Composite Definition, History, Advantages
Definition
A "composite" is when two or more different materials are combined together to create a superior and unique material. This is an extremely broad definition that holds true for all composites, however, more recently the term "composite" describes reinforced plastics.
Some abbreviations commonly used worldwide for Fiber Reinforced Composites
- Amerika da GRP (Glass Glass fiber Reinforced Plastic)
- İngiltere'de FRP (Fiber glass Reinforced Plastic)
- Fransa'da PRFV (Plastique Renforce de Fibres de Verre)
- Almanya 'da GFK (Glasfaser Kunstsoffe)
- İtalya'da PRFV (Plastici Rinforzati di Fibro di Vetro)
Background on Composites
The history of composites dates back to ancient times for construction applications; straw was mixed with mud to form a building material known as adobe. The straw provided the structure and strength, while the mud acted as a binder, holding the straw together in place.
Since the days of adobe, the use of composites has evolved to commonly incorporate a structural fiber and a plastic, this is known as Fiber Reinforced Plastics, or FRP for short. Like straw, the fiber provides the structure and strength to the composite, while a plastic polymer holds the fiber together. Common types of fibers used in FRP composites include:
- Fiberglass
- Carbon Fiber
- Aramid Fiber
- Boron Fiber
- Basalt Fiber
- Natural Fiber (Wood, Flax, Hemp, etc.)
In the case of fiberglass, hundreds of thousands of tiny glass fibers are compiled together and held rigidly in place by a plastic polymer resin. Common plastic resins used in composites include:
- Epoxy
- Vinyl Ester
- Polyester
- Polyurethane
- Polypropylene
Examples of Composites
The most common example of a "composite" in a broad sense is concrete. In this use, structural steel rebar provides the strength and stiffness to the concrete, while the cured cement holds the rebar stationary. Rebar alone would flex too much and cement alone would crack easily. However, when combined to form a composite, an extremely rigid material is created.
Benefits of Composites
In comparison to common materials used today such as metal and wood, composites can provide a distinct advantage. The primary driver and advantage in the adoption of composites is the lightweight properties. In transportation, less weight equates to more fuel savings and improved acceleration. In sporting equipment, lightweight composites allow for longer drives in golf, faster swings in tennis, and straighter shots in archery. While in wind energy, the less a blade weighs, the more power the turbine can produce. Besides weight savings, the most important benefits of composites include:
- Non-corrosive
- Non-conductive
- Flexible, will not dent
- Low maintenance
- Long life
- Design flexibility