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Description: Mitsubishi Chemical Carbon Fiber and Composites, Inc. manufacturing facility utilizes advanced, highly efficient production equipment and technology. This enables us to provide our customers with the advanced composite materials they require. Our facility can process
- Applications: Aerospace, Industrial OEM, Other
- Use Temperature: 450 F
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Supplier: Arnold Magnetic Technologies
Description: operates up to 170°C WRAPTITE MATERIALS OPTIONS Wraptite composite materials include carbon fiber, Zylon fiber and glass fiber composites using a range of epoxy, cyanate ester and BMI-based resin systems. Our technology includes the winding of
- Chemical / Polymer System Type: Specialty / Other
- Cure Type / Technology: Specialty / Other
- Form / Function: Encapsulant / Potting Compound
- Industry Applications: Aerospace, Automotive, OEM / Industrial, Other
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Supplier: Sandvik Coromant Co.
Description: : CFRP fiber rich materials – CoroDrill 854 CFRP/Aluminum stacked materials – CoroDrill 854 CFRP resin rich materials – CoroDrill 856 Composite materials with, for example, glass layers – CoroDrill 856 BMI – high-temperature resistant
- Coating / Finish: Coated
- Construction: Solid Construction
- Cutting Application: Aluminum, Bronze / Brass / Copper, Plastic, Other
- Cutting Diameter: 0.1570 to 0.5000 inch
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Supplier: APEX Machine Tool Company
Description: ---parti cularly highly detailed, complex parts. Having a team of professionally seasoned tool designers and toolmakers intimately familiar with the materials used in composite structures—such as carbon fiber, fiberglass, toughened epoxy, BMI, Polyimide and one-part epoxy
- Industry Served: Aerospace, Electrical / Electronics, Industrial, Marine, Medical, Military, Optical, Semiconductor
- Location: North America, United States Only, Northeast US Only
- Mold Type: Compression Molding, Permanent Mold Casting, Powder Metal Molding, Sand Casting, Thermoforming, Transfer Molding
- Services: Model Making, Mold Texturing, Production Facilities, Repair and Maintenance, Prototyping, CAD/CAM Support, Design Assistance
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Transportation & Automotive TORAYCA® brand carbon fiber and composite materials are recognized worldwide as the benchmark in performance and quality. TORAYCA® carbon fiber and composite materials offer (read more)
Browse Specialty Fibers, Fabrics, and Textiles Datasheets for Toray Composite Materials America, Inc. -
Mitsubishi Chemical Carbon Fiber and Composites offers one of the most diverse carbon fiber product ranges on the market today. Our carbon fibers are available in filament counts ranging from 2K to 60K, in both PAN-based and Pitch-based technologies. Carbon fibers are stronger than steel and (read more)
Browse Carbon Fiber and Carbon Fiber Cloth Datasheets for Mitsubishi Chemical Carbon Fiber and Composites, Inc. -
Mitsubishi Chemical Carbon Fiber and Composites, Inc.
Mitsubishi Chemical Carbon Fiber and Composites
Mitsubishi Chemical Carbon Fiber and Composites, Inc. manufacturing facility utilizes advanced, highly efficient production equipment and technology. This enables us to provide our customers with the advanced composite materials they require. Our facility can process nearly every high (read more)
Browse Carbon Fiber and Carbon Fiber Cloth Datasheets for Mitsubishi Chemical Carbon Fiber and Composites, Inc. -
Sports TORAYCA® carbon fiber and composite materials are proven solutions for the demanding and competitive nature of sports and recreational applications. Our materials take athletic equipment to new levels by enhancing performance (read more)
Browse Composites and Composite Materials Datasheets for Toray Composite Materials America, Inc. -
Watch>>>About Toray Composite Materials America Toray Composite Materials America, Inc. (CMA) Toray Composite Materials America, Inc. (CMA) is proud to be a (read more)
Browse Carbon Fiber and Carbon Fiber Cloth Datasheets for Toray Composite Materials America, Inc. -
, which conventionally has been realised by use of shrunk metallic sleeves. Most recently, markets have started to consider the use of composites for retention of surface mounted magnets, and we will review material selection options for magnet retention and discuss pros and cons of each with (read more)
Browse Industrial Magnets Datasheets for Arnold Magnetic Technologies -
the world’s first commercial manufacturer of polyacrylonitrile (PAN)-based carbon fibers, since 1971, and Toray Composite Materials America, Inc., has been producing TORAYCA® carbon fibers in Decatur, Alabama, since 1999, and recently expanded to Spartanburg, South Carolina, as well (read more)
