Extra Info
Micro-scale 3D printing calls for a basically totally different method to CAD design in comparison with conventional macro-scale work. With characteristic sizes smaller than a strand of hair and tolerances measured in single-digit microns, the margin for error is just about zero. Engineers working in medical units, electronics, photonics, and microfluidics must rethink how they deal with tolerances, geometry, wall thickness, and assist buildings when designing at this scale. This whitepaper walks by means of sensible, field-tested suggestions — from setting acceptable tolerances and reinforcing skinny partitions to designing useful microfluidic channels and choosing the proper supplies — so you’ll be able to cut back failed prints, shorten iteration cycles, and transfer from idea to validated prototype with confidence.
