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Composite Material
What is the Definition of a Composite Material?
by Todd Johnson
Loosely defined, a composite is a combination of two or more
different materials that results in a superior (often stronger) product.
Humans have been creating composites for thousands of years to
build everything from simple shelters to elaborate electronic devices.
While the first composites were made from natural materials like
mud and straw, today's composites are created in a lab from synthetic
substances.
Regardless of their origin, composites are what have made life
as we know it possible.
A Brief History
Archaeologists say humans have been using composites for at
least 5,000 to 6,000 years.
In ancient Egypt, bricks made from mud and straw to encase and
reinforce wooden structures such as forts and monuments.
In parts of Asia, Europe, Africa, and the Americas, indigenous
cultures build structures from wattle (planks or strips of wood) and daub (a
composite of mud or clay, straw, gravel, lime, hay, and other substances).
Another advanced civilization, the Mongols, were also pioneers
in the use of composites.
Beginning around 1200 A.D., they began building reinforced bows
out of wood, bone, and natural adhesive, wrapped with birch bark.
These were far more powerful and accurate than simple wooden
bows, helping Genghis Khan's Mongolian Empire to spread across Asia.
The modern era of composites began in the 20th century with the
invention of early plastics such as Bakelite and vinyl as well as engineered
wood products like plywood.
Another crucial composite, Fiberglas, was invented in 1935. It
was far stronger than earlier composites, could be molded and shaped, and was
extremely lightweight and durable.
World War II hastened the invention of still more
petroleum-derived composite materials, many of which are still in use today,
including polyester.
The 1960s saw the introduction of even more sophisticated
composites, such as Kevlar and carbon fiber.
Modern Composite Materials
Today, 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 of 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
Common Uses and Benefits
The most common example of a composite 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.
The composite material most commonly associated with the term
"composite" is Fiber Reinforced Plastics.
This type of composite is used extensively throughout our daily
lives. Common everyday uses of fiber reinforced plastic composites include:
· Aircraft
· Boats and marine
· Sporting equipment (golf shafts, tennis rackets, surfboards,
hockey sticks, etc.)
· Automotive components
· Wind turbine
blades
· Body armor
· Building materials
· Water pipes
· Bridges
· Tool handles
· Ladder rails
Modern composite materials have a number of advantages over
other materials such as steel.
Perhaps most importantly, composites are much lighter in weight.
They also resist corrosion, are flexible and dent-resistant.
This, in turn, means they require less maintenance and have a
longer lifespan than traditional materials.
Composite materials make cars lighter and therefore more fuel
efficient, make body armor more resistant to bullets and make turbine blades
that can withstand the stress of high wind speeds.
Todd
Johnson
Introduction
Regional
Sales Manager for Composites One, a distributor of composite materials.
B.S. in
Business Management from University of Colorado Boulder's Leeds School of
Business
Business
Development Manager for Ebert Composites Corporation
Experience
Todd
Johnson is a former writer for ThoughtCo, who wrote about plastics and
composite materials for 2-1/2 years between 2010 and 2013. He is a Regional
Sales Manager at Composites One, a composite materials distributor in San
Diego, CA. Johnson provides support to the Greater San Diego manufacturers of
fiber reinforced and polymer products. He regularly attends composite industry
trade shows including JEC, ACMA, SME, and SAMPE. In 2008 he presented at the
Global Pultrusion Conference in Baltimore, MD. Previously, Todd spent six years
as the Business Development Manager for Ebert Composites Corporation.
Education
B.S.,
Business, Management, Marketing, and Related Support Services - the University
of Colorado-Boulder's Leeds School of Business; attended Griffith University in
Queensland, Australia.
A
Message from Todd Johnson
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