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Plstico reforzado con vidrio
El GRP (Glass Reinforced Plastic), tambin denominado con las siglas GFRP (Glass-
Fiber Reinforced Plastic), o GFK (delalemnGlasfaserverstrkter Kunststoff), es
unmaterial compuesto, formado por una matriz deplsticoo resina reforzada confibras de
vidrio.
No es inusual denominar informalmente a este material simplemente como "fibra de
vidrio".
Se trata de un material ligero, resistente y muy fcil de moldear, por lo que es muy usado en
la elaboracin de piezas de formas suaves y complejas. En la industria nutica se utiliza
para confeccionar el casco de algunas embarcaciones; en aeronutica y en la industria
automovilstica para piezas y carroceras, y en el sector de la construccin como envolvente
o fachada en edificios singulares con formas de curvatura irregular.
Los plsticos ms utilizados sonepoxi,polister,vinilstery otrostermoplsticos.
Contenido
[ocultar]
1 Historia 2 Fabricacin 3 Caractersticas 4 Vase tambin 5 Referencias
[editar]Historia
El origen de este material se remonta a laII Guerra Mundial, usado por los ingleses como
sustituto delcontrachapadopara losradomosde los aviones, debido a la mayor
permeabilidad del GRP a lasmicroondas. En el mbito civil, empez a utilizarse en la
fabricacin de embarcaciones, ganando aceptacin durante la dcada de 1950. De ah seextendi a la industria del automvil y a la aeronutica, en donde est siendo desplazado
por lafibra de carbono, ms resistente.
Tambin se usa para diversos tipos de canalizaciones y tuberas, y es un material de uso
comn entanques de agua.
[editar]Fabricacin
http://es.wikipedia.org/wiki/Idioma_alem%C3%A1nhttp://es.wikipedia.org/wiki/Idioma_alem%C3%A1nhttp://es.wikipedia.org/wiki/Material_compuestohttp://es.wikipedia.org/wiki/Material_compuestohttp://es.wikipedia.org/wiki/Material_compuestohttp://es.wikipedia.org/wiki/Pl%C3%A1sticohttp://es.wikipedia.org/wiki/Pl%C3%A1sticohttp://es.wikipedia.org/wiki/Pl%C3%A1sticohttp://es.wikipedia.org/wiki/Fibra_de_vidriohttp://es.wikipedia.org/wiki/Fibra_de_vidriohttp://es.wikipedia.org/wiki/Fibra_de_vidriohttp://es.wikipedia.org/wiki/Fibra_de_vidriohttp://es.wikipedia.org/wiki/Epoxihttp://es.wikipedia.org/wiki/Epoxihttp://es.wikipedia.org/wiki/Epoxihttp://es.wikipedia.org/wiki/Poli%C3%A9sterhttp://es.wikipedia.org/wiki/Poli%C3%A9sterhttp://es.wikipedia.org/wiki/Poli%C3%A9sterhttp://es.wikipedia.org/wiki/Vinil%C3%A9sterhttp://es.wikipedia.org/wiki/Vinil%C3%A9sterhttp://es.wikipedia.org/wiki/Vinil%C3%A9sterhttp://es.wikipedia.org/wiki/Termopl%C3%A1sticohttp://es.wikipedia.org/wiki/Termopl%C3%A1sticohttp://es.wikipedia.org/wiki/Termopl%C3%A1sticohttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidriohttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidriohttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidriohttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Historiahttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Historiahttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Fabricaci.C3.B3nhttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Fabricaci.C3.B3nhttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Caracter.C3.ADsticashttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Caracter.C3.ADsticashttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#V.C3.A9ase_tambi.C3.A9nhttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#V.C3.A9ase_tambi.C3.A9nhttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Referenciashttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Referenciashttp://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=1http://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=1http://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=1http://es.wikipedia.org/wiki/II_Guerra_Mundialhttp://es.wikipedia.org/wiki/II_Guerra_Mundialhttp://es.wikipedia.org/wiki/II_Guerra_Mundialhttp://es.wikipedia.org/wiki/Contrachapadohttp://es.wikipedia.org/wiki/Contrachapadohttp://es.wikipedia.org/wiki/Contrachapadohttp://es.wikipedia.org/wiki/Radomohttp://es.wikipedia.org/wiki/Radomohttp://es.wikipedia.org/wiki/Microondashttp://es.wikipedia.org/wiki/Microondashttp://es.wikipedia.org/wiki/Microondashttp://es.wikipedia.org/wiki/Fibra_de_carbonohttp://es.wikipedia.org/wiki/Fibra_de_carbonohttp://es.wikipedia.org/wiki/Fibra_de_carbonohttp://es.wikipedia.org/wiki/Tanque_de_aguahttp://es.wikipedia.org/wiki/Tanque_de_aguahttp://es.wikipedia.org/wiki/Tanque_de_aguahttp://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=2http://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=2http://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=2http://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=2http://es.wikipedia.org/wiki/Tanque_de_aguahttp://es.wikipedia.org/wiki/Fibra_de_carbonohttp://es.wikipedia.org/wiki/Microondashttp://es.wikipedia.org/wiki/Radomohttp://es.wikipedia.org/wiki/Contrachapadohttp://es.wikipedia.org/wiki/II_Guerra_Mundialhttp://es.wikipedia.org/w/index.php?title=Pl%C3%A1stico_reforzado_con_vidrio&action=edit§ion=1http://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Referenciashttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#V.C3.A9ase_tambi.C3.A9nhttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Caracter.C3.ADsticashttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Fabricaci.C3.B3nhttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidrio#Historiahttp://es.wikipedia.org/wiki/Pl%C3%A1stico_reforzado_con_vidriohttp://es.wikipedia.org/wiki/Termopl%C3%A1sticohttp://es.wikipedia.org/wiki/Vinil%C3%A9sterhttp://es.wikipedia.org/wiki/Poli%C3%A9sterhttp://es.wikipedia.org/wiki/Epoxihttp://es.wikipedia.org/wiki/Fibra_de_vidriohttp://es.wikipedia.org/wiki/Fibra_de_vidriohttp://es.wikipedia.org/wiki/Pl%C3%A1sticohttp://es.wikipedia.org/wiki/Material_compuestohttp://es.wikipedia.org/wiki/Idioma_alem%C3%A1n7/31/2019 Plastico Reforzado Con Vidrio
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Existen varias formas de confeccionar una placa de GRP, dependiendo de cmo se
dispongan las fibras de vidrio dentro de la matriz plstica. La fibra puede colocarse como
una o varias mallas superpuestas, en una direccin o en en direcciones perpendiculares, en
funcin de los esfuerzos a los que tenga que estar sometido el material. En ocasiones se
utilizan ms mallas de fibra como refuerzo puntual en las zonas ms solicitadas. Tambin
pueden proyectarse las fibras de vidrio con pistola, quedando los hilos dispuestos
aleatoriamente dentro del materialde forma anloga a como se elaboraba eladobe.
El grosor, la cantidad y la disposicin de las fibras modifican sustancialmente tanto el peso
como la resistencia del compuesto, por lo que esta variable se mide utilizando conceptos
yunidades de la industria textil, como el Tex (peso en gramos de 1000 m de fibra), o los
metros de hilo por cada kg de material, que en elsistema anglosajnse
denomina Yield(yardasde hilo por cadalibrade material).
