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Black silicone tube 8x10

Black silicone tube 8x10
Black silicone tube 8x10
Black silicone tube 8x10
Black silicone tube 8x10
Black silicone tube 8x10
Black silicone tube 8x10
Black silicone tube 8x10
Black silicone tube 8x10
Black silicone tube 8x10
Material:Silicon
Size:8mm x 10mm
Hardness (Shore A):50-75°
Minimum length:50m
Full coil length:100m
Colour:Back
Estimated delivery:8 to 10 working days
  • Stock: In Stock
  • Model: TDSi-S8x10-RPi10x8Si
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Thermal Silicone Tubing

Thermal silicone tubing, also known as silicone heat transfer tubing, is a type of material used for heat transfer in electronic and thermal applications. It is used to enhance cooling efficiency and heat transfer between electronic components and cooling surfaces.

Thermal silicone tubing is typically made from high-quality silicone material that has good thermal conductivity and high heat resistance. This material is flexible and can be bent and cut into various sizes to fit specific application requirements.

Thermal silicone tubing usually has the following characteristics:

1. Good thermal conductivity: Silicone tubing has high thermal conductivity, allowing heat to efficiently transfer from one component to another.

2. Heat resistance: Silicone has high heat resistance, allowing it to be used in high-temperature applications.

3. Flexibility and ease of use: Silicone tubing can be bent and cut to the required size, making it easy to install and suitable for specific requirements.

4. Insulation: Silicone has electrical insulation properties, preventing unwanted electrical conductivity between components.

Thermal silicone tubing is widely used in thermal applications, especially in electronic cooling. It has good heat transfer capability, helping to increase cooling efficiency and protect critical components from overheating.

Thermal silicone tubing comes in various sizes and shapes to fit specific application requirements. It can be bent and cut to the required size for installation in different positions within the cooling system.

In summary, thermal silicone tubing is a versatile and efficient material for heat transfer in thermal applications. With its good heat transfer capability, flexibility, and ease of use, it helps increase cooling efficiency, protect electronic components, and create tight connections in the cooling system.

