Textile Conveyor Belts
Textile Conveyor Belts
Textile conveyor belts are manufactured using high-strength fabric plies and premium rubber compounds. They are widely used for material handling across various industries due to their flexibility, durability, and cost efficiency.
1.1 Oil Resistant Quality Textile Belt
Oil resistant textile conveyor belts are specially designed to operate in environments where materials contain oils, fats, or greases. The rubber cover resists swelling, cracking, and degradation caused by oil exposure, ensuring longer service life and consistent performance. These belts are ideal for recycling plants, agricultural products, food processing, and industrial waste handling.
1.2 Medium Temperature Resistant Textile Belt
Medium temperature resistant conveyor belts are engineered to handle materials at moderately elevated temperatures. The rubber compound maintains its mechanical properties and flexibility when exposed to heat, reducing premature aging and wear. These belts are commonly used in cement plants, foundries, and material transport systems with intermittent heat exposure.
1.3 Superior Temperature Resistant Textile Belt
Superior temperature resistant textile belts are designed for continuous operation under high-temperature conditions. Manufactured with advanced heat-resistant rubber compounds, they offer excellent resistance to cracking, hardening, and thermal degradation. These belts are suitable for hot clinker, sintered materials, and high-temperature bulk handling applications.
General Specifications:
Construction: Multiple high-strength fabric plies (e.g., polyester, nylon)
Covers: Premium rubber compounds
Key Features: Flexibility, durability, cost-effectiveness
Primary Use: General material handling across industries
1.1 Oil Resistant Quality Textile Belt
Key Property: Resistance to swelling, cracking, and degradation from oils, fats, and greases.
Cover Compound: Specially formulated oil-resistant rubber.
Benefit: Longer service life and consistent performance in oily conditions.
Typical Applications: Recycling plants, agricultural product handling, food processing, industrial waste handling.
1.2 Medium Temperature Resistant Textile Belt
Key Property: Maintains mechanical properties and flexibility under moderate heat.
Cover Compound: Heat-resistant rubber for intermittent exposure.
Benefit: Reduces premature aging and wear.
Temperature Range: Designed for moderately elevated temperatures.
Typical Applications: Cement plants, foundries, material transport with intermittent heat exposure.
1.3 Superior Temperature Resistant Textile Belt
Key Property: Excellent resistance to cracking, hardening, and thermal degradation under continuous high heat.
Cover Compound: Advanced heat-resistant rubber.
Benefit: Continuous operation in high-temperature environments.
Typical Applications: Hot clinker transport, sintered materials, high-temperature bulk handling.
Textile Conveyor Belts Catalogue
Our Textile Conveyor Belts are engineered for reliability and cost-effective material handling. Constructed from multiple high-strength fabric plies bonded with premium rubber compounds, they offer an optimal balance of flexibility, durability, and performance across a vast array of industries.
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Frequently Asked Questions
The primary factors are tension, distance, and load. Use Textile Belts (fabric ply) for general-purpose, cost-effective conveying with moderate tension, typical distances, and standard loads. Choose Steel Cord Belts for long-distance, high-tension, and heavy-load applications (like major mining or overland systems) where minimal stretch and maximum strength are critical. Our technical team can perform a full conveyor calculation to specify the correct belt.
Exposure consistency. For Oil Resistant belts, consider whether the oil/grease exposure is constant or incidental. For Heat Resistant belts, the key is the maximum continuous material temperature, not just ambient air temperature. Exceeding the belt’s designed temperature rating is the leading cause of premature cover cracking and failure. Always provide us with your specific material temperature details.
Yes, with proper selection. Chevron belts are designed with a smooth base on the bottom and between cleats, allowing them to run on standard flat idlers and trough. They can navigate horizontal curves if the conveyor system is designed for it. It is critical to select the correct cleat height and profile for your incline angle and material size to ensure smooth running over transitions.
Repair Patches (cold bonding) are ideal for localized damage like rips, gouges, or holes, allowing for rapid, on-site repair to minimize downtime. A full vulcanized splice (hot or cold) is required when joining the ends of a belt during installation or after cutting out a damaged section. Patches restore cover integrity; splices restore carcass (tensile) strength. For large or structurally compromised damage, a professional splice is always recommended.
There’s no fixed interval; it depends on operating hours, load, and environmental conditions. Inspect lagging during routine maintenance. Key signs for replacement include:
Visible wear down to the pulley metal.
Glazing or hardening of the rubber surface, reducing friction.
Chunks missing or cracks.
Persistent belt slippage that adjustment cannot fix.
Proactive replacement of worn lagging is far more cost-effective than the damage caused by slippage.
Adhesion Rubber (uncured gum rubber) is the critical bonding matrix that recreates the original belt’s monolithic structure. It is placed between belt plies and, when cured, fuses with them to transmit the tensile load. Standard rubber cement alone is insufficient for structural splices. The correct process uses a cold vulcanizing liquid adhesive to prepare surfaces, followed by the application of the specific Adhesion Rubber compound, which is then cured under pressure. Using the wrong materials will result in a weak, failed splice.