La cantidad de fibra de vidrio empleada vara dependiendo del tipo de GRP. En porcentaje
sobre el peso total, Las cantidades ms habituales empleadas en la tipologa de vidrioproyectado oscilan entre el 20% y el 45%, en mallas bidireccionales entre el 35% y el 65%,
y en mallas unidireccionales entre el 50% y el 90%.1
El GRP puede fabricarse industrial o artesanalmente, como en el caso de la mayora de
embarcaciones.2
[editar]Caractersticas
Es un material ligero y resistente, rgido, con buen comportamiento frente a la corrosin y
al desgaste, y buen aistante trmico, acstico y elctrico.1Entre sus desventajas se
encuentran la dificultad de reciclaje, el mal comportamiento frente al fuego (adems, los
productos de su combustin son txicos), y la ausencia de normativas que regulen u
orienten sobre su uso, ya que las propiedades del material varan notablemente dependiendo
del proceso de elaboracin, la cantidad de fibra, y el tipo de resina empleado.1
Las propiedades mecnicas dependen esencialmente de la cantidad y disposicin de la fibra
de vidrio. La resistencia a traccin del material puede oscilar desde los 500 kg/cm2
con
vidrio proyectado, hasta alcanzar los 10.000 kg/cm2 con vidrio unidireccional al 90% en
peso.1En presencia de esfuerzos, el GRP presenta unafatiga estructuralque disminuye su
resistencia aproximadamente un 1% anual.
Por contra, el resto de propiedades (durabilidad, resistencia a la abrasin, etc.) dependern
fundamentalmente del tipo de resina. Dependiendo de sta, el material podr soportar
temperaturas entre 125 C y 300 C.
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Carbon-fiber-reinforced polymer
Carbon-fiber-reinforced polymer or carbon-fiber-reinforced plastic (CFRP or CRP or
often simply carbon fiber), is a very strong and lightfiber-reinforced polymerwhich
containscarbon fibers. Thepolymeris most oftenepoxy, but other polymers, such
aspolyester,vinyl esterornylon, are sometimes used. Thecompositemay contain other
fibers, such asKevlar,aluminium, orglass fibers, as well as carbon fiber. The strongest and
most expensive of these additives,carbon nanotubes, are contained in some primarily
polymer baseball bats, car parts and even golf clubs[1]
where economically viable.
Although carbon fiber can be relatively expensive, it has many applications in aerospace
and automotive fields, such asFormula One. The compound is also used in sailboats,
modern bicycles, and motorcycles, where its highstrength-to-weight ratioand good rigidity
is of importance. Improved manufacturing techniques are reducing the costs and time to
manufacture, making it increasingly common in small consumer goods as well, such as
laptops, tripods,fishing rods, hockey sticks,paintballequipment, archery equipment, tent
poles, racquet frames, stringed instrument bodies, drum shells, golf clubs, helmets used as a
paragliding accessory and pool/billiards/snooker cues.
The material is also referred to as graphite-reinforced polymeror graphite fiber-reinforced
polymer(GFRP is less common, as it clashes with glass-(fiber)-reinforced polymer). In
product advertisements, it is sometimes referred to simply as graphite fiberfor short.
