jueves, 13 de julio de 2017

¿Can 3D Printing get married with traditional technologies?


More and more, Additive Manufacturing is now seen as a complementary technology, as witnessed by the increased in hybrid printers that combine 3D Printing and CNC machining.

Now, Stratasys, one of the leading players in the 3D printing industry, is sharing some of that expertise via a new whitepaper titled "How Additive and Traditional Manufacturing Mix".

The whitepaper is free to download from 3dprint.com after you fill out a brief form, by clicking here: https://3dprint.com/stratasys-how-additive-and-traditional-manufacturing-mix/.

miércoles, 12 de julio de 2017

Introduction to Additive Manufacturing for Composites


Additively manufactured composites offer advantages that include greater design flexibility, decreased costs and production efficiency. In this e-book, you’ll learn more about:

  • Reinforced thermoplastics for high-performance applications
  • Multi-axis motion platforms for design optimization
  • Lightweight, agile mold tooling capabilities
  • Sacrificial tooling for easier production of hollow composites
  • Autoclave cure- and high-temperature-capable materials


Download this FREE e-book to learn how additive manufacturing enables a new era of lightweight structures with degrees of geometric complexity, part consolidation, and design optimization not previously possible.

 Click on the Image to Download your FREE e-Book

jueves, 6 de julio de 2017

Low-cost approaches to UAV design using Additive Manufacturing


Unmanned Aerial Vehicle (UAV) platforms are of major interest to Defense, Government, and commercial industries. The ability to remotely control an aerial vehicle capable of surveillance, offensive and defensive maneuvering, reconnaissance, or numerous other applications without the need to put a human life in jeopardy is a major attraction to their use. Furthermore, there exists opportunities to make these airborne vehicles largely autonomous, further reducing the need for even remote human operators. However, for all of the significant advantages of UAVs, there is a significant negative: the cost of manufacture, and the cost of design. Due in part to the substantial amount of complex electronic equipment on board, UAVs become not only a design of aeronautics, but an experiment in energy conservation through optimization. A limited range of UAV power becomes a limiting factor of UAV application. The challenge becomes to optimize the size, weight, and aerodynamics of the UAV based on the application.