Solid Concepts to Exhibit at AUVSI's Unmanned Systems 2013 in Washington, D.C.

Solid Concepts will display cutting edge unmanned vehicles and manufacturing technologies at the show this year.

Washington D.C. August 12, 2013


August 12, 2013 - Solid Concepts will be exhibiting at the AUVSI Unmanned Systems 2013 exposition from August 12th through August 15th in Washington, D.C.

Solid Concepts is thrilled to attend the show again this year, and is bringing cutting edge never before seen unmanned vehicles. The products Solid Concepts will display are collaborative projects between top engineers and designers utilizing the knowledge and expertise Solid Concepts has to offer from the manufacturing sphere.

Solid Concepts will exhibit their arsenal of technologies in the form of engaging products to inform visitors of the processes Solid Concepts offers to bring concepts from prototype to production. Visit Solid Concepts at booth 2313.

About Solid Concepts

Solid Concepts provides rapid prototyping and custom manufacturing services, with capabilities in PolyJet, Stereolithography (SLA), 3D Color Prints, Selective Laser Sintering (SLS), Direct Metal Laser Sintering (DMLS), Fused Deposition Modeling (FDM), CNC models and patterns, and QuantumCast advanced cast urethanes. Capabilities in tooling and injection molding make Solid Concepts a one-stop source for all of your manufacturing needs.

Featured Product

Robotic Tool Changers Increase Productivity and Reduce Cost

Robotic Tool Changers Increase Productivity and Reduce Cost

The ATI Robotic Tool Changer provides the flexibility to automatically change end-effectors or other peripheral tooling. These tool changers are designed to function reliably for millions of cycles at rated load while maintaining extremely high repeatability. For this reason, the ATI Tool Changer has become the number-one tool changer of choice around the world. ATI Tool Changer models cover a wide range of applications, from very small payloads to heavy payload applications requiring significantly large moment capacity.