Contents
[hide]
1 Properties 2 Manufacture
o 2.1 Moldingo 2.2 Vacuum baggingo 2.3 Compression moldingo 2.4 Filament winding
3 Structure 4 Automotive uses 5 Civil engineering applications
http://en.wikipedia.org/wiki/Fiber-reinforced_polymerhttp://en.wikipedia.org/wiki/Fiber-reinforced_polymerhttp://en.wikipedia.org/wiki/Fiber-reinforced_polymerhttp://en.wikipedia.org/wiki/Carbon_(fiber)http://en.wikipedia.org/wiki/Carbon_(fiber)http://en.wikipedia.org/wiki/Carbon_(fiber)http://en.wikipedia.org/wiki/Polymerhttp://en.wikipedia.org/wiki/Polymerhttp://en.wikipedia.org/wiki/Polymerhttp://en.wikipedia.org/wiki/Epoxyhttp://en.wikipedia.org/wiki/Epoxyhttp://en.wikipedia.org/wiki/Epoxyhttp://en.wikipedia.org/wiki/Polyesterhttp://en.wikipedia.org/wiki/Polyesterhttp://en.wikipedia.org/wiki/Polyesterhttp://en.wikipedia.org/wiki/Vinyl_esterhttp://en.wikipedia.org/wiki/Vinyl_esterhttp://en.wikipedia.org/wiki/Vinyl_esterhttp://en.wikipedia.org/wiki/Nylonhttp://en.wikipedia.org/wiki/Nylonhttp://en.wikipedia.org/wiki/Nylonhttp://en.wikipedia.org/wiki/Composite_materialhttp://en.wikipedia.org/wiki/Composite_materialhttp://en.wikipedia.org/wiki/Composite_materialhttp://en.wikipedia.org/wiki/Kevlarhttp://en.wikipedia.org/wiki/Kevlarhttp://en.wikipedia.org/wiki/Aluminiumhttp://en.wikipedia.org/wiki/Aluminiumhttp://en.wikipedia.org/wiki/Aluminiumhttp://en.wikipedia.org/wiki/Glass_(fiber)http://en.wikipedia.org/wiki/Glass_(fiber)http://en.wikipedia.org/wiki/Glass_(fiber)http://en.wikipedia.org/wiki/Carbon_nanotubehttp://en.wikipedia.org/wiki/Carbon_nanotubehttp://en.wikipedia.org/wiki/Carbon_nanotubehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#cite_note-0http://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#cite_note-0http://en.wikipedia.org/wiki/Formula_Onehttp://en.wikipedia.org/wiki/Formula_Onehttp://en.wikipedia.org/wiki/Formula_Onehttp://en.wikipedia.org/wiki/Strength-to-weight_ratiohttp://en.wikipedia.org/wiki/Strength-to-weight_ratiohttp://en.wikipedia.org/wiki/Strength-to-weight_ratiohttp://en.wikipedia.org/wiki/Fishing_rodhttp://en.wikipedia.org/wiki/Fishing_rodhttp://en.wikipedia.org/wiki/Fishing_rodhttp://en.wikipedia.org/wiki/Paintballhttp://en.wikipedia.org/wiki/Paintballhttp://en.wikipedia.org/wiki/Paintballhttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymerhttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymerhttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymerhttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Propertieshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Propertieshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Manufacturehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Manufacturehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Moldinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Moldinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Vacuum_bagginghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Vacuum_bagginghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Compression_moldinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Compression_moldinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Filament_windinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Filament_windinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Structurehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Structurehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Automotive_useshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Automotive_useshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Civil_engineering_applicationshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Civil_engineering_applicationshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Civil_engineering_applicationshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Automotive_useshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Structurehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Filament_windinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Compression_moldinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Vacuum_bagginghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Moldinghttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Manufacturehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#Propertieshttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymerhttp://en.wikipedia.org/wiki/Paintballhttp://en.wikipedia.org/wiki/Fishing_rodhttp://en.wikipedia.org/wiki/Strength-to-weight_ratiohttp://en.wikipedia.org/wiki/Formula_Onehttp://en.wikipedia.org/wiki/Carbon-fiber-reinforced_polymer#cite_note-0http://en.wikipedia.org/wiki/Carbon_nanotubehttp://en.wikipedia.org/wiki/Glass_(fiber)http://en.wikipedia.org/wiki/Aluminiumhttp://en.wikipedia.org/wiki/Kevlarhttp://en.wikipedia.org/wiki/Composite_materialhttp://en.wikipedia.org/wiki/Nylonhttp://en.wikipedia.org/wiki/Vinyl_esterhttp://en.wikipedia.org/wiki/Polyesterhttp://en.wikipedia.org/wiki/Epoxyhttp://en.wikipedia.org/wiki/Polymerhttp://en.wikipedia.org/wiki/Carbon_(fiber)http://en.wikipedia.org/wiki/Fiber-reinforced_polymer7/31/2019 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6 Sporting goods 7 Aerospace engineering 8 Other applications 9 End of useful life/recycling 10 Carbon nanotube reinforced polymer (CNRP) 11 See also 12 References 13 External links
[edit]Properties
This section
requiresexpansion.
