Conductivity Nickel Plated Carbon Fiber For Heating Cable
The conductive nickel-plated carbon fiber used for heating cables can double the current carrying capacity of the cable compared to ACSR cables of the same diameter.
The conductive nickel-plated carbon fiber used for heating cables can effectively solve the problem of cable sagging.
The conductive nickel-plated carbon fiber can be used for heating cables to operate at higher temperatures, up to 200 ℃.
1. Product Introduction
The conductive nickel-plated carbon fiber for heating cables is made of carbon fiber that has undergone special surface treatment. The conductive nickel-plated carbon fiber for heating cables has excellent thermal and electrical conductivity, extremely low expansion coefficient, and high electromagnetic shielding performance.
The conductive nickel-plated carbon fiber for heating cables not only has the intrinsic characteristics of carbon materials but also has the processability of fibers and is a kind of reinforcing material.
Therefore, conductive nickel-plated carbon fibers for heating cables have broad application prospects in aerospace and civil fields, and application fields include aerospace, automobile, electronics, machinery, chemical, and other industries.
2. Product Parameter
Item | Test Standard | Unit | Classic Value | |
| Mechanical Properties | Tensile Strength | ISO 11566 | MPa | 3000 |
| Tensile Modulus | ISO 11566 | GPa | 160 | |
| Elongation at break | ISO 11566 | % | 1.3 | |
| Electrical Property | Resistivity | QJ 3074 | Ω cm | 8.23x10-5 |
| Others | Bulk Density | ISO 10119 | g/cm3 | 3.2 |
| Linear Density | ISO 11566 | g/Km | 1630 | |
| Tow | ISO 11566 | ends | 12000 | |
| Filament Diameter | μm | 7.3 | ||
| Coating Thickness | μm | 0.3 | ||
| Nickel Content | % | 50 | ||
| Cross-sectional area | mm2/tow | 0.55 | ||
| Twist | none | |||
3. Product Feature
• Energy saving and environmental protection: Compared with the same type, the heating cable made of conductive nickel-plated carbon fiber for heating cable can save energy by more than 20%. Traditional electric heating materials use metal alloys as electric heating elements, which are prone to electromagnetic radiation after electrification, which will have adverse effects on the elderly, children, and pregnant women. However, heating cables made of conductive nickel-plated carbon fibers for heating cables use non-metallic heating elements. Therefore, no electromagnetic radiation waves harmful to the human body are produced.
• Good health care: the heating cable made of conductive nickel-plated carbon fiber is used to generate far-infrared rays, and the wavelength is 7-14 microns, which can promote and improve the blood circulation of the human body; it is beneficial to eliminate human fatigue and restore body functions, enhance metabolism, improve human immune function.
• Good safety: the heating cable made of conductive nickel-plated carbon fiber has a very low current, and there will be no electric shock even if the human body is in direct contact. Parallel pavement is adopted, and there is no inrush current when starting.
• Practicability: Since the heating cable is made of conductive nickel-plated carbon fiber uses non-metallic material carbon as the heating element, it can ensure that the heating element is oxidized at low temperatures, and the service life can be guaranteed to be more than 50 years.
• Strong pressure resistance and bending resistance: the heating cable made of conductive nickel-plated carbon fiber for heating cables can be bent 50,000 times (national standard 10,000 times) (30 times/min) under the working state of the energized circuit with a working current of 50 mA There is no damage to the carbon fiber and cladding material.
4. Product Details
Conductive nickel-plated carbon fiber cores for heating cables are resistant to corrosion and have no bimetallic corrosion problems.
Conductive nickel-plated carbon fiber for heating cables can provide higher current-carrying capacity for cables, so it also effectively reduces engineering costs.
The conductive nickel-plated carbon fiber high-strength core for heating cables can effectively reduce the number of cable racks or reduce the height of cable racks.
Conductive nickel-plated carbon fiber for heating cables can effectively reduce cable sagging and make ground creatures safer.
Conductive nickel-plated carbon fiber for heating cables can reduce power loss during transmission, reduce 20 towers, save land, reduce non-ferrous metal resource consumption, and help construct a safe, environmentally friendly, efficient, and energy-saving transmission network.
Conductive nickel-plated carbon fiber for heating cables can be used for the strengthening core of cables that require load bearing and are not easy to damage internal components, such as submarine optical cables. Conductive nickel-plated carbon fibers for heating cables can withstand low temperatures of -180°C. Under these conditions, many materials become very brittle, and even solid steel becomes more brittle than glass. Conductive nickel-plated carbon fibers for heating cables are Still very soft under these conditions. Therefore, conductive nickel-plated carbon fibers for heating cables can be used in the design and manufacture of power transmission carriers under extremely cold conditions (such as Antarctic research, etc.).
Conductive nickel-plated carbon fiber for heating cables can withstand high temperatures of 3000°C to 3500°C. At this high temperature, the best heat-resistant steel also turns into molten steel, but in the absence of oxygen, the conductive nickel-plated carbon fiber for heating cables remains unchanged.
Conductive nickel-plated carbon fiber for heating cables will not burst even if it is rapidly cooled from a high temperature of 3000 ° C to room temperature, so it can work in a rapidly cooling and rapidly heating environment. This provides the possibility for the design of cables for high-temperature and ultra-high-temperature applications in industries such as iron and steel, metallurgy, and boilers. In addition, conductive nickel-plated carbon fibers for heating cables can be used in the design and selection of fire-fighting cable products.
