Selective Laser Sintering

Posts Tagged ‘Manufacturing’

Selective laser sintering (SLS) is an additive manufacturing technique that uses a high power laser to fuse small particles of plastic, metal or glass powders into a mass that has a desired 3-dimensional shape. The use of Carbon Fiber increase the mechanical properties of the resultant part. In this video we show how rigid can be a part made by carbon-fiber reinforced polymer developed in Fundació CIM-UPC. Special thanks to Roger Uceda, Abeloncho Funk drummer!

Forwards Collection: www.funtheory.net Like us on Facebook: www.facebook.com Follow us on Twitter: twitter.com 3D printing is a form of additive manufacturing technology where a three dimensional object is created by laying down successive layers of material. 3D printers are generally faster, more affordable and easier to use than other additive manufacturing technologies. 3D printers offer product developers the ability to print parts and assemblies made of several materials with different mechanical and physical properties in a single build process. Advanced 3D printing technologies yield models that can serve as product prototypes. There has been large growth in the sale of 3D printers. Additionally, the cost of 3D printers has declined. The technology also finds use in the jewelry, footwear, industrial design, architecture, engineering and construction (AEC), automotive, aerospace, dental and medical industries, education, GIS, civil engineers, etc.

Product Description
3D printing is a form of additive manufacturing technology where a three dimensional object is created by laying down successive layers of material. 3D printers are generally faster, more affordable and easier to use than other additive manufacturing technologies. 3D printers offer product developers the ability to print parts and assemblies made of several materials with different mechanical and physical properties in a single build process. Advanced 3D printing technologies yield models that closely emulate the look, feel and functionality of product prototypes.

A 3D printer works by taking a 3D computer file and using and making a series of cross-sectional slices. Each slice is then printed one on top of the other to create the 3D object.

Since 2003 there has been large growth in the sale of 3D printers. Additionally, the cost of 3D printers has declined. The technology also finds use in the jewellery, footwear, industrial design, architecture, engineering and construction (Aec), automotive, aerospace, dental and medical industries.

This book is your ultimate resource for 3D Printing. Here you will find the most up-to-date information, analysis, background and everything you need to know.

In easy to read chapters, with extensive references and links to get you to know all there is to know about 3D Printing right away, covering: 3D printing, Pad printing, Lenticular printing, History of printing, Woodblock printing, Movable type, Printing press, Etching, Mezzotint, Aquatint, Lithography, Chromolithography, Rotary printing press, Offset printing, Hot metal typesetting, Screen printing, Dye-sublimation printer, Phototypesetting, Dot matrix printer, Laser printer, Thermal printer, Inkjet printer, Stereolithography, Digital printing, Additive manufacturing, Three-dimensional space, Prototype, 3D scanner, Rapid prototyping, Selective laser sintering, Fused deposition modeling, Economies of scale,

3D Printing: High-impact Emerging Technology – What You Need to Know: Definitions, Adoptions, Impact, Benefits, Maturity, Vendors

3D printing is a form of additive manufacturing technology where a three dimensional object is created by laying down successive layers of material. 3D printers are generally faster, more affordable and easier to use than other additive manufacturing technologies. 3D printers offer product developers the ability to print parts and assemblies made of several materials with different mechanical and physical properties in a single build process. Advanced 3D printing technologies yield models that can serve as product prototypes.

At CRDM we can advise you on Additive Layer Manufacturing (ALM) The process that produces components direct from a CAD model by melting layers of fine powder together (Metal or Plastic). Check out our website for more information on DMLS – Direct Metal Laser Sintering and SLS – Selective Laser Sintering.

At CRDM we can advise you on Additive Layer Manufacturing (ALM) The process that produces components direct from a CAD model by melting layers of fine powder together (Metal or Plastic). Check out our website for more information on DMLS – Direct Metal Laser Sintering and SLS – Selective Laser Sintering.

At CRDM we can advise you on Additive Layer Manufacturing (ALM) The process that produces components direct from a CAD model by melting layers of fine powder together (Metal or Plastic). Check out our website for more information on DMLS – Direct Metal Laser Sintering and SLS – Selective Laser Sintering.

At CRDM we can advise you on Additive Layer Manufacturing (ALM) The process that produces components direct from a CAD model by melting layers of fine powder together (Metal or Plastic). Check out our website for more information on DMLS – Direct Metal Laser Sintering and SLS – Selective Laser Sintering.

At CRDM we can advise you on Additive Layer Manufacturing (ALM) The process that produces components direct from a CAD model by melting layers of fine powder together (Metal or Plastic). Check out our website for more information on DMLS – Direct Metal Laser Sintering and SLS – Selective Laser Sintering.

At CRDM we can advise you on Additive Layer Manufacturing (ALM) The process that produces components direct from a CAD model by melting layers of fine powder together (Metal or Plastic). Check out our website for more information on DMLS – Direct Metal Laser Sintering and SLS – Selective Laser Sintering.