-
Supplier: Mid-Mountain Materials, Inc.
Description: Mid-Mountain manufactures textiles designed for use as thermal seals and barriers for high temperature applications in moderate to severe environments. In 1976, we began manufacturing Channel Tapes and Tadpole Tapes for use as seals in gas fireplaces and pellet stoves. Since then, we have
- Applications: Chemical Process, Fire Proofing / Thermal Protection, Other
- Overall Thickness: 0.0600 to 0.2500 inch
- Overall Width / OD: 0.1250 to 40 inch
- Structural Features: Chemical / Fuel Resistant, Thermal Insulation / Fireproofing
-
Supplier: ASTM International
Description: 1.1 This specification covers chopped carbon-fiber reinforced (CFR) polyetheretherketone (PEEK) polymer in pellets, filaments used in additive manufacturing, or fabricated forms. It provides requirements and associated test methods for these thermoplastic composites when they are to be
-
Supplier: MCA - Advanced Materials Division
Description: ultra high strength carbon fiber + PEEK injection molding compound” No stock shapes offered, only injection molding pellets.
- Chemical / Polymer System Type: PEEK
- Compound Type: Pellets
- Elongation: 1.8 %
- Industry: Tooling / Molds
-
-
Supplier: MCA - Advanced Materials Division
Description: ultra high strength carbon fiber + PPA injection molding compound” No stock shapes offered, only injection molding pellets.
- Chemical / Polymer System Type: Aramid
- Compound Type: Pellets
- Elongation: 1.1 %
- Industry: Tooling / Molds
-
Supplier: MCA - Advanced Materials Division
Description: ultra high strength carbon fiber + nylon base injection molding compound” No stock shapes offered, only injection molding pellets.
- Chemical / Polymer System Type: Polyamide / Nylon
- Compound Type: Pellets
- Elongation: 2.8 %
- Industry: Tooling / Molds
-
Supplier: MCA - Advanced Materials Division
Description: ultra high strength carbon fiber + hi-temp PPA injection molding compound” No stock shapes offered, only injection molding pellets.
- Chemical / Polymer System Type: Aramid
- Compound Type: Pellets
- Elongation: 1.1 %
- Industry: Tooling / Molds
-
Supplier: Victrex PLC
Description: High performance thermoplastic material, 30% carbon fiber reinforced Poly Ether Ether Ketone (PEEK), semi crystalline, granules for injection molding and extrusion, low flow, FDA food contact compliant, color black. Typical Application Areas: Applications for higher strength and
- Chemical / Polymer System Type: PEEK
- Compound Type: Molding Resin
- Deflection Temperature (@ 264 psi, 1.8 MPa): 333 F
- Elongation: 1.9 %
-
Supplier: Victrex PLC
Description: High performance thermoplastic material, 30% carbon fiber reinforced Polyether Ketone (PEK), semi crystalline, granules for injection molding, standard flow, color black. Typical Application Areas: Higher temperature applications for higher strength and stiffness in a static
- Chemical / Polymer System Type: PEEK
- Coeff. of Thermal Expansion (CTE): 5 to 90 µin/in-F
- Compound Type: Extrusion Grade Resin, Molding Resin
- Deflection Temperature (@ 264 psi, 1.8 MPa): 368 F
-
Supplier: Victrex PLC
Description: High performance thermoplastic material, 30% carbon fiber reinforced Poly Ether Ketone Ether Ketone Ketone (PEKEKK), semi crystalline, granules for injection molding, standard flow, color black. Typical Application Areas: Applications for higher strength and stiffness at
- Chemical / Polymer System Type: PEEK
- Coeff. of Thermal Expansion (CTE): 10 to 95 µin/in-F
- Compound Type: Extrusion Grade Resin, Molding Resin
- Deflection Temperature (@ 264 psi, 1.8 MPa): 383 F
-
Supplier: Victrex PLC
Description: High performance thermoplastic material, 40% carbon fiber reinforced Poly Ether Ether Ketone (PEEK), semi crystalline, granules for injection molding, easy flow, color black. Typical Application Areas: Complex geometries with thinner cross sections or longer flow length
- Chemical / Polymer System Type: PEEK
- Coeff. of Thermal Expansion (CTE): 1 to 80 µin/in-F
- Compound Type: Extrusion Grade Resin, Molding Resin
- Deflection Temperature (@ 264 psi, 1.8 MPa): 349 F
-
Supplier: Custom Processing Services, Inc.
