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OC® Chopped Strands and Milled Fibers are reinforcements used in thermoplastic and thermoset applications for excellent dimensional stability, shrinkage control, high modulus and chemical resistance. OC® Chopped Strands are cut to a specified length and engineered to improve processing productivity, exceeding the flowability of competitive chopped strands. Unlike chopped strands, OC® Milled Fibers are hammer milled to a specific density to meet customer processing needs. Thermoplastic and thermoset applications include under-the-hood automotive components and appliance housings.
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Chopped strands ER 2011 are made of boroaluminosilcate glass, comprising less than 1% alkalies. It is characterized by good strand integrity. Chopped strands are not stuck together, and their ends are not fuzzy. Chopped strands have the same, repeatable length of fibre sections. The size type put on the filament enables to process it with non-saturated polyester resins as well as phenolic and melamine ones. Chopped strands ER 2011 are for producing polyester moulding compounds of DMC and BMC type. Products made of these compounds can be formed by pressing or injection. Chopped strands ER-2011 can be used to produce articles from phenolic, amino resins and poly-amides as their reinforcement.
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AGY's 401 S-2 Glass Chopped Strands are a unique product developed to meet the needs of the ceramic reinforcement market, as well as other high performance filler materials applications.
The 401 S-2 Glass chopped strands consist of numerous E to L filament continuous fibers cut into short pieces of consistent length. The standard length for the chopped strand product is ¼", or 6.4mm. Other lengths can be produced to order, but are considered non-standard products. The 401 size chemistry designation is applied to the chopped strand fibers. This chemistry is a multi-compatible size, suitable for use in epoxy, urethane, phenolic, and polyamide resin systems, and is also compatible with standard ceramic slurry processes. The 401 S-2 Glass Chopped Strands are designed for use in a variety of processes including compound molding, injection molding, and ceramic casting.
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OC� Milled Fibers are glass fibers, coated with a specific sizing to enhance resin compatibility, and then milled to a specific bulk density. OC� Milled Fibers are produced in two general product forms - powder and floccular - and are used in both thermoplastics and thermosets. In the powder form, molders obtain good flowability with a high bulk density, and benefit from increased productivity and lower manufacturing costs. Molders looking for lower bulk density use the floccular product form with longer glass filaments. Both product forms offer excellent dimensional stability, shrinkage control, high modulus and acid resistance in applications.
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Mat EM 1002 with densities of 100, 150, 225 g/m2 is manufactured from chopped strands made of glass fibre bound together with an emulsion binder and drawn from E glass containing less than 1% of alkalies. The diameter of filament is 9 µm. The mat has a reduced strand linear density (tex) and the surface weight (density) comparing to the standard emulsion mat. It is very soft and it sets very well in a mould taking perfectly its very complicated shapes. It is characterised by a medium wet-out rate in a non-saturated polyester resin and by a good ability to remove air in the process of lamination.
Application
Emulsion bound mat EM 1002 with surface weights of 100 g/m2,150 g/m2 225 g/m2 is suitable for making laminates in a contact process. It is used with all types of non-saturated polyester resins for manufacturing products reinforced with glass fibre. It suites especially for manufacturing gel coated products as their reinforcement. It is also particularly recommended as the external layer of laminate in case of products with improved aesthetics of the surface.
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OC® Chopped Strand Mats consist of chopped glass fibers bonded together using either an emulsion binder or a polyester powder. The mats are designed to be compatible with unsaturated polyester, vinyl ester and a variety of other resins. OC®Chopped Strand Mats are used as gel-coat backups and standard laminate reinforcements for most contact molding (hand lay-up) applications, including boats, surfboards, panels, tanks and other diverse applications. Their many excellent product characteristics have been used to provide superior performance in a broad range of end-use markets such as marine, transportation, recreation, construction, consumer and anti-corrosion
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OC® Continuous Filament Mats are continuous glass fiber, non-woven mats containing an insoluble binder for unsaturated polyester and polyurethane resin compatibility in unfilled or filled resin systems. OC® Continuous Filament Mats are particularly suitable for compression molded electrical and non-electrical laminates, as well as for use in pultrusion processes.
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CFM is made from continuous fiberglass strands randomly looped and bonded together with a minimal binder that is compatible with a variety of unfilled or filled resin systems including PE/PV, PE/PU, Phenolic, PU, PU/Epoxy.
Key Features:
* Roll Slitting - mat rolls can be easily slit into various widths.
* Wet-Through/Porosity - offers little resistance to resin flow to allow for easy and complete resin impregnation, resulting in high line speeds.
* Excellent Wet-Out - improves the ability to coat individual glass filaments and strands.
* Mat Strength - resists being pulled apart under tension during impregnation and molding.
* Manageable - can be unrolled, cut and conveyed to the mold or die without losing its integrity.
Applications:
CFM is used in many FRP applications such as pultrusion, high pressure laminating, vacuum infusion, and several fiberglass-molding processes (SRIM/RTM, etc.). It is particularly suitable for compression molded electrical and non-electrical laminates. Pultruded shapes made with AGY CFM have outstanding transverse- and random-direction strength. Typical applications include electrical flat sheet, grading and railings, window frames, boat hulls and transoms, cooling tower structural shapes and ladder rails.
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The Camfil Farr Hi-Flo® offers high efficiency grade filtration to address today's indoor air quality problems. The Hi-Flo can remove contaminants such as fumes, smoke, bacteria, fungi and virus-bearing droplet nuclei. The Hi-Flo is the filter of choice for the removal of nuisance contaminants such as pollens, paper dust and other atmospheric impurities.