Specifications of Thermal Silicone Tubing
The specifications of thermal silicone tubing can vary depending on specific requirements and applications. Here are some important parameters and typical specifications of silicone tubing:
1. Inner diameter (ID): This is the inner diameter of the silicone tubing, determining the flow rate and the size of electronic components that can be connected to the tubing.
2. Outer diameter (OD): This is the outer diameter of the silicone tubing, determining the overall size of the tubing and its fit into specific positions within the cooling system.
3. Thickness: The thickness of the silicone tubing determines its durability and ability to withstand thermal pressure. Thickness is typically specified in millimeters (mm).
4. Length: The length of the silicone tubing can be cut into various segments to fit the requirements and design of the system. The measurement unit is typically millimeters (mm) or meters (m).
5. Color: Thermal silicone tubing is often transparent, but it can also be available in different colors depending on specific requirements.
6. Insulation properties: Silicone tubing usually has an outer insulation layer to prevent direct contact with electronic components. The insulation properties can be specified to ensure safety and prevent unwanted electrical conductivity.
The specific specifications of thermal silicone tubing can vary depending on the manufacturer and specific application. For detailed information on the specifications of silicone tubing, it is recommended to refer to the technical specifications provided by the manufacturer or supplier.
Specific specifications of thermal silicone tubing may include specific technical parameters, such as:
1. Temperature range: This is the temperature range in which the silicone tubing can safely operate. This parameter typically includes the maximum and minimum temperatures that the tubing can withstand without damage or performance degradation.
2. Hardness: The hardness of silicone tubing indicates its resilience and flexibility. This is important to ensure that the tubing can be bent and adapted to different structures and shapes within the system.
3. Thermal conductivity: The thermal conductivity of silicone tubing determines its ability to transfer heat from electronic components to cooling surfaces. This parameter is typically measured in W/m·K (watts per meter · Kelvin).
4. Insulation capability: Thermal silicone tubing usually has a protective insulation layer to prevent direct contact with electronic components. This parameter determines the insulation capability of the tubing, ensuring safety and preventing unwanted electrical conductivity.
5. Standard sizes: There are standard size specifications for thermal silicone tubing, such as specific diameters and thicknesses. These standards help ensure compatibility and interchangeability between tubing and other components within the cooling system.
6. Certifications and standards: Thermal silicone tubing may comply with standards and certifications related to safety and performance. For example, it may be certified according to ISO quality standards or comply with regulations related to the environment.
Specific specifications of thermal silicone tubing will vary depending on the application and manufacturer. Therefore, when purchasing silicone tubing, it is important to check the specific technical specifications of the product from the supplier.
Uses of Silicone Tubing
Thermal silicone tubing has several important uses in electronic and thermal temperature applications. Here are some key uses of silicone tubing:
1. Electronics cooling: Thermal silicone tubing is used to transfer heat and cool electronic components such as processors, LED lights, electronic circuits, power modules, and hard drives. It helps efficiently dissipate heat, reduce the operating temperature of components, and protect them from overheating.
2. Heat dissipation: Thermal silicone tubing is used in heat dissipation systems to transfer heat from hot components to heat sinks or cooling surfaces. It enhances cooling efficiency and prevents damage from overheating.
3. Connection and insulation: Thermal silicone tubing provides a physical connection between electronic components and cooling or heat sink surfaces. It ensures tight contact and optimizes heat transfer. Additionally, the protective insulation layer on the silicone tubing prevents direct contact between electronic components, reducing the risk of unwanted electrical conductivity.
4. Heat conduction: Thermal silicone tubing can also be used to conduct heat from one location to another within a system. For example, it can conduct heat from a hot component to a further heat sink or cooling surface.
5. Other thermal technology applications: In addition to electronics, thermal silicone tubing is used in various thermal technology fields such as refrigeration systems, air conditioning systems, automotive industry, and other applications related to heat transfer and cooling.
• Automotive industry: In the automotive industry, thermal silicone tubing is used in engine cooling systems and cooling systems for other parts such as transmissions, drivetrains, and air conditioning systems. Silicone tubing helps efficiently transfer heat and cool components, while withstanding harsh conditions such as high temperatures and chemical resistance.
• Shipbuilding industry: In industrial shipbuilding applications, thermal silicone tubing is used to cool machinery systems, refrigeration systems, and propulsion systems. They ensure efficient heat transfer and maintain the cooling performance of critical equipment and systems on board.
• Energy industry: In industrial energy applications, thermal silicone tubing is used to transfer heat and cool systems in thermal power plants, HVAC systems, and refrigeration systems. They enhance the operational efficiency of energy devices and maintain stable temperatures during operation.
• Manufacturing industry: In industrial manufacturing processes, thermal silicone tubing can be used for heat transfer and cooling in refrigeration systems, heating systems, chillers, and temperature control systems. They ensure temperature stability and operational performance in the manufacturing process.
• Other general applications: Thermal silicone tubing is also used in various other general applications such as in the medical industry, building air conditioning systems, research and development equipment, and many other applications related to heat transfer and cooling.
In summary, thermal silicone tubing has diverse and important applications in thermal temperature technology and cooling.
How to Store Black Silicone Tubing
Black silicone tubing is commonly used in thermal temperature applications, and to preserve and maintain their quality, the following storage measures can be applied:
1. Temperature and humidity storage: Black silicone tubing should be stored in a dry and well-ventilated environment. Avoid direct exposure to sunlight or high heat sources, as this can reduce the flexibility and performance of the silicone tubing.
2. Avoid contact with cleaning agents and chemicals: Avoid exposing black silicone tubing to strong cleaning agents or chemicals that may affect their properties and structure. If cleaning of the tubing is necessary, use gentle cleaning methods that do not harm the silicone.
3. Ensure clean tubing surfaces: Before storing silicone tubing, ensure that their surfaces have been cleaned to remove dust, grease, and any other residues that may affect the flexibility and performance of the tubing.
4. Proper packaging: To prevent damage or deformation during storage, black silicone tubing should be properly packaged. Use suitable packaging or containers to protect them from impact and dust.
5. Monitor expiration dates: Black silicone tubing also has a reasonable shelf life. Monitor the production date and refer to the manufacturer's instructions for the longest recommended storage time.
6. Check before use: Before using black silicone tubing after storage, carefully inspect it for any damage, deformation, or abnormalities. If any issues are detected, replace the black silicone tubing with new tubing and do not use tubing with problems. Using unsafe or damaged black silicone tubing can affect the cooling performance, flexibility, and safety of the cooling system.
Specifications
Thickness
Inner diameter 8mm
Outer diameter 10mm

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