Product Details:
Minimum Order Quantity | 1 Piece |
Material | Silicon Coated Glass fabric & Aluminized Glass Fabric |
Color | Black |
Shape | Circular or Square |
Size | Custom Manufacturer |
Diameter | Customization |
Ratio-Normally | 0.05 |
Features | Highly Expandable, Longlasting, Dust proof, Oil Proof & Spark Proof |
Operating Temperature | Max 500 Degree |
Temperature | Max 500 Degree |
Usage/Application | Hydrauli, Pneumatic CNC, VMC & Laser Cutting |
Country of Origin | Made in India |
High-temperature bellows are specially designed components used in various industrial applications to accommodate thermal expansion and contraction in systems operating at elevated temperatures. These bellows are engineered to withstand extreme temperatures, typically ranging from several hundred to several thousand degrees Fahrenheit (or Celsius).
The primary purpose of high-temperature bellows is to absorb thermal stresses and compensate for dimensional changes caused by temperature fluctuations. They provide flexibility and allow for the movement of pipes, ducts, and other equipment, while maintaining the integrity and safety of the system.
When selecting high-temperature bellows, it is crucial to consider several factors. These include the specific temperature range of the application, the required flexibility and movement capability, the operating pressure, and the chemical environment. Materials with excellent resistance to heat and corrosion, such as stainless steel alloys or high-temperature alloys like Inconel, are commonly used in manufacturing high-temperature bellows.
The construction of high-temperature bellows typically involves a series of convolutions or folds, which provide the necessary flexibility. The shape and geometry of these convolutions depend on the design requirements and the anticipated movement and expansion of the system. The bellows are often designed with flanges or end connections to facilitate installation and connection to other components.
High-temperature bellows find applications in a wide range of industries, including power generation, petrochemicals, aerospace, automotive, and metal refining. They are commonly used in exhaust systems, turbines, boilers, furnaces, and other equipment that operates at high temperatures.
It is important to note that designing and selecting high-temperature bellows requires expertise and consideration of various factors to ensure optimal performance and reliability. Consulting with a qualified engineer or a reputable manufacturer specializing in high-temperature bellows is recommended to address specific application requirements and obtain the most suitable solution.
Additional Information:
Product Details:
Minimum Order Quantity | 2 Piece |
Material | Silicon Coated Glass fabric & Aluminized Glass Fabric |
Color | Black |
Shape | Custom |
Size | Custom Manufacturer |
Diameter | Customization |
Ratio-Normally | 0.1 |
Features | Highly Expandable, Longlasting, Dust proof, Oil Proof & Spark Proof |
Operating Temperature | Max 600 Degree |
Temperature | Max 500 Degree |
Usage/Application | Hydrauli, Pneumatic CNC, VMC & Laser Cutting |
Country of Origin | Made in India |
High-temperature bellows are specially designed components used in various industrial applications to accommodate thermal expansion and contraction in systems operating at elevated temperatures. These bellows are engineered to withstand extreme temperatures, typically ranging from several hundred to several thousand degrees Fahrenheit (or Celsius).
The primary purpose of high-temperature bellows is to absorb thermal stresses and compensate for dimensional changes caused by temperature fluctuations. They provide flexibility and allow for the movement of pipes, ducts, and other equipment, while maintaining the integrity and safety of the system.
When selecting high-temperature bellows, it is crucial to consider several factors. These include the specific temperature range of the application, the required flexibility and movement capability, the operating pressure, and the chemical environment. Materials with excellent resistance to heat and corrosion, such as stainless steel alloys or high-temperature alloys like Inconel, are commonly used in manufacturing high-temperature bellows.
The construction of high-temperature bellows typically involves a series of convolutions or folds, which provide the necessary flexibility. The shape and geometry of these convolutions depend on the design requirements and the anticipated movement and expansion of the system. The bellows are often designed with flanges or end connections to facilitate installation and connection to other components.
High-temperature bellows find applications in a wide range of industries, including power generation, petrochemicals, aerospace, automotive, and metal refining. They are commonly used in exhaust systems, turbines, boilers, furnaces, and other equipment that operates at high temperatures.
