Knowde Enhanced TDS
Identification & Functionality
- Chemical Family
- Reinforcement Material
- Composite Materials Functions
- Technologies
- Product Families
Features & Benefits
- Materials Features
Applications & Uses
- Markets
- Applications
- Composites End Use
- Applications
ZOLTEK PX35 carbon fiber has market-leading properties at a market-leading price. ZOLTEK products are increasing the energy output of wind turbines, creating more fuel efficient vehicles, and lifting other industries to new levels of performance.
Automotive - Our cost-effective solutions and our ability to provide long-term price and supply commitments has many automotive manufacturers turning to ZOLTEK as a resource for increasing the efficiency and value-structure of their processes.
Wind Energy - ZOLTEK PX35 carbon fiber is the industry standard for carbon fiber wind energy reinforcement
Friction Resistance - Our carbon braking materials are manufactured to withstand extreme braking conditions that demand resistance to harsh temperature and chemical environments.
Civil Engineering - ZOLTEK PX35 fabrics are often utilized in the repair or upgrade of concrete structures including bridges, columns, and beams.
Marine - Tough, durable carbon composite materials stand up to the extremes of marine environments.
Energy Storage - Carbon fiber based energy storage solutions balance power and energy output with grid demand and allow for energy generation and transmission optimization.
Sporting Goods - The high-strength, high modulus and light-weight properties of carbon fiber have taken sporting goods to the next level of performance.
3D Printing - Our carbon fiber enables the production of cost-efficient filament for the manufacture of structural production parts and prototypes.
Oil & Gas - ZOLTEK’s deepwater products provide less weight and more stiffness and strength to deepwater oil exploration – enabling deepwater systems to operate at depths unreachable with traditional materials.
Pressure Vessels - The benefits of carbon fiber as a light-weight alternative to other materials combined with its durability and corrosion resistance properties have been driving innovation for decades.
Properties
- Typical Properties
| Value | Units | Test Method / Conditions | |
| Areal Weight | 1035 | g/m2 | — |
| Tensile Strength in MD | 0.19 | Mpa | — |
| Thickness | 12 | mm | — |
| Tensile Strength in XMD Direction | 0.34 | Mpa | — |
| Felt Bulk Density | 0.09 | g/cc | — |
| Roll Width | 98 | cm | — |
| Roll Length | 45 | m | — |
| Fiber Diameter | 7 - 9 | μm | — |
| Fiber Density | approx. 1.78 (0.064) | g/cc (lb/in3) | — |
| Carbon Content | approx. 95 | % | — |
| Electrical Resistivity | 6.3 | Ω mm | — |
| BET Surface Area | approx. 1 | m2/g | — |
| Open Porosity | 95 | % | — |
| Elongation in MD / XMD Direction | 41.5 (39.5) | % | — |
| Trace Metals Fe | max. 20 | ppm | — |
| Trace Metals Na | max. 30 | ppm | — |
| Trace Metals Ca | max. 20 | ppm | — |
Packaging & Availability
- Packaging
Wound on cardboard cone, sealed in polyethylene bag, and placed in cardboard box.