The properties of CFRP depend on the layouts of the carbon fiber and the proportion of the
carbon fibers relative to the polymer.[2]
[edit]Manufacture
The process by which most carbon-fiber-reinforced polymer is made varies, depending on
the piece being created, the finish (outside gloss) required, and how many of this particularpiece are going to be produced. In addition, the choice of matrix can have a profound effect
on the properties of the finished composite.
[edit]Molding
One method of producing graphite-epoxy parts is by layering sheets of carbon fiber cloth
into amoldin the shape of the final product. The alignment and weave of the cloth fibers is
chosen to optimize the strength and stiffness properties of the resulting material. The mold
is then filled withepoxyand is heated or air-cured. The resulting part is very corrosion-
resistant, stiff, and strong for its weight. Parts used in less critical areas are manufactured
by draping cloth over a mold, with epoxy either preimpregnated into the fibers (also known
aspre-preg) or "painted" over it. High-performance parts using single molds are often
vacuum-bagged and/orautoclave-cured, because even small air bubbles in the material will
reduce strength.
[edit]Vacuum bagging
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For simple pieces of which relatively few copies are needed, (12 per day) avacuum
bagcan be used. A fiberglass, carbon fiber or aluminum mold is polished and waxed, and
has a release agent applied before the fabric and resin are applied, and the vacuum is pulled
and set aside to allow the piece to cure (harden). There are two ways to apply the resin to
the fabric in a vacuum mold. One is called a wet layup, where the two-part resin is mixed
and applied before being laid in the mold and placed in the bag. The other is a resin
induction system, where the dry fabric and mold are placed inside the bag while the
vacuum pulls the resin through a small tube into the bag, then through a tube with holes or
something similar to evenly spread the resin throughout the fabric. Wire loom works
perfectly for a tube that requires holes inside the bag. Both of these methods of applying
resin require hand work to spread the resin evenly for a glossy finish with very small pin-
holes. A third method of constructing composite materials is known as a dry layup. Here,
the carbon fiber material is already impregnated with resin (prepreg) and is applied to the
mold in a similar fashion to adhesive film. The assembly is then placed in a vacuum to
cure. The dry layup method has the least amount of resin waste and can achieve lighterconstructions than wet layup. Also, because larger amounts of resin are more difficult to
bleed out with wet layup methods, prepreg parts generally have fewer pinholes. Pinhole
elimination with minimal resin amounts generally require the use ofautoclavepressures to
purge the residual gases out.
[edit]Compression molding
A quicker method uses acompression mold. This is a two-piece (male and female) mold
usually made out of fiberglass or aluminum that is bolted together with the fabric and resin
between the two. The benefit is that, once it is bolted together, it is relatively clean and can
be moved around or stored without a vacuum until after curing. However, the molds require
a lot of material to hold together through many uses under that pressure.
[edit]Filament winding
For difficult or convoluted shapes, afilament windercan be used to make pieces.
[edit]Structure
Many carbon-fiber-reinforced polymer parts are created with a single layer of carbon fabric
that is backed with fiberglass. A tool called a chopper gun is used to quickly create these
composite parts. Once a thin shell is created out of carbon fiber, the chopper gun cuts rolls
of fiberglass into short lengths and sprays resin at the same time, so that the fiberglass and
resin are mixed on the spot. The resin is either external mix, wherein the hardener and resin
are sprayed separately, or internal mixed, which requires cleaning after every use.
The primary element of CFRP is a fibre. From these fibres, a unidirectional sheet is created.
These sheets are layered onto each other in a quasi-isotropic layup, e.g. 0, +60, 60 degrees
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relative to each other. From the elementary fibre, a bidirectional woven sheet can be
created, i.e. atwillwith a 2/2 weave.