It is important to note that designing and selecting high-temperature bellows requires expertise and consideration of various factors to ensure optimal performance and reliability. Consulting with a qualified engineer or a reputable manufacturer specializing in high-temperature bellows is recommended to address specific application requirements and obtain the most suitable solution.
Additional Information:
Product Details:
Minimum Order Quantity | 10 Piece |
Material | Silicone Rubber |
Usage/Application | Industrial |
Size | As per client |
Shape | Round |
Temperature | 300 degree |
Thickness | 1mm |
Country of Origin | Made in India |
Additional Information:
Product Details:
Minimum Order Quantity | 2 Piece |
Shaft Diameter | As per client |
Shape | Circular |
Material | PU coaed nylone fabric |
Usage/Application | Industrial |
Color | Black |
Face | Collar or fabric flange |
Diameter | Custom |
Size | Custom Manufacturer |
Features | Exhaust or vaccume |
Temperature | Max 500 Degree |
Operating Temperature | Min 200 to 500 Degree |
Country of Origin | Made in India |
High-temperature bellows are specially designed components used in various industrial applications to accommodate thermal expansion and contraction in systems operating at elevated temperatures. These bellows are engineered to withstand extreme temperatures, typically ranging from several hundred to several thousand degrees Fahrenheit (or Celsius).
The primary purpose of high-temperature bellows is to absorb thermal stresses and compensate for dimensional changes caused by temperature fluctuations. They provide flexibility and allow for the movement of pipes, ducts, and other equipment, while maintaining the integrity and safety of the system.
When selecting high-temperature bellows, it is crucial to consider several factors. These include the specific temperature range of the application, the required flexibility and movement capability, the operating pressure, and the chemical environment. Materials with excellent resistance to heat and corrosion, such as stainless steel alloys or high-temperature alloys like Inconel, are commonly used in manufacturing high-temperature bellows.
The construction of high-temperature bellows typically involves a series of convolutions or folds, which provide the necessary flexibility. The shape and geometry of these convolutions depend on the design requirements and the anticipated movement and expansion of the system. The bellows are often designed with flanges or end connections to facilitate installation and connection to other components.
High-temperature bellows find applications in a wide range of industries, including power generation, petrochemicals, aerospace, automotive, and metal refining. They are commonly used in exhaust systems, turbines, boilers, furnaces, and other equipment that operates at high temperatures.
It is important to note that designing and selecting high-temperature bellows requires expertise and consideration of various factors to ensure optimal performance and reliability. Consulting with a qualified engineer or a reputable manufacturer specializing in high-temperature bellows is recommended to address specific application requirements and obtain the most suitable solution.
Additional Information:
Product Details:
Minimum Order Quantity | 2 Piece |
Material | PU coaed nylone fabric |
Usage/Application | Industrial |
Color | Black |
Style | Folded |
Packaging Type | Carton |
Grade | As per standard |
Shape | Circular or Rectangle |
Size | Custom Manufacturer |
Temperatures Ranges | Max 500 Degree |
Country of Origin | Made in India |
Additional Information:
Product Details:
Minimum Order Quantity | 2 Piece |
Material | Silicon Coated Glass fabric & Aluminized Glass Fabric |
Color | Silver |
Shape | Circular or Square |
Size | Custom Manufacturer |
Ratio-Normally | 0.1 |
Diameter | Customization |
Features | Highly Expandable, Longlasting, Dust proof, Oil Proof & Spark Proof |
Operating Temperature | Max 500 Degree |
Temperature | Max 500 Degree |
Usage/Application | Hydrauli, Pneumatic CNC, VMC & Laser Cutting |
Country of Origin | Made in India |
High-temperature bellows are specially designed components used in various industrial applications to accommodate thermal expansion and contraction in systems operating at elevated temperatures. These bellows are engineered to withstand extreme temperatures, typically ranging from several hundred to several thousand degrees Fahrenheit (or Celsius).
The primary purpose of high-temperature bellows is to absorb thermal stresses and compensate for dimensional changes caused by temperature fluctuations. They provide flexibility and allow for the movement of pipes, ducts, and other equipment, while maintaining the integrity and safety of the system.
When selecting high-temperature bellows, it is crucial to consider several factors. These include the specific temperature range of the application, the required flexibility and movement capability, the operating pressure, and the chemical environment. Materials with excellent resistance to heat and corrosion, such as stainless steel alloys or high-temperature alloys like Inconel, are commonly used in manufacturing high-temperature bellows.
