Our stock carbon fiber plates are fabricated with multiple layers of high strength carbon fiber prepreg using a high pressure molding process. All carbon fiber plates are comprised of:
Outer Material: 2x2 Twill Carbon Fiber Prepreg
Inner Material: 0/90 (Balanced) Unidirectional Carbon Fiber Prepreg
Exterior Finish: Matte/Glossy
Plates can be cut to size or machined to print via CNC milling or waterjet cutting. Just leave your detail request to us, and pricing will be emailed for approval.
Function:Anti-slip, Anti-Static, acid-resistant, alkali-resistant
Place of Origin:Guangdong, China
Model Number:EGT01
Style:ESD Top PU Gloves
Material:Polyester + carbon fiber + PU glue
Size:S/ M/ L
Color:Gray(Carbon fiber)
Wrist:Hot melt or Overlock
Knitting:13 gauge
Feature:Anti-static
Certification:other
The cdm7160 co2 module uses a compact ndir co2 sensor, featuring excellent performance characteristics, including high accuracy and low power consumption. Two detector elements inside the module make absolute measurement possible.
Features
* small size
* low power
* high accuracy
* absolute measurement via dual sensors
Application examples
* indoor air quality control
* fresh air ventilators
* air conditioners
* automatic fans and window openers
Descriptions:
Thermal conductivity graphite film also called graphite heat sinkï¼?is a new cooling material for thermal conductive. Xinst thermal conductivity graphite film is made of natural graphite as the main raw material by the hot pressureï¼?flexible continuous rolling process. The unique grain orientation, and also both l and vertical direction uniform heat conduction, slice layer structure can be well adapt to any surface, shielding the heat source for components of consumer electronic products and improve performance.
Features:
High thermal conductivity: maximum heat conductivity can be 1900 W/m.k for horizontal plane, and three-dimensional heat conduction.
Light weight: 25% lighter than aluminum, 75% lighter than copper.
Soft, flexible to operate, can be easily pasted on both flat and curved surfaces.
Work temperature: max Temp can gain to 400 â??, and min temp can gain to -40â??.
Applications:
Mainly used in IC, CPU, MOS, LED, heat sink, LCD-TV, laptop computers, communications equipment, wireless switches, DVD, handheld devices, video camera/digital cameras, mobile phones
Spherical activated carbon is a material with extensive advantages in various applications, especially in the development of polymer-based spherical activated carbon. Compared to traditional pitch-based and coal-based spherical activated carbon, polymer-based spherical activated carbon exhibits a series of advantages:
1. **High Carbon Content and Low Ash Content**: The high carbon content and low ash content of polymer materials contribute to the purity and performance of the activated carbon.
2. **Good Compressive Strength**: The polymer-based materials provide spherical activated carbon with higher compressive strength, enhancing its durability in various applications.
#### Advantages of Phenolic Resin-Based Spherical Activated Carbon
1. **Simple Process**: The preparation process of phenolic resin-based spherical activated carbon involves the addition of curing agents and pore-forming additives, making the production process relatively simple.
2. **Low Cost**: The production cost is relatively low, providing an economic advantage in commercial applications.
3. **Easily Controlled Pore Size Distribution**: By adjusting the pore-forming additives, the pore size distribution of the activated carbon can be precisely controlled to meet different application needs.
#### Advantages of Ion Resin-Based Spherical Activated Carbon
1. **High Strength**: Ion resin-based spherical activated carbon has higher mechanical strength.
2. **Free of Impurities**: The preparation process avoids the introduction of impurities, resulting in a final product of higher purity.
3. **High Catalytic Activity**: This material exhibits high catalytic activity in catalytic applications.
#### Advantages of New Synthesis Methods
Since the 1990s, scientists have developed methods of synthesizing spherical activated carbon using various polymer materials, which do not require melting and carbonization. This further simplifies the production process and enhances product performance.
In summary, polymer-based spherical activated carbon, particularly phenolic resin-based and ion resin-based spherical activated carbon, demonstrates excellent physical and chemical properties, showing great potential for a wide range of applications.