[edit]Automotive uses
This unreferencedsection
requirescitationsto
ensureverifiability.
Carbon-fiber-reinforced polymer is used extensively in high-end automobile racing. The
high cost of carbon fiber is mitigated by the material's unsurpassed strength-to-weight ratio,
and low weight is essential for high-performance automobile racing. Racecar manufacturers
have also developed methods to give carbon fiber pieces strength in a certain direction,
making it strong in a load-bearing direction, but weak in directions where little or no load
would be placed on the member. Conversely, manufacturers developed omnidirectionalcarbon fiber weaves that apply strength in all directions. This type of carbon fiber assembly
is most widely used in the "safety cell" monocoque chassis assembly of high-performance
racecars.
Manysupercarsover the past few decades have incorporated CFRP extensively in their
manufacture, using it for theirmonocoquechassis as well as other components.
Cast vinyl has also been used in automotive applications for aesthetics, as well as heat and
abrasion resistance. Most top of the line cast vinyl materials such as 3M's DiNoc (interior
use) and SI's Si-1000 3D (exterior use) have lifespans of 10+ years when installed
correctly.
Until recently, the material has had limited use in mass-produced cars because of the
expense involved in terms of materials, equipment, and the relatively limited pool of
individuals with expertise in working with it. Recently, several mainstream vehicle
manufacturers have started to use CFRP in everyday road cars.
Use of the material has been more readily adopted by low-volume manufacturers who used
it primarily for creating body-panels for some of their high-end cars due to its increased
strength and decreased weight compared with theglass-reinforced polymerthey used for
the majority of their products.
Use of carbon fiber in a vehicle can appreciably reduce the weight and hence the size of its
frame. This will also facilitate designers and engineers' creativity and allow more in-cabin
space for commuters.
[edit]Civil engineering applications
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Carbon-fiber-reinforced polymer (CFRP) has over the past two decades become an
increasingly notable material used instructural engineeringapplications. Studied in an
academic context as to its potential benefits in construction, it has also proved itself cost-
effective in a number of field applications strengthening concrete, masonry, steel, cast iron,
and timber structures. Its use in industry can be either for retrofitting to strengthen an
existing structure or as an alternative reinforcing (or prestressing material) instead of steel
from the outset of a project.
Retrofittinghas become the increasingly dominant use of the material in civil engineering,
and applications include increasing the load capacity of old structures (such asbridges) that
were designed to tolerate far lower service loads than they are experiencing today, seismic
retrofitting, and repair of damaged structures. Retrofitting is popular in many instances as
the cost of replacing the deficient structure can greatly exceed its strengthening using
CFRP.[3]
Applied to reinforced concrete structures for flexure, CFRP typically has a large impact onstrength (doubling or more the strength of the section is not uncommon), but only a
moderate increase in stiffness (perhaps a 10% increase). This is because the material used
in this application is typically very strong (e.g., 3000 MPa ultimatetensile strength, more
than 10 times mild steel) but not particularly stiff (150 to 250 GPa, a little less than steel, is
typical). As a consequence, only small cross-sectional areas of the material are used. Small
areas of very high strength but moderate stiffness material will significantly increase
strength, but not stiffness.
CFRP can also be applied to enhance shear strength of reinforced concrete by wrapping
fabrics or fibers around the section to be strengthened. Wrapping around sections (such asbridge or building columns) can also enhance the ductility of the section, greatly increasing
the resistance to collapse under earthquake loading. Such 'seismic retrofit' is the major
application in earthquake-prone areas, since it is much more economic than alternative
methods.
If a column is circular (or nearly so) an increase in axial capacity is also achieved by
wrapping. In this application, the confinement of the CFRP wrap enhances the compressive
strength of the concrete. However, although large increases are achieved in the ultimate
collapse load, the concrete will crack at only slightly enhanced load, meaning that this
application is only occasionally used.