The construction of high-temperature bellows typically involves a series of convolutions or folds, which provide the necessary flexibility. The shape and geometry of these convolutions depend on the design requirements and the anticipated movement and expansion of the system. The bellows are often designed with flanges or end connections to facilitate installation and connection to other components.
High-temperature bellows find applications in a wide range of industries, including power generation, petrochemicals, aerospace, automotive, and metal refining. They are commonly used in exhaust systems, turbines, boilers, furnaces, and other equipment that operates at high temperatures.
It is important to note that designing and selecting high-temperature bellows requires expertise and consideration of various factors to ensure optimal performance and reliability. Consulting with a qualified engineer or a reputable manufacturer specializing in high-temperature bellows is recommended to address specific application requirements and obtain the most suitable solution.
Additional Information:
Product Details:
Minimum Order Quantity | 2 Piece |
Material | Ceramic Fabric |
Color | Silver |
Shape | Circular or Square |
Size | Custom Manufacturer |
Diameter | Customization |
Ratio-Normally | 0.1 |
Features | Highly Expandable, Longlasting, Dust proof, Oil Proof & Spark Proof |
Operating Temperature | Max 500 Degree |
Temperature | Max 500 Degree |
Usage/Application | Hydraulic, Pneumatic and Duct |
Country of Origin | Made in India |
Ceramic bellows are typically made from high-quality ceramics, such as alumina (aluminum oxide) or zirconia (zirconium dioxide). These materials offer excellent thermal stability, chemical resistance, and mechanical strength, making them suitable for challenging conditions.
The main purpose of ceramic bellows is to accommodate linear or angular movements while maintaining a hermetic seal. They can withstand high temperatures, corrosive substances, and abrasive environments. The bellows' flexible design allows for expansion and contraction, enabling them to absorb thermal stresses and vibrations.
Applications of ceramic bellows include:
Vacuum systems: Ceramic bellows are used in vacuum chambers, where they provide a leak-tight seal while allowing for mechanical motion. They are commonly employed in semiconductor manufacturing, research laboratories, and aerospace industries.
High-temperature environments: Ceramic bellows can endure extreme temperatures and thermal cycling. Therefore, they are used in applications such as furnace systems, kilns, and exhaust systems, where they can withstand intense heat and maintain a seal.
Chemical processing: The chemical resistance of ceramic materials makes them suitable for corrosive environments. Ceramic bellows find applications in chemical processing equipment, such as pumps, valves, and reactors, where they prevent leakage of hazardous fluids.
Medical devices: Ceramic bellows can be utilized in medical equipment, particularly in situations requiring hermetic sealing and resistance to sterilization processes. They are commonly found in devices like implantable pumps, diagnostic instruments, and laboratory equipment.
In summary, ceramic bellows are essential components used in various industries where airtight sealing, resistance to high temperatures, corrosive substances, and mechanical flexibility are required. They provide reliability and longevity in challenging environments, making them a valuable solution for numerous applications.
Additional Information:
Product Details:
Minimum Order Quantity | 5 Piece |
Material | Aluminized Glass Fabric |
Color | Silver |
Shape | Circular |
Size | Custom Manufacturer |
Diameter | Customization |
Ratio-Normally | 0.05 |
Features | Highly Expandable, Longlasting, Dust proof, Oil Proof & Spark Proof |
Operating Temperature | Max 500 Degree |
Temperature | Max 500 Degree |
Thread Size | As Per Client |
Usage/Application | Hydrauli, Pneumatic CNC, VMC & Laser Cutting |
Country of Origin | Made in India |
High-temperature bellows are specially designed components used in various industrial applications to accommodate thermal expansion and contraction in systems operating at elevated temperatures. These bellows are engineered to withstand extreme temperatures, typically ranging from several hundred to several thousand degrees Fahrenheit (or Celsius).
The primary purpose of high-temperature bellows is to absorb thermal stresses and compensate for dimensional changes caused by temperature fluctuations. They provide flexibility and allow for the movement of pipes, ducts, and other equipment, while maintaining the integrity and safety of the system.
