Menu
Your Cart

Silicone thermal connecting tube 100x104x330

Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Silicone thermal connecting tube 100x104x330
Material:Silicon
Size:100mm x 104mm x 330mm
Hardness (Shore A):50-75°
Minimum length:50 pieces
Full coil length:100 pieces
Colour:White
Estimated delivery:8 to 10 working days
  • Stock: In Stock
  • Model: TDSi-S100x104x330 - E60
4420 views

White silicone thermal conductive tube

White silicone thermal conductive tube: Unique and promising applications

White silicone thermal conductive tube is a high-tech material that is attracting attention from scientists and engineers worldwide. With excellent thermal conductivity and flexibility in applications, white silicone tubes are becoming an important solution for heat dissipation in electronic devices, telecommunications, and many other industrial fields.

White silicone tubes have a unique structure, with a silicon layer on the inside and a silicon oxide coating on the outside. This structure creates a phenomenon called "total internal reflection" when light passes through the tube. This means that light is not lost during transmission through the tube, helping to maintain optimal thermal performance. Additionally, the outer silicon oxide layer provides protection against the influences of the external environment, safeguarding the tube from dust, corrosion, and moisture.

One of the main applications of white silicone tubes is in the field of heat dissipation. In electronic devices such as processors, graphics cards, and other components, efficient heat dissipation is crucial to ensure the stability and longevity of the components. White silicone tubes have superior thermal conductivity and good heat transfer capabilities, aiding in quickly and effectively cooling the components. Moreover, the flexibility of white silicone tubes allows them to be cut and bent into different shapes and sizes according to the specific application requirements.

In addition to heat dissipation, white silicone tubes have other potential applications. For example, in the telecommunications industry, white silicone tubes can be used for high-performance optical signal transmission compared to traditional materials. This can result in faster and more stable data transmission in optical networks and communication systems. Furthermore, white silicone tubes can also be applied in fields such as solar energy, thin electronic components, and many other applications that require heat and insulation transfer capabilities.

While white silicone thermal conductive tubes are attracting attention and extensive research, mass production and practical applications still present some challenges. However, with its potential and advantages, there is no doubt that white silicone tubes will continue to develop and contribute to improving performance and efficiency in high-tech fields in the future.

