Grenade Launcher SolidWorks tutorial Part 1
Learn key techniques and tools to design parts
Features to be used:
Sketch with picture, Boss-Extrude Thin, Boss-Extrude, Extruded-Cut, Reference Geometry - Plane, Boundary Boss/Bass, Fillet, Linear Pattern, Mirror Feature, Mirror Body,
Today, a majority of consumer products and production parts are made from thermoplastics. Thermoplastics are typically used in manufacturing techniques like injection molding, compression molding and machining, but with the invention of 3D printing, they became available for additive extrusion and sintering processes. A new door to advanced manufacturing has opened with 3D printing materials similar to the conventional thermoplastics familiar to engineers and designers.
Thermoplastics are plastic materials, or polymers, that become pliable when heated to a specific temperature and solidify upon cooling. Types of thermoplastics include acrylic, ABS, Nylon, PLA, polycarbonate (PC), polyethylene and other specialty, high performance materials.
If your part requires strength, rigidity or high temperature tolerance, then thermoplastics are a great option to fabricate your production component or prototype. Using 3D printing, engineers can make parts with the most commonly used thermoplastics, such as ABS, polycarbonate, a variety of blends, as well as thermoplastics engineered for aerospace, medical, automotive and other specialty applications. There are two additive technologies at Stratasys Direct Manufacturing that utilize thermoplastics: Laser Sintering (LS) and FDM (Fused Deposition Modeling).