When selecting high-temperature bellows, it is crucial to consider several factors. These include the specific temperature range of the application, the required flexibility and movement capability, the operating pressure, and the chemical environment. Materials with excellent resistance to heat and corrosion, such as stainless steel alloys or high-temperature alloys like Inconel, are commonly used in manufacturing high-temperature bellows.
The construction of high-temperature bellows typically involves a series of convolutions or folds, which provide the necessary flexibility. The shape and geometry of these convolutions depend on the design requirements and the anticipated movement and expansion of the system. The bellows are often designed with flanges or end connections to facilitate installation and connection to other components.
High-temperature bellows find applications in a wide range of industries, including power generation, petrochemicals, aerospace, automotive, and metal refining. They are commonly used in exhaust systems, turbines, boilers, furnaces, and other equipment that operates at high temperatures.
It is important to note that designing and selecting high-temperature bellows requires expertise and consideration of various factors to ensure optimal performance and reliability. Consulting with a qualified engineer or a reputable manufacturer specializing in high-temperature bellows is recommended to address specific application requirements and obtain the most suitable solution.
Additional Information:
Product Details:
Size | 8 inch (Diameter) |
Material | PU & Silicon Coated Glass Fabric |
Shape | Round |
Color | Red |
Operating Temperature | Upto 400 degree Celsius |
Product Details:
Material | Fiber Glass |
Shape | Rectangular |
Size | Custom Manufacturer |
Color | Silver |
Operating Temperature | Upto 600 degree Celsius |
Product Details:
Material | Glass Fabric |
Shape | Circular |
Color | Silver |
Features | Heat Resistant & Dust Proof |
Usage/Application | Exhaust Bellows, Heat Resistance bellows |
Diameter | 10 inch |
Length | 10 feet |
Country of Origin | Made in India |
Product Details:
Minimum Order Quantity | 1 Piece |
Material | Silicon Coated Glass fabric |
Shape | Circular, Square or C type |
Color | Silver |
Size | Custom Manufacturer |
Diameter | As per client |
Ratio-Normally | 0.2 |
Features | Highly Expandable, Longlasting, Dust proof, Oil Proof & Spark Proof |
Hardness | As Per Client |
Operating Temperature | Max 500 Degree |
Temperature | Max 500 Degree |
Thread Size | As Per Client |
Usage/Application | Hydrauli, Pneumatic CNC, VMC & Laser Cutting |
Country of Origin | Made in India |
Additional Information:
Product Details:
Shape | Circular or Square |
Usage/Application | Exhaust |
Material | Glass Fabric |
Size | Custom |
Ratio-Normally | 0.05 |
Color | Silver |
Operating Temperature | Max 500 Degree |
Temperature | Temperature resistance upto 500 degree |
Country of Origin | Made in India |
High-temperature bellows are specially designed components used in various industrial applications to accommodate thermal expansion and contraction in systems operating at elevated temperatures. These bellows are engineered to withstand extreme temperatures, typically ranging from several hundred to several thousand degrees Fahrenheit (or Celsius).
The primary purpose of high-temperature bellows is to absorb thermal stresses and compensate for dimensional changes caused by temperature fluctuations. They provide flexibility and allow for the movement of pipes, ducts, and other equipment, while maintaining the integrity and safety of the system.
When selecting high-temperature bellows, it is crucial to consider several factors. These include the specific temperature range of the application, the required flexibility and movement capability, the operating pressure, and the chemical environment. Materials with excellent resistance to heat and corrosion, such as stainless steel alloys or high-temperature alloys like Inconel, are commonly used in manufacturing high-temperature bellows.
The construction of high-temperature bellows typically involves a series of convolutions or folds, which provide the necessary flexibility. The shape and geometry of these convolutions depend on the design requirements and the anticipated movement and expansion of the system. The bellows are often designed with flanges or end connections to facilitate installation and connection to other components.
High-temperature bellows find applications in a wide range of industries, including power generation, petrochemicals, aerospace, automotive, and metal refining. They are commonly used in exhaust systems, turbines, boilers, furnaces, and other equipment that operates at high temperatures.
It is important to note that designing and selecting high-temperature bellows requires expertise and consideration of various factors to ensure optimal performance and reliability. Consulting with a qualified engineer or a reputable manufacturer specializing in high-temperature bellows is recommended to address specific application requirements and obtain the most suitable solution.