Fiberglass is an inorganic non-metallic material that has excellent mechanical and physical properties. Since its invention, Fiberglass has undergone a long process of development and improvement, and has gradually become an important material in many industries. This article will introduce the development process of Fiberglass Composite and its prospects for the future.
Development Process of Fiberglass
The history of Fiberglass can be traced back to the 1930s, when Owens-Illinois Glass Company developed a new type of Fiberglass. The Fiberglass produced by this company was called “Owens Fiberglass”, which was made by drawing molten glass into thin fibers. However, due to the limited production technology, the quality of Owens Fiberglass was not very stable, and it was mostly used in low-end applications such as insulation materials.
In the 1950s, a new type of Fiberglass was developed, which was called E-Fiberglass. E-Fiberglass is an alkali-free Fiberglass, which has better chemical stability and thermal stability than Owens Fiberglass. In addition, E-Fiberglass has higher strength and better electrical insulation performance. With the development of production technology, the quality of E-Fiberglass has been greatly improved, and it has become the most widely used type of Fiberglass.
In the 1960s, a new type of Fiberglass was developed, which was called S-Fiberglass. S-Fiberglass is a high-strength Fiberglass, which has higher strength and modulus than E-Fiberglass. S-Fiberglass is mainly used in high-end applications such as aerospace, military industry, and sports equipment.
In the 1970s, a new type of Fiberglass was developed, which was called C-Fiberglass. C-Fiberglass is a corrosion-resistant Fiberglass, which has better corrosion resistance than E-Fiberglass. C-Fiberglass is mainly used in the fields of chemical industry, marine engineering, and environmental protection.
In the 1980s, a new type of Fiberglass was developed, which was called AR-Fiberglass. AR-Fiberglass is an alkali-resistant Fiberglass, which has better alkali resistance than E-Fiberglass. AR-Fiberglass is mainly used in the fields of construction, decoration, and reinforcement.
Prospects of Fiberglass
Fiberglass is widely used in various industries such as construction, transportation, energy, and aerospace. With the continuous development of science and technology, the application fields of Fiberglass are becoming wider and wider.
In the field of transportation, Fiberglass is used to produce lightweight and high-strength materials, which can greatly reduce the weight of vehicles and improve their energy efficiency. In the field of construction, Fiberglass is used to produce reinforcing materials, which can improve the strength and durability of concrete structures. In the field of energy, Fiberglass is used to produce wind turbine blades, which can greatly improve the efficiency of wind power generation.
In addition, with the continuous improvement of Fiberglass production technology, the quality of Fiberglass is constantly improving, and the cost is gradually decreasing. This will further promote the application of Fiberglass in various fields. In the future, Fiberglass will continue to play an important role in various industries, and will contribute to the sustainable development of human society.
Fiberglass has undergone a long process of development and improvement, and has gradually become an important material in many industries. With the continuous development of science and technology, the application fields of High performance fiberglass material are becoming wider and wider. In the future, Fiberglass will continue to play an important role in various industries, and will contribute to the sustainable development of human society.
#Fiberglass Composite#E-Fiberglass#alkali-free Fiberglass#AR-Fiberglass#High performance fiberglass material
Post time: Apr-27-2023