What Are The Core Advantages Of High-temperature Mesh Belts?

High-temperature mesh belts are the general term for heat treatment mesh belts, tempering furnace mesh belts, and annealing furnace mesh belts.

• By Temperature Grade

1. Conventional high-temperature grade (500–800℃): Use SUS316 stainless steel, featuring excellent high-temperature resistance and oxidation resistance, suitable for medium and low-temperature heat treatment scenarios.
2. Medium-high temperature grade (800–1000℃): Use 310S high-temperature alloy, with outstanding creep resistance and aging resistance, enabling long-term continuous operation in high-temperature environments.
3. Ultra-high temperature grade (1000–1200℃): Made of 314 heat-resistant steel, boasting high tensile strength and high-temperature corrosion resistance, ideal for extreme high-temperature sintering and roasting applications.

• By Mesh Structure

1. K2 type: Mainly used in annealing furnaces or tempering furnaces, with mesh wire diameter usually less than 3mm.
2. F2 type: Primarily for sintering furnace equipment, generally made of 314 material (suitable for ~1000℃), widely applied in automotive parts sintering furnaces.
3. A4 type: Mainly used in powder metallurgy sintering furnaces, as well as heat treatment and tempering furnaces for fasteners, featuring dense mesh openings and stable conveying.
4. K2W/F2W Double woven types: Designed for products with high mesh belt requirements and specific through-hole performance, used in sintering or annealing processes.

• About Our Company & Quality

Kansai Wire Netting Technology (Kunshan) Co., Ltd. specializes in high-temperature operating condition conveying solutions, professionally producing heat-resistant mesh belts matched with high-temperature furnaces, heat treatment furnaces, roasting furnaces, and sintering furnaces to meet continuous conveying needs under various high-temperature conditions.

Products are customizable in width, length, mesh size, and chain structure according to customers' equipment dimensions, temperature parameters, and conveying material characteristics, adapting to diverse high-temperature equipment installation requirements.

Strict industrial-grade quality standards are implemented in production. Each batch undergoes multiple tests including high-temperature testing, tensile testing, and oxidation resistance testing to ensure stable and reliable performance.