High-Precision Welding for Stainless Steel Conveyor Belts

Our Proprietary Welding Method Creates Strong Reliable Welds

Endless metal conveyor belts are made from single sheets of high-quality stainless steel. To create smooth, endless belts, and therefore, continuous surfaces, our engineers utilize proprietary welding methods that incorporate laser, electron beam or plasma welding techniques.  Our experienced staff of engineers determine the appropriate welding method based on material and application requirements. Our welds are high-strength and are able to withstand extreme temperatures, mechanical impact and vacuum conditions without warping or breaking. Our PureSteel® endless steel conveyor belts are used for virtually any application imaginable, in fields as diverse as aerospace, robotics, food processing, medical, industrial automation, semiconductors and more.

High-energy Beam Welding Services

To create a smooth endless conveyor belt, the weld connecting the two ends of the stainless steel sheet must be highly resilient as well as perfectly smooth. At Belt Technologies, we utilize a proprietary welding method to create a strong, smooth weld. Our welders are specially trained in welding sheets of stainless steel to create smooth, endless conveyor belts. Weld-finishing techniques are applied to the joint for better blending, creating an even surface for optimal product handling.

A Smooth Conveyor Belt Surface is Ideal for Impressionable Products

Our solid metal conveyor belts are guaranteed to have flat, even surfaces, which are ideal for applications that need smooth product finishes. The continuous surfaces of our metal conveyor belts ensure that there are no impressions or unsightly markings left on impressionable products such as foods or extruded plastics. They are also ideal for applications that require a high level of precision, like printing.

Contact Us

For the highest level of quality and precision in automated conveyor belt manufacturing, contact the experts at Belt Technologies, Inc. today.