Specialist ultra-high modulus CFRP (with tensile modulus of 420 GPa or more) is one of
the few practical methods of strengthening cast-iron beams. In typical use, it is bonded to
the tensile flange of the section, both increasing the stiffness of the section and lowering the
neutral axis, thus greatly reducing the maximum tensile stress in the cast iron.
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When used as a replacement for steel, CFRP bars could be used to reinforce concrete
structures, however the applications are not common.
CFRP could be used as prestressing materials due to their high strength. The advantages of
CFRP over steel as a prestressing material, namely its light weight and corrosion resistance,
should enable the material to be used for niche applications such as in offshoreenvironments. However, there are practical difficulties in anchorage of carbon fiber strands
and applications of this are rare.
In the United States, prestressed concrete cylinder pipes (PCCP) account for a vast majority
of water transmission mains. Due to their large diameters, failures of PCCP are usually
catastrophic and affect large populations. Approximately 19,000 miles of PCCP have been
installed between 1940 and 2006. Corrosion in the form of hydrogen embrittlement has
been blamed for the gradual deterioration of the prestressing wires in many PCCP lines.
Over the past decade, CFRPs have been utilized to internally line PCCP, resulting in a fully
structural strengthening system. Inside a PCCP line, the CFRP liner acts as a barrier thatcontrols the level of strain experienced by the steel cylinder in the host pipe. The composite
liner enables the steel cylinder to perform within its elastic range, to ensure the pipeline's
long-term performance is maintained. CFRP liner designs are based on strain compatibility
between the liner and host pipe.[4]
CFRP is a more costly material than its counterparts in the construction industry, glass
fiber-reinforced polymer (GFRP) and aramid fiber-reinforced polymer (AFRP), though
CFRP is, in general, regarded as having superior properties.
Much research continues to be done on using CFRP both for retrofitting and as an
alternative to steel as a reinforcing or prestressing material. Cost remains an issue and long-
term durability questions still remain. Some are concerned about the brittle nature of CFRP,
in contrast to the ductility of steel. Though design codes have been drawn up by institutions
such as the American Concrete Institute, there remains some hesitation among the
engineering community about implementing these alternative materials. In part, this is due
to a lack of standardization and the proprietary nature of the fiber and resin combinations
on the market.
[edit]Sporting goods
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A carbon-fiber andKevlarcanoe (Placid Boatworks Rapidfire at theAdirondack Canoe
Classic)
Carbon-fiber-reinforced polymer has found a lot of use in high-end sports equipment such
asracing bicycles. For the same strength, a carbon fiber frame weighs less than abicycle
tubingofaluminumorsteel. The choice of weave can be carefully selected to maximize
stiffness. The variety of shapes it can be built into has further increased stiffness and also
allowedaerodynamicconsiderations into tube profiles. Carbon-fiber-reinforced polymer
frames,forks,handlebars,seatposts, andcrank armsare becoming more common on
medium- and higher-priced bicycles. Carbon-fiber-reinforced polymer forks are used on
most new racing bicycles. Other sporting goods applications include rackets, fishing
rods,longboards, androwingshells. The large majority of NHL ice hockey players use
carbon-fiber sticks.
Shoe manufacturers use carbon fiber as a shank plate in their basketball sneakers to keep
the foot stable. It usually runs the length of the sneaker just above the sole and is left
exposed in some areas, usually in the arch of the foot.
This material is used when manufacturing squash, tennis and badminton racquets.
Carbon-Graphite spars are used on the frames of high-endsport kites.
In 2006 a company introduced cricket bats with a thin carbon fibre layer on the back which
were used in competitive matches by high-profile players (e.g.Ricky PontingandMichael
Hussey). The carbon fibre was claimed to increase the durability of the bats, however they
were banned from all first-class matches by the ICC in 2007.[5]
Carbon fiber is used in the manufacture of high quality arrows forarchery.
