Knowde Enhanced TDS
Identification & Functionality
- Chemical Family
- Polymer Name
- Composite Materials Functions
- Base Weave Material
- Paper
- Resin (binding agent)
- Phenolic
- Technologies
- Product Families
Features & Benefits
- Materials Features
- Product Highlights
LAMITEX® laminated materials provide a unique range of design benefits. LAMITEX® composite laminates are engineering materials made from layers of fibrous reinforcement such as cotton cloth, paper or woven glass cloth, which are bonded together with high quality thermoset plastic resins. The layers are pressed together under high pressure and the resin is baked until it becomes solid, fusing the material into a tough, strong and dense material. Combinations of phenolic, epoxy, melamine or silicon resins saturated and cured in paper, cotton fabric, glass fabric or aramid fiber fabrics offers a range of laminate grades with properties designed for everyday use to the most demanding by today’s technologies.
LAMITEX® laminates combine mechanical strength and electrical insulation with chemical and weather resistance. They are rigid, with a high strength to weight ratio, and most grades can be machined with standard machine tools to make finished components. Franklin offers a comprehensive range of grades for our customers’ diverse applications.
Applications & Uses
- Applications
- Composites End Use
- Plastics & Elastomers End Uses
- Applications
Cryogenic Neck Tubes Cryogenic Pipe Insulation Cryogenic Straw Tubes Cryogenic Structural Supports
Impeder Tubes Antennas Battery Casings Cylinder Tubes High Voltage Fuse Tubes High Voltage Insulators Bushings High Vacuum Pump Vanes
Rotary Compressor Vanes Air Motor Vanes Starter Motor Vanes Pneumatic Tool Vanes
Friction Plates Truck Side Plates Center Pivot Liners Sliding Ways Bearings Thrust Washers Shoe Beams Cams Cam Followers Baffle Plates Arc Chutes Electric Box Liners
Switch Insulation Bus Bar Supports Electrical Terminal Boxes Electrical Grid Bushings
Door Guide Blocks Signage Plates Threshold Plates Truck Cable Clamps
Sleeve Bearings Shaft Bearings Slipper Bearings High-Temperature Sleeves
Neck Bearings Thrust Collar Bearings Spindle Carrier Bearings Model Rocket Tubes
Roll Neck Bearings Bushing Liners Top Roll Rider Bearings Model Rocket Bodies
Flat Back Bearings Rolling Mill Bearings Main Shaft Bearings Artillery Sleeves
Self-Lubricating Bearings Low-Friction Bearings Marine Shaft Bearings Rocket Body Tubes
Rocket Liners Rocket Sleeves Rocket Motor Tubes Rocket Body Sleeves
Angle and Channel Insulation Mounting Boards Insulating Barriers Tap Changer Terminal Board
Tap Changer Shafts Standoff Insulators Intermediate Plates Electrode Arm Insulation
Square Washers Round Washers Split Bushings Disks Angles Bus Tube Insulation Electrode Clamps Split Tubes Isolator Pads Insulating Plugs Bolt Caps Bus Caps Mast Arm Insulation Insulating Saddle Clamp Shoe Access Covers Coil Forms Seals Rollers Saw Guides Guide Rails Conveyor Parts Gears Sprockets Conveyor Springs Slat Springs Vibratory Slats Transfer Deck Wear Strips
Properties
- Flame Rating
- Physical Properties
- Thermal Properties
- Electrical Properties
Value | Units | Test Method / Conditions | |
Bond Strength (0.500 inch thick, Condition A) | 800.0 | lbs | Ꭰ229 |
Bond Strength (0.500 inch thick, D 48/50) | 600.0 | lbs | Ꭰ229 |
Compressive Strength (Flat wise) | 34000.0 | psi | D695 |
Flexural Strength (Cross wise) | 14000.0 | psi | Ꭰ229 |
Flexural Strength (length wise) | 15000.0 | psi | Ꭰ229 |
Izod Impact Strength (0.500 inch thick, notch, cross wise) | 0.4 | ft-lb/in | Ꭰ256 |
Izod Impact Strength (0.500 inch thick, notch, length wise) | 0.5 | ft-lb/in | Ꭰ256 |
Moisture Absorption | max. 1.3 | % | Ꭰ229 |
Rockwell Hardness | 105.0 | Shore M | Ꭰ785 |
Specific Gravity | 1.34 | — | Ꭰ792 |
Tensile Strength (Cross wise) | 13000.0 | psi | D638 |
Tensile Strength (length wise) | 16000.0 | psi | D638 |
Thickness | 0.125 | inch | — |
Value | Units | Test Method / Conditions | |
Coefficient of Thermal Expansion | 20.0 | cm/cm/°C/ x 106 | — |
Flammability Rating | 94-HB | — | UL 94 |
Temperature Index (Electrical) | 130.0 | °C | — |
Temperature Index (Mechanical) | 140.0 | °C | — |
Value | Units | Test Method / Conditions | |
Arc Resistance | 31.0 | seconds | D495 |
Comparative Tracking Index (Pt electrodes) | 344.0 | V | D 3638 |
Dielectric Breakdown Voltage (step x step, D 48/50) | 5.0 | kV | D229 |
Dielectric Breakdown Voltage (step x step, Condition A) | 23.0 | kV | D229 |
Electrical Strength (short time, perpendicular to laminations, Condition A) | 500.0 | Vpm | D 229 |
Electrical Strength (step x step, perpendicular to laminations, Condition A) | 360.0 | Vpm | D 229 |
Maximum Dissipation (1 MHz, Condition A) | 0.045 | — | D 229 |
Maximum Dissipation (1 MHz, D 24/23) | 0.05 | — | D 229 |
Maximum Permittivity (1 MHz, D 24/23) | 6.0 | — | D229 |
Maximum Permittivity (1 MHz, Condition A) | 5.5 | — | D229 |
Regulatory & Compliance
Technical Details & Test Data
- Standards
NEMA LI-1 Grade XX MIL-I-24768 / 11 - PBG EN 60893 PF CP 203 DIN 7735 Hp 2065
Packaging & Availability
- Availability
Grade XX is also manufactured as round tubes (convolute wound), molded channel, angle, square and rectangular tubes and fabricated custom parts.