Browse Carbon Fiber and Carbon Fiber Cloth Datasheets for Toray Composite Materials America, Inc. -
Plant Toray Composite Materials America, Inc., the leading manufacturer of advanced composites, celebrates the commissioning of the upgraded carbon fiber production line in its Decatur, Alabama, facility. The $15 million upgrade doubles the production capacity of the (read more)
Browse Specialty Fibers, Fabrics, and Textiles Datasheets for Toray Composite Materials America, Inc. -
Engineered Materials, a subsidiary of PPG's aerospace division
Protect Carbon Fiber Aircraft Surfaces
light-weight composite materials. The new generation of aircraft utilizes carbon fiber for major structures including the fuselage, wing, engine nacelles, flaps, wing tips, and even rotary blades and fuselage on helicopters. Composites, however, are poor conductors of electrical current. Without proper (read more)
Browse Lightning Protection Systems Datasheets for Engineered Materials, a subsidiary of PPG's aerospace division -
T300 STANDARD MODULUS CARBON FIBER Baseline carbon fiber with a 40-year production history and is known for its balanced composite properties, high quality, consistency, reliability and (read more)
Browse Carbon Fiber and Carbon Fiber Cloth Datasheets for Toray Composite Materials America, Inc.
More Information Top
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Carbon Fiber–Bismaleimide Composites Filled with Nickel‐Coated Single‐Walled Carbon Nanotubes for Lightning‐Strike Protection
1587.2 Ni-SWNTs BMI carbon fiber composite before lightning strike .
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Mechanisms of degradation of polymer composites by galvanic reactions between metals and carbon fiber
It has been known that the presence of moisture and salts and contact between unprotected metals and BMI carbon fiber compos- ites constitute prerequisite conditions for composite degradation.
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Proceedings of the American Society for Composites 2013-Twenty-Eighth Technical Conference
Isothermal oxidation of carbon fiber BMI composite panels was conducted inside a convection temperature chamber for ~1000 hours at 260 °C in air.
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The effect of thermal stability of carbon nanotubes on the flame retardancy of epoxy and bismaleimide/carbon fiber/buckypaper composites
Abstract Single-walled carbon nanotube (SWCNT) and multi-walled carbon nanotube (MWCNT) membranes (buckypaper) were incorporated onto the surface of epoxy and bismaleimide ( BMI ) carbon fiber composites .
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Effect of organo-montmorillonite on mechanical properties of bismaleimide composites reinforced by glass fibre and carbon fibre
It is also interesting to note that the maximum ILSS increased 19?1% for the carbon fibre / BMI composite , whereas it increased 38?3% for the glass fibre/BMI composite.
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Study on the Processibility of BMI for RTM Process and Mechanical Performance of Carbon Fiber Three-Dimension and Five-Direction Braided/BMI Composites
The Effect of Thermal Aging on Tensile Strength of Three-Dimension and Five-Direction Braided Carbon Fiber / BMI Composites .
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The Effect of Thermal Aging on Tensile Strength of Three-Dimension and Five-Direction Braided Carbon Fiber/BMI Composites
• The Effect of Thermal Aging on Tensile Strength of Three-Dimension and Five-Direction Braided Carbon Fiber / BMI Composites p.1139 .
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Effect of Thermal-Oxidative Aging on the Mechanical Properties of Carbon Fiber Reinforced Bis-Maleimide Composites
The effects of thermo-oxidative aging on mechanical properties of carbon fiber reinforced BMI composites were investigated by SEM with the combination of flexural strength test and inter-laminar shear strength (ILSS) test.
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Fundamental investigation of cure‐induced microcracking in carbon fiber/bismaleimide cross‐ply laminates
Through extensive research over the past ten years, we have identified the critical network structure-prop- erty interrelationships (reviewed below) and most likely environmental-induceddamage mechanisms for these carbon fiber / BMI composites (2,6-8, 11).
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Preparation of Z-Pin from Different Resin and Evaluation of Interlaminar Reinforcement Effect by Pullout Test
The Effect of Thermal Aging on Tensile Strength of Three-Dimension and Five-Direction Braided Carbon Fiber / BMI Composites .