[edit]Aerospace engineering
Much of the fuselage of the new Boeing787 Dreamlinerand AirbusA350 XWBwill be
composed of CFRP, making the aircraft lighter than a comparable aluminum fuselage, with
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the added benefit of less maintenance thanks to CFRP's superior fatigue resistance[citation
needed].
Due to its high ratio of strength to weight, CFRP is widely used inmicro air
vehicles(MAVs). InMAVSTAR Project, the CFRP structures reduce the weight of the
MAV significantly. In addition, the high stiffness of the CFRP blades overcome theproblem of collision between blades under strong wind.
Especially aircraft of the sub-category of microlights (SSDR) take advantage of CFRP.
Those aircraft, such as theE-Go, must comply with a weight less than 115 kg (254 lb)
without fuel and pilot. Creating an aircraft of this class without the usage of CFRP would
be really difficult.
[edit]Other applications
CFRP has also found application in the construction of high-end audio components such as
turntables and loudspeakers, again due to its stiffness.
It is used for parts in a variety of musical instruments, including violin bows, guitar
pickguards, and a durable ebony replacement for bagpipe chanters. It is also used to create
entire musical instruments such asViktorian Guitarscarbon fiber rider models,Luis and
Clarkcarbon fibercellos, and Mix carbon fibermandolins.
In firearms it can substitute for metal, wood, and fiberglass in many areas of a firearm in
order to reduce overall weight. However, while it is possible to make the receiver out of
synthetic material such as carbon fiber, many of the internal parts are still limited to metal
alloys as current reinforced plastics are unsuitable replacements.
CFRP is used, either as standard equipment or in aftermarket parts, in high-performance
radio-controlled vehicles and aircraft, e.g. for the main rotor blades of radio controlled
helicopterswhich should be light and stiff to perform fast aerobatic maneuvers.
Fire resistance of polymers or thermoset composites is significantly improved if a thin layer
of carbon fibers is molded near the surfacedense, compact layer of carbon fibers
efficiently reflects heat.[6]
IBM/Lenovo'sThinkPadlaptops, Dell's XPS13 and several Sony laptop models use this
technology.
Carbon fiber is a popular material to form the handles of high-end knives.
[edit]End of useful life/recycling
Carbon-fiber-reinforced polymers (CFRPs) have a long service lifetime when protected
from the sun. When it is time to decommission CFRPs, they cannot be melted down in air
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like many metals. When free of vinyl (PVC orpolyvinyl chloride) and otherhalogenated
polymers, CFRPs can be thermally decomposed viathermal depolymerizationin an
oxygen-free environment. This can be accomplished in a refinery in a one-step process.
Capture and reuse of the carbon and monomers is then possible. CFRPs can also be milled
or shredded at low temperature to reclaim the carbon fiber, however this process shortens
the fibers dramatically. Just as withdowncycledpaper, the shortened fibers cause the
recycled material to be weaker than the original material. There are still many industrial
applications that do not need the strength of full-length carbon fiber reinforcement. For
example, chopped reclaimed carbon fiber can be used in consumer electronics, such as
laptops. It provides excellent reinforcement of the polymers used even if it lacks the
strength-to-weight ratio of an aerospace component.
Despite its high initial strength-to-weight ratio, one structural limitation of CFRP is its lack
of a fatigue endurance limit. As such, failure cannot be theoretically ruled out from a high
enough number of stress cycles. By contrast, steel and certain other structural metals and
alloys do have an estimable fatigue endurance limit. Because of the complex failure modes
of such composites, the fatigue failure properties of CFRP are difficult to predict. As a
result, when utilizing CFRP for critical cyclic-loading applications, engineers may need to
employ considerable strength safety margins to provide suitable component reliability over
a sufficiently long service life.
[edit]Carbon nanotube reinforced polymer (CNRP)
Carbon nanotubereinforced polymer (CNRP) is several times stronger than CFRP and is
being introduced in theoceed arti - igtig as a structural material.[7]
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