Detailed Description of Fibreglass: An Industrial Necessity

For the past few years, many business owners felt the dire need of surpassing the shortcomings of the conventional metals and that is why they were desperately looking for a perfect as well as cost-effective alternative. In the recent times, this issue has almost been solved as most of the leading factories throughout the world, have effectively replaced the traditional elements like steel, wood or aluminium with an amazing and innovative building material called Fibreglass or Fibre-reinforced plastics. Fibreglass came as a boon in the industrial sector and the distinguished features of the FRP composites have immensely contributed to its wide popularity among a larger segment of customers. In the following, we would discuss the manufacturing process, distinguished features and maintenance tips of fibreglass and the products made by them.

How is Fibreglass fabricated?

Before getting into the detailed production mechanism of fibreglass, it is wise to know a thing or two about what it actually is. According to the simplest definition, fibreglass is the material manufactured from glass and fibres combination. It is a generic term, primarily used for an individual and adaptable group of composites having varied applications, starting from chemical plants, construction industries to marine and transportation sector.

The fundamental raw materials for producing fibreglass composite include a variety of concocted chemicals and natural minerals. Ingredients used are as follows- silica sand, limestone, borax, feldspar, alumina, soda ash, kaolin clay, magnesite and many more. All the ingredients are thoroughly mixed and put in a furnace, whose temperature is around 1371°C. The molten glass comes out through a channel. The melted glass, impregnated with different fibres and coated with various lubricants is then given proper shapes.

Distinctive Features of Fibreglass

• Extremely light in weight that makes installation or positioning easy and effortless.
• High tensile strength and could endure maximum pressure and heavy loads.
• Fibreglass has transparent electromagnetic frequencies and thus, used in cellular applications.
• Have limited thermal conductivity.
• They have anti-corrosive property and hence could work well in severe caustic environments.
• Fibreglass is a cost-effective substitute of conventional materials.
• They are resistant to heat, fire, chemicals and harsh weather.

How to sustain Fibreglass?

• Inspection is necessary for fibreglass composite so that any kind of damage could be detected easily.
• Waxing the surfaces so that the surfaces do not become slippery.
• Polishing the fibreglass products is mandatory, if you want to keep its finish and glaze.
• Cleaning the products made of fibreglass with strong detergents to remove accumulated dirt and dust.
• Fibreglass promises to offer the industrialists with quality products, which would successfully enhance their sales.

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