The Camfil Farr Hi-Flo incorporates high lofted air laid micro fiber glass media to ensure reliable efficiency throughout the life of the filter. Equipped with a high quality filter material, with small fiber diameter and uniform lofting, it guarantees a consistent and reliable sub-micron particle capture throughout its lifetime. Synthetic micro mesh media backing ensures media protection and support in turbulent or varying airflows.
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MIST COLLECTOR GT Fiberglass filter media
MODEL No mist
FILTRATION CLASS G3
INITIAL PRESSURE DROP ( Pa ) 40-55 Pa
FINAL PRESSURE DROP ( Pa ) 250 Pa
FIRE RESISTANCE Classe F1 Sec.DIN 53438
MAX OPERATING TEMPERATURE >120°C
RELATIVE HUMIDITY 100%
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Glass Fibre Filter Media
The ACS glass fibre media are manufactured using computer controlled spunbonded technology producing media, that are of consistent high quality with a progressive density and high dust holding capacity with very low initial pressure loss. The media are suitable for use in high dust applications as primary filters, in H & V installations, as extract filters for paint overspray or as inlet filters for gas turbine installation
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LydAir® MG are non-woven, wet laid filter media for use in pleated air filters. Lydair MG media are comprised primarily of glass micro fibers and are produced with a wet laid process similar to those used for the production of paper. Available efficiencies range from 45% ASHRAE to ULPA (99.995%+). Providing 100% mechanical efficiency, Lydair MG does not rely on an electrostatic charge and will not loose efficiency over time. Specially engineered to provide the highest available efficiency at a minimal resistance to air flow, LydAir® MG is chosen for applications where guaranteed efficiency and consistency is a must and reduced energy costs can provide a distinguishable competitive advantage.
LydAir® MG products may be laminated for applications requiring increased physical strength
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ISOVAL® 11 is prepared from glasscloth impregnated with the temperature resistant version of the ISOVAL® epoxy system. Laminates exhibit excellent thermal and chemical resistance as well as high mechanical strength at elevated temperatures.
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Hexcel has produced more than 700 varieties of honeycomb over the past 60 years. Today, HexWeb® honeycomb is available in a wide range of materials and cell configurations, and additional products are continually developed in response to new uses for honeycomb sandwich construction.Hexcel not only supplies honeycomb in blocks or sheet form. We also supply honeycomb sandwich panels for aerospace and industrial applications. Hexcel also supplies Engineered Core honeycomb parts, manufactured to customer specifications in tight tolerances using Hexcel's honeycomb expertise.
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3-dimensional fibreglass reinforcements, Nida-Fusion STO complexes are composed of a sheet of closed-cells foam covered with a reinforcing fibre layer on each side. These three elements are linked together by fiberglass bridging strands, which go through them obliquely, forming triangulations Truss Network.
For a very competitive price, Nida-Fusion STO complexes allow you to build sandwich constructions offering :
Very good flexural strength,
Excellent fatigue and delaminating resistance,
Good high temperature and fire resistance,
Shaped structures with thickness variations,
Excellent thermal insulation
Nida-Fusion STO is patented and is offered in 2 variations :
Nida-Fusion STO complexes made of rigid foam and used for the production of planar structures without thickness variation,
Nida-Fusion STF complexes made of flexible foam and used for shaped structures with thickness variation..
Nida-Fusion STO complexes can be tailored exactly to your needs (Foam, choice and weight of reinforcements, orientation and spacing of the triangulations), and are made to order.
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INSULATION PADS - for hot surfaces.
Thermal Insulation Pads are ideal for gas turbines, valves, filters, meters and other accessories in a process line. They insulate the hot surface, ensuring energy conservation, protection of operators and providing comfortable work environment. These are typically used as a backing over the heating jacket or heating panel, to ensure better heat efficiencies and minimal energy loss is minimal.
The flexible construction of 'Thermo Insulation Pads' enables tailoring to any complex shapes and providing a perfect, snug fit on complex shaped surfaces.
Construction
Insulation pads consist of 2" thick (or as required) lagging of fibre glass wool insulation, embedded in two layers of fibre glass cloth. Outer layer of fibre glass cloth can be flame retardant aluminized or PVC coated or Teflon coated as required.. The final pad is shaped based on the required surface to be insulated to encapsulate the surface or equipment in it. Required cutouts for obstructions and velcrow or eyelets and strapping lays are provided to make it snug fit on the surface or equipment.
Range
Insulation pads are designed for a maximum surface temperature of 300ºC.
Every Insulation pad is custom designed based on customer requirement.
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The base component of the new façade system VARIOPLANplus is our fibreglass, a composite material, highly valued for challenging applications in the aviation and aerospace industry.
The high level of translucence of the fibreglass twin-walled panels allows light far into the interior of the room, without glare and whilst completely absorbing harmful UV-radiation. Pleasant working environments are created and lighting expenses can be considerably reduced.
VARIOPLANplus is a progressive solution, with a thermally separated profile system as well as optimised thermal and acoustic insulation, enabled by the twin-walled fibreglass panels. While large window fronts heat inside areas quickly, VARIOPLANplus provides a pleasant and well-balanced working temperature.
Aluminium and fibreglass, utilised in VARIOPLANplus, are rigid, lightweight materials which make it possible to achieve self-supporting elements without disturbing supporting constructions.
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