Description: readily scalable for full-scale production. Compounding Extruder Applications Continuous processes with high energy consumption Mixing and dispersing of pigments and additives Reinforcement with glass, carbon and other fiber materials Degassing of volatile
- Materials: Acrylic, Fiberglass, Polycarbonate, Polyethylene (PE, HDPE), PETG, Polypropylene (PP), Polystyrene, PPE/PPO, PTFE (Teflon®), Polyurethane / Urethane, PVC
- Processes: Other
- Regional Preference: North America, United States Only, Northeast US Only
- Services: High Volume Production
Find Suppliers by Category Top
More Information Top
-
Enhanced Sulfur Removal of Coal Via Carbon Fiber Production
Effects of increasing pressure on the resistivity and density of a pelletized carbon fiber sample.
-
Shielding effectiveness of carbon‐filled nylon 6,6
Akzo Nobel’s Fortafil 243 PAN-based 3.2 mm chopped and pelletized carbon fiber was used to improve the electrical and thermal con- ductivity and the tensile strength of the resin.
-
Thermally conductive carbon filled nylon 6,6
Akzo Nobel’s Fortafil 243 PAN based 3.2 mm chopped and pelletized carbon fiber was used to improve the electrical and thermal conductivity and the tensile strength of the resin.
-
Electrical conductivity of carbon filled nylon 6,6
cussed elsewhere.14,18,19 Akzo Nobel’s Fortafil 243 PAN based 3.2 mm chopped and pelletized carbon fiber was used to improve the electrical and ther- mal conductivity and the tensile strength of the resin.
-
In‐plane thermal conductivity modeling of carbon‐filled liquid crystal polymer–based resins
Fortafil 243 is a polyacrylonitrile-based 3.2-mm chopped and pelletized carbon fiber that is often used to improve the electrical and thermal conductivity and the tensile/ flexural strength of the resin.
-
Tensile modulus modeling of carbon‐filled liquid crystal polymer composites
Fortafil 243 is a poly- acrylonitrile (PAN) based 3.2 mm chopped and pelletized carbon fiber that is often used to improve the electrical and thermal conductivity and the tensile strength of the resin.
-
Thermal conductivity models for single and multiple filler carbon/liquid crystal polymer composites
Fortafil 243 is a polyacrylonitrile (PAN) based 3.2 mm chopped and pelletized carbon fiber that is often used to improve the electrical and thermal conductivity and the tensile strength of the resin.
-
Effects of carbon fillers on the thermal conductivity of highly filled liquid‐crystal polymer based resins
Fortafil 243 is a polyacrylonitrile-based, 3.2-mm chopped and pelletized carbon fiber that is often used to improve the electrical and thermal conductivities and tensile strengths of resins.
-
Synergistic effects of multiple carbon fillers on the rheology of liquid crystal polymer based resins
Fortafil 243 is a polyacrylonitrile based 3.2-mm chopped and pelletized carbon fiber that is often used to improve the electrical and thermal conductivity and the tensile strength of the resin.
-
Synergistic effects of carbon fillers in electrically and thermally conductive liquid crystal polymer based resins
Fortafil 243 is a polyacrylonitrile (PAN) based 3.2 mm chopped and pel- letized carbon fiber that is often used to improve the elec- trical and thermal conductivity and the tensile strength of the resin.
Indicates content that may require registration and/or purchase.