Silicone tube processing
Silicone tube processing: Creating quality and diverse products
Silicone tube processing is the manufacturing process of producing tubes made from silicone material, a flexible, good insulator, and high-temperature resistant synthetic rubber. Silicone tubes are widely used in various industries, including medical, food, automotive, electronics, and many other applications. Here is an overview of the silicone tube processing process.
Design and preparation: The silicone tube processing process starts with product design according to customer requirements. This is an important stage to ensure that the final product meets quality and technical standards. Once the design is completed, workers prepare the necessary tools and molds for the next processing step.
Material preparation: The main material for silicone tube processing is silicone compound, a mixture of high-quality silicone and additives to enhance the physical and mechanical properties of the tube. The components are measured and mixed together in appropriate proportions to form the silicone mixture.
Mold pressing: Next, the silicone mixture is pressed into a mold, also known as an injection mold. This mold has the shape and size corresponding to the final silicone tube. Mold pressing can be done using various methods, including compression molding, extrusion molding, or transfer molding, depending on the specific product requirements.
Thermal processing: After the silicone mixture is pressed into the mold, a thermal processing step takes place to cure and shape the silicone tube. This process is typically carried out in special heat chambers at specific temperature and time settings. The temperature and time of thermal processing are adjusted to ensure complete curing and achieve the desired physical properties of the silicone tube.
Quality inspection: After the thermal processing is completed, the silicone tubes undergo quality inspection to ensure that they meet the necessary standards. The inspections may include size measurement, hardness testing, electrical insulation properties, durability, and other factors. Products that do not meet the standards are discarded, and only high-quality silicone tubes are classified and proceed to further processing.
Finishing and packaging: Finally, after passing the quality inspection, the silicone tubes are finished and packaged. This process involves cutting, surface processing, cleaning, and packaging the products into appropriate packaging. The finished silicone tubes are prepared for transportation and delivery to customers.
Silicone tube processing is a complex and highly specialized process. Accuracy and technical control are crucial to ensure the quality and consistency of the final products. With technological advancements, the silicone tube processing process has been improved and optimized, resulting in high-quality and diverse products that meet various application requirements in different industries.
Specialty colored silicone tubes
Specialty colored silicone tubes: Diversity and innovative applications
Specialty colored silicone tubes are types of silicone tubes manufactured with special colors, serving applications that require high aesthetic appeal or have identification and classification purposes. While specialty colored silicone tubes are not as common as white silicone tubes in the industrial sector, they contribute to diversity and innovation in fields such as medical, food, industrial, and many other applications.
Specialty colored silicone tubes can come in various colors, ranging from basic colors like red, blue, yellow, and green to special colors like transparent, fluorescent, and multicolor. The color of silicone tubes is typically achieved by adding colorants to the silicone mixture during the manufacturing process. This process requires precise control to ensure uniform and stable color distribution throughout the entire product.
Specialty colored silicone tubes have innovative applications in various fields. Here are some examples:
1. Medical: In the medical field, the distinct colors of specialty silicone tubes can be used for classification and identification of different types of tubes in diagnostic and treatment processes. For instance, different colored silicone tubes can be used to distinguish different lines for medication administration, urinary catheters, or tubes used in surgical and medical interventions.
2. Food: In the food industry, specialty colored silicone tubes can be used to differentiate and identify tubes used in food production and transportation. For example, green silicone tubes can be used for organic-related applications, while red silicone tubes can be used for tubes containing stimulants or warnings.
3. Industrial sector: In the industrial sector, specialty colored silicone tubes can be used to differentiate and identify various piping systems and tubes. For instance, different colored silicone tubes can be used to classify different lines for fluid or gas transmission, heat transfer systems, and other industrial applications.
Additionally, specialty colored silicone tubes can also be used to create innovative and aesthetically pleasing products, such as decorative items, toys, gift products, and many other applications.
Although specialty colored silicone tubes are not as common as white silicone tubes, they provide diversity and options for applications that require aesthetic appeal and identification. Thanks to the flexibility and durability of silicone material, specialty colored silicone tubes can be created and customized to meet the requirements and purposes of different industries.
Advantages of heat-resistant silicone tubes
Advantages of heat-resistant silicone tubes: Reliability and diverse applications
Heat-resistant silicone tubes are popular materials in many industries due to their outstanding advantages. With good heat resistance, high reliability, and flexibility in applications, heat-resistant silicone tubes have become a common choice for transporting fluids, gases, and other heat-resistant applications. Here are some important advantages of heat-resistant silicone tubes:
1. High heat resistance: One of the key advantages of heat-resistant silicone tubes is their ability to withstand high temperatures. With the ability to endure temperatures ranging from -60°C to 200°C (-76°F to 392°F), heat-resistant silicone tubes can operate in extreme temperature environments without deformation or damage. This makes them ideal for high-temperature applications in industries such as automotive, machinery, and food processing.
2. Durability and longevity: Heat-resistant silicone tubes are flexible and highly durable. They are not easily prone to breakage, cracking, or corrosion in high-temperature environments. This ensures that heat-resistant silicone tubes have a long lifespan and can operate reliably over an extended period without frequent replacements.
3. Thermal and electrical insulation capability: Heat-resistant silicone tubes have excellent thermal and electrical insulation properties. This means that they maintain stable internal temperatures and provide insulation for fluids or gases inside, protecting them from external ambient temperatures. Additionally, silicone tubes have high electrical insulation properties, helping to prevent the risk of electrical shocks and creating a safe environment for electronic applications.
4. Flexibility and ease of processing: Heat-resistant silicone tubes have high flexibility and can be easily bent, cut, and processed to meet specific application requirements. This facilitates the creation of various tube shapes and sizes to accommodate specific application needs. The flexibility in the processing stage also helps produce highly accurate products and ensures compatibility with different systems and devices.
5. Diverse applications: Heat-resistant silicone tubes, with their flexibility and high heat resistance, have a wide range of applications across various industries. They are used in automotive, medical, food, electronic, industrial sectors, and many other fields. Heat-resistant silicone tubes are utilized in engine cooling systems, fluid transfer systems, medical devices, water supply systems, and numerous other applications.
In summary, heat-resistant silicone tubes are versatile and reliable materials with outstanding advantages such as high heat resistance, durability, flexibility, and thermal insulation properties. This has made them a preferred choice in many industries and diverse applications, meeting performance and reliability requirements in high-temperature environments.
Specifications
Cao 330mm
Rộng 104mm
Thickness 2mm

Write a review

0/5
You have this product?
5
(0)
4
(0)
3
(0)
2
(0)
1
(0)