This week, Wilson Tool announced that it had just added a new division, called Wilson Tool Additive, to help the prolific tooling company adopt additive manufacturing capabilities. The new division will allow Wilson Tool to provide its many customers with 3D printed, made-to-order bending tools and fabrication support parts in just hours, as opposed to the days or even weeks it would ordinarily take with standard steel tools made with conventional manufacturing techniques. These reduced lead times also mean that a large inventory of parts is not needed, which saves on space and cost.
“We see this division as an investment in your future success, as it’s poised to increase your productivity in a way you’ve never imagined — through the Power of 3D. Quite simply, you will now have the ability to make made-to-order bending tools and support parts, much on your own terms,” Brian Robinson, the CEO of Wilson Tool Enterprises, said in a brochure the new division published.
The division’s website states that its 3D printed tools are best made out of materials such as 14-gauge cold rolled or less, and well-suited for low run jobs up to about 1,000 hits. In addition to reducing lead time and the need for a large inventory, 3D printing makes it possible to eliminate tooling, as only one or two machines are needed to make finished products instead of several
The new Wilson Tool Additive division includes two new product lines – Bend3D and Solv3D – the first of which helps to lower lead times for press brake tooling. Solv3D is perfect for quick 3D printed production of support items, like fixtures, molds, and prototypes.
According to the website, “Both lines supply the quality you expect from Wilson Tool.”
The Bend3D line of 3D printed bending tools also work as air-bending and forming tools, as well as mark-free bending solutions. The pieces possess the same strength and quality as the traditional steel press brake tools that manufacturers use to bend sheet metal. The 3D printed support parts in the Solv3D line can be used to replace end-use parts that are traditionally made of plastic or steel. They can also be used as prototypes, and to replace jigs or fixtures, or shop items that would typically require the fabrication of a costly mold to replace.
“Wilson Tool International currently builds additive products using two types of processes,” Wilson Tool Additive wrote. “Determined through rigorous testing of stress resistance and longevity, these two processes offer customers a full spectrum of high-quality product possibilities.”
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[Images: Wilson Tool Additive]