Technically advanced jigsaw blades

By | 2019-10-29T07:56:23+00:00 October 29th, 2019|

Festool has optimised and reworked its entire range of jigsaw blades. Users can now use an application overview to quickly and easily find the right saw blade for the job.

Festool’s new jigsaw range emphasises on a tooth geometry with Japan teeth. Image credit: Festool

Festool’s new jigsaw range emphasises on a tooth geometry with Japan teeth. Image credit: Festool

The new range of jigsaw blades focuses on the essential applications. All supported by the new application guide system that can be used to quickly and easily find the right jigsaw blade for sawing in wood, plastic, metal or building materials. Unique Festool colour coding, which can be found in the application overview, on the packaging additionally provides quick and simple, displays at specialist retailers, online on the Festool’s website and in the catalogue.

Festool’s new range focuses on a tooth geometry with Japan teeth, for example, or a combination of low splinter but fast working progress at the right angles. The range also includes a solution for a problem typically encountered in trade, specifically the machining of twin-wall sheeting. This saw blade hardly smears at all and also keeps splinters to a minimum thanks to neutral teeth.

“In addition to choosing the right saw blade for the material you are machining, we also recommend paying attention to the setting of the jigsaw,” explains Simon Illing, application engineer at Festool and master joiner. “While high speeds in settings 4–6 are ideal for machining soft, temperature-resistant materials such as wood, low speed settings 1–3 are better for temperature-sensitive plastics such as acrylic glass or PET,” he adds.

He also recommends paying attention to the setting of the pendulum stroke, as a higher pendulum stroke makes it faster and easier for the jigsaw to work through the material. This enables chips and dust to be extracted effectively. “This can be achieved when the working progress, i.e. the speed at which work is carried out, is important but not the cutting quality, as working in this way usually results in significant splintering. This can be avoided by deactivating the pendulum stroke. Doing so ensures low-splinter, accurate cuts at a low working speed and is therefore ideal for precise adjustment work and curved cuts,” Illing concludes.