Airslide fabric is a unique textile material used in various industries to convey and discharge dry powdered or granular materials. The fabric consists of woven polyester and has specific properties that make it suitable for use in a closed and ventilated system. One of these properties is its ability to withstand high temperatures. In this article, we will explore what temperature resistance is, how it’s measured, and what it means for t he application of airslide fabric.
What is Temperature Resistance?
Temperature resistance refers to a material’s ability to withstand elevated temperatures without undergoing any significant physical or chemical changes. In the context of airslide fabric, temperature resistance is a crucial property that ensures the fabric’s integrity when handling dry, powdered materials at high temperatures.
Temperature resistance is usually expressed as the maximum temperature a material can withstand before it starts to experience any significant changes. The temperature resistance of a material can vary depending on several factors, such as the composition of the material, its thickness, and the specific industry application.
Measuring Temperature Resistance
Measuring the temperature resistance of materials involves subjecting them to different temperatures and observing any physical or chemical changes. The standardized test method for measuring the temperature resistance of materials is the ASTM D573 test. This test involves exposing the material to a specific temperature for a certain time and then measuring its physical or chemical changes, such as stiffness and weight loss.
The Temperature Resistance of Airslide Fabric
Airslide fabric’s temperature resistance is a crucial factor in determining its effectiveness in transporting materials in various industries. This is because different manufacturing processes involve the use of high temperatures, which may affect the fabric’s integrity if it’s not temperature-resistant.
Airslide fabric’s temperature resistance varies depending on various factors, such as the type of material used, the thickness of the fabric, and the specific industry application. Generally, airslide fabric can withstand temperatures ranging from 150℃ to 250℃, with some variants engineered to withstand temperatures up to 400℃.
The Impact of Temperature Resistance on Material Transport
The temperature resistance of airslide fabric is a crucial factor in ensuring the quality of the conveyed product during transportation. When transporting dry, powdered materials, the temperature resistance of the fabric ensures that the material does not undergo significant chemical or physical changes that may affect its quality. Additionally, temperature-resistant airslide fabric ensures that there is no fabric degradation or material loss during the transportation process, which may lead to product contamination and wastage.
Conclusion
The temperature resistance of airslide fabric is an essential factor in ensuring the quality of the transported materials in various industries. Measured in ℃, airslide fabric’s temperature resistance determines its ability to withstand high temperatures during the transportation and manufacturing process without undergoing any significant physical or chemical changes.
The temperature resistance of airslide fabric varies depending on various factors, such as the type of material used, the thickness of the fabric, and the specific industry application. A temperature-resistant airslide fabric ensures that the conveyed product maintains its quality and integrity throughout the transportation process without any fabric degradation or material loss.