How to Determine Quality in Drawer Slides

As long as humanity has had passion, he has fought to find new and more efficient approaches to form and harden metal tools. Ancient techniques light in comparison with the current modern drawer slides techniques, particularly the process of roll forming. When done properly, roll forming returns an easily shaped metal that retains much of its durability despite being shaped, curved, and contorted.

What Is Roll Forming?

This current technology works on a really simple premise. A sheet of material is moved through carefully constructed rollers, which gradually bend it to the desired shape. The level to which every roller can be corrected varies by machine, but the procedure is still the same. This drawer slides design allows each roller to create only a small part of the overall shape and to do this without snapping whatever is being transferred through it.

The variety of patterns that may be shaped with a suitable setup is practically limitless. In reality, many businesses use computer modeling to help determine the best way to achieve a particular design. The combination of computers and this highly effective metal forming technology reduces the amount of wasted material in the process, maximizing efficiency and gains.

Shaping Sheet Metal into Drawer Slides

Among the most typical applications for roll forming is the shaping of drawer slides. Folding and shaping metal this way permits businesses to circumvent one of the most frequent issues in the business: weak joints, which eventually snap and fail. As there are no joints made with this technique, there’s not any potential for ripping. There’s a probability of bending, but if the original metal is strong enough, it retains its shape easily and maintains almost full strength after being flexed.

When correctly set up, this method can be used to machine complex shapes quickly. The apparatus can be turned into a type of assembly line, with as many rollers as required to make something such as a slide meeting chained end-to-end.

Author: Robin Gupta