![]() SLA provides comparable characteristics to parts normally machined from polypropylene or ABS for low- to mid-volume production, and doesn’t require slow, expensive retooling for customization or required tooling changes. The accuracy of SLA means your prints are faithful to the final design, allowing you to identify and correct design flaws, collisions, and potential mass-manufacturing hurdles before production begins. SLA’s winning combination of speed and precision make it an excellent choice for evaluating prototypes. ![]() SLA also offers a speed advantage when you require a variety of functional prototypes or quick access to casting patterns. SLA technology is extremely versatile and can be used in any number of areas where precision is paramount. ![]() With the quality SLA can achieve, it is particularly useful for creating highly precise casting patterns (e.g., for injection molding, casting, and vacuum casting) as well as functional prototypes, presentation models, and form and fit testing. ![]() The tolerances on SLA parts are typically less than 0.05 mm, and SLA offers the smoothest surface finish of any additive manufacturing process. SLA is all about precision and accuracy, so it is often used when form, fit, and assembly are critical. ![]()
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