Direct Laser Sintering of Metals

Rapid prototyping by laser sintering and 3D-Printing

Petzoldt, F.
Pohl, H.

January 2002

Currently, several techniques are being used for rapid prototyping of metal parts for various fields...

Selective Laser Sintering as a Rapid Prototyping and Manufacturing Technique

Kent, Nutt

January 1991

With accelerating growth and competition in today's global marketplace, manufacturers face the daun...

Selective Laser Sintering as a Rapid Prototyping and Manufacturing Technique

Kent, Nutt

January 1991

With accelerating growth and competition in today's global marketplace, manufacturers face the daun...

Direct Laser Sintering of Metals

Carter, William T.
Jones, Marshall G.

January 1993

The use of a directed laser bealn source to selectively sinter multiple layers of binderless metal ...

Direct Manufacturing of Metal Prototypes and Prototype Tools

Klocke, Fritz
Wirtz, H
Meiners, W.

January 1996

Due to the limited mechanical characteristics of the materials which can currently be processed usi...

Direct and Indirect Laser Sintering of Metals

Dewidar, Montasser Marasy A.

May 2002

Manufacturing functional prototypes and tools using conventional methods usually is a time consuming...

Direct manufacturing of metal prototypes and prototype tools

Klocke, F.
Wirtz, H.
Meiners, W.

January 1996

Due to the limited mechanical characteristics of the materials which can currently be processed usin...

Direct Laser Sintering of Ceramics

Klocke, F.
Ader, Christoph

January 2003

For more than one decade layer manufacturing technologies assist the development of new products. D...

Direct Laser Sintering of Ceramics

Klocke, F.
Ader, Christoph

January 2003

For more than one decade layer manufacturing technologies assist the development of new products. D...

PRODUCTION OF PROTOTYPE PARTS USING DIRECT METAL LASER SINTERING TECHNOLOGY

Sedlak, Josef
Zemčík, Oskar
Slaný, Martin
Chladil, Josef
Kouřil, Karel
Sekerka, Vít
Rozkošný, Luboš

August 2015

Unconventional methods of modern materials preparation include additive technologies which involve t...

Rapid metal prototyping and tooling

Klocke, F.
Celiker, T.
Song, Y.-A.
Clemens, U.

January 1996

In order to ensure that the prototype corresponds as closely as possible to the serial part subseque...

SELECTIVE LASER SINTERING OF METAL MOLDS: THE RAPIDTOOLTM PROCESS

Uday Hejmadi
Kevin Mcalea

November 2014

Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping p...

Investigation of fully dense laser sintering of tool steel powder using a pulsed Nd:YAG (neodymium-doped yttrium aluminium garnet) laser

W.-N. Su (7214348)
Poonjolai Erasenthiran (7205171)
Phill M. Dickens (7153313)

January 2003

A 550W neodymium-doped yttrium aluminium garnet (Nd:YAG) pulsed laser was used in the solid freeform...

Study of Materials Produced by Powder Metallurgy Using Classical and Modern Additive Laser Technology

Sedlak, Josef
Rican, Daniel
Piska, Miroslav
Rozkosny, Lubos

December 2015

AbstractThe paper focuses on an analysis of materials produced by modern classic additive method dir...

Selective Laser Sintering of Metal Molds: The Rapidtool Process

Hejmadi, Uday
McAlea, Kevin

January 1996

Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping ...

Rapid prototyping by laser sintering and 3D-Printing

Petzoldt, F.
Pohl, H.

January 2002

Currently, several techniques are being used for rapid prototyping of metal parts for various fields...

Selective Laser Sintering as a Rapid Prototyping and Manufacturing Technique

Kent, Nutt

January 1991

With accelerating growth and competition in today's global marketplace, manufacturers face the daun...

Selective Laser Sintering as a Rapid Prototyping and Manufacturing Technique

Kent, Nutt

January 1991

With accelerating growth and competition in today's global marketplace, manufacturers face the daun...

Direct Laser Sintering of Metals

Carter, William T.
Jones, Marshall G.

January 1993

The use of a directed laser bealn source to selectively sinter multiple layers of binderless metal ...

Direct Manufacturing of Metal Prototypes and Prototype Tools

Klocke, Fritz
Wirtz, H
Meiners, W.

January 1996

Due to the limited mechanical characteristics of the materials which can currently be processed usi...

Direct and Indirect Laser Sintering of Metals

Dewidar, Montasser Marasy A.

May 2002

Manufacturing functional prototypes and tools using conventional methods usually is a time consuming...

Direct manufacturing of metal prototypes and prototype tools

Klocke, F.
Wirtz, H.
Meiners, W.

January 1996

Due to the limited mechanical characteristics of the materials which can currently be processed usin...

Direct Laser Sintering of Ceramics

Klocke, F.
Ader, Christoph

January 2003

For more than one decade layer manufacturing technologies assist the development of new products. D...

Direct Laser Sintering of Ceramics

Klocke, F.
Ader, Christoph

January 2003

For more than one decade layer manufacturing technologies assist the development of new products. D...

PRODUCTION OF PROTOTYPE PARTS USING DIRECT METAL LASER SINTERING TECHNOLOGY

Sedlak, Josef
Zemčík, Oskar
Slaný, Martin
Chladil, Josef
Kouřil, Karel
Sekerka, Vít
Rozkošný, Luboš

August 2015

Unconventional methods of modern materials preparation include additive technologies which involve t...

Rapid metal prototyping and tooling

Klocke, F.
Celiker, T.
Song, Y.-A.
Clemens, U.

January 1996

In order to ensure that the prototype corresponds as closely as possible to the serial part subseque...

SELECTIVE LASER SINTERING OF METAL MOLDS: THE RAPIDTOOLTM PROCESS

Uday Hejmadi
Kevin Mcalea

November 2014

Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping p...

Investigation of fully dense laser sintering of tool steel powder using a pulsed Nd:YAG (neodymium-doped yttrium aluminium garnet) laser

W.-N. Su (7214348)
Poonjolai Erasenthiran (7205171)
Phill M. Dickens (7153313)

January 2003

A 550W neodymium-doped yttrium aluminium garnet (Nd:YAG) pulsed laser was used in the solid freeform...

Study of Materials Produced by Powder Metallurgy Using Classical and Modern Additive Laser Technology

Sedlak, Josef
Rican, Daniel
Piska, Miroslav
Rozkosny, Lubos

December 2015

AbstractThe paper focuses on an analysis of materials produced by modern classic additive method dir...

Selective Laser Sintering of Metal Molds: The Rapidtool Process

Hejmadi, Uday
McAlea, Kevin

January 1996

Complex three dimensional parts can be manufactured directly from CAD data using rapid prototyping ...

Rapid prototyping by laser sintering and 3D-Printing

Petzoldt, F.
Pohl, H.

January 2002

Currently, several techniques are being used for rapid prototyping of metal parts for various fields...

Selective Laser Sintering as a Rapid Prototyping and Manufacturing Technique

Kent, Nutt

January 1991

With accelerating growth and competition in today's global marketplace, manufacturers face the daun...

Selective Laser Sintering as a Rapid Prototyping and Manufacturing Technique

Kent, Nutt

January 1991

With accelerating growth and competition in today's global marketplace, manufacturers face the daun...

Direct Laser Sintering of Metals

Abstract

Extracted data

Direct Laser Sintering of Metals

Abstract

Extracted data

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