basalt  Mineral wool  Glass wool

Cellulose

Acetate  Art silk  Bamboo  Lyocell (Tencel)  Modal  Rayon 

Synthetic

Acrylic  Aramid (Twaron  Kevlar  Technora  Nomex)  Carbon (Tenax)  Microfiber  Modacrylic  Nylon  Olefin  Polyester  Polyethylene (Dyneema  Spectra)  Spandex  Vinalon  Zylon

v d e

Textile arts

Fundamentals:

Applique  Crochet  Dyeing  Embroidery  Fabric (textiles)  Felting  Fiber  Knitting  Lace  Nlebinding  Needlework  Patchwork  Passementerie  Plying  Quilting  Rope  Sewing  Spinning  Tapestry  Textile printing  Weaving  Yarn

History of… :

Clothing and textiles  Silk  Quilting  Textiles in the Industrial Revolution  Timeline of textile technology

Regional and ethnic:

Andean   Australian Aboriginal   Hmong   Korean   Mori

Related:

Blocking  Fiber art  Mathematics and fiber arts  Manufacturing 

Preservation  Terminology  Textile industry  Textile Museums   Units of measurement  Wearable fiber art

Categories: Fibers | Materials | TextilesHidden categories: Articles needing additional references from April 2009 | All articles needing additional references

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