Using the MELATO® (Metal Laminated Tooling) - technology deep drawing-, stamping - and injection molding tools of various sheet metal materials can be manufactured. The different kinds of stress such as pressure or temperature require adapted connecting technologies. Thus, a temperature-steady connection of the sheet metal lamellas is necessary for injection molds, which can resist the injection pressure. This paper describes the integration of tempering systems in injection molding tools or die casting tools. Related topics such as laser beam welding for bonding and laser beam build-up welding are presented as well
Part 3: Additive ManufacturingInternational audienceApplying additive manufacturing technologies in ...
Rapid laminating methods predates rapid prototyping by several years, indeed the first work on lamin...
This paper details the development of a rapid tooling manufacturing route for the gravity and high-p...
For the fast manufacturing of complex formed tools Fraunhofer IWS works together with partners from ...
Development and improvement of a complete self-controlled process chain for manufacturing of laminat...
The quick manufacturing of large metal forming tools, e.g. for car body parts, is a novel and promis...
Additive manufacturing for tooling applications has seen a new boost with emergence of laser beam me...
Additive manufacturing for tooling applications has seen a new boost with emergence of laser beam me...
Additive manufacturing for tooling applications has seen a new boost with emergence of laser beam me...
AbstractIn mould and tool making laser metal deposition welding provides a new way of creating novel...
Additive manufacturing for tooling applications has seen a new boost with emergence of Laser Beam Me...
The additive manufacturing technology Laser Beam Melting (LBM) is an emerging technology that has th...
Applying additive manufacturing technologies in the tooling sector is reaching a new level with Lase...
This paper describes a new concept for the construction of prototype tooling specifically for pressu...
Laminated tooling consists of an array of stacked laminations that are mechanically clamped or bond...
Part 3: Additive ManufacturingInternational audienceApplying additive manufacturing technologies in ...
Rapid laminating methods predates rapid prototyping by several years, indeed the first work on lamin...
This paper details the development of a rapid tooling manufacturing route for the gravity and high-p...
For the fast manufacturing of complex formed tools Fraunhofer IWS works together with partners from ...
Development and improvement of a complete self-controlled process chain for manufacturing of laminat...
The quick manufacturing of large metal forming tools, e.g. for car body parts, is a novel and promis...
Additive manufacturing for tooling applications has seen a new boost with emergence of laser beam me...
Additive manufacturing for tooling applications has seen a new boost with emergence of laser beam me...
Additive manufacturing for tooling applications has seen a new boost with emergence of laser beam me...
AbstractIn mould and tool making laser metal deposition welding provides a new way of creating novel...
Additive manufacturing for tooling applications has seen a new boost with emergence of Laser Beam Me...
The additive manufacturing technology Laser Beam Melting (LBM) is an emerging technology that has th...
Applying additive manufacturing technologies in the tooling sector is reaching a new level with Lase...
This paper describes a new concept for the construction of prototype tooling specifically for pressu...
Laminated tooling consists of an array of stacked laminations that are mechanically clamped or bond...
Part 3: Additive ManufacturingInternational audienceApplying additive manufacturing technologies in ...
Rapid laminating methods predates rapid prototyping by several years, indeed the first work on lamin...
This paper details the development of a rapid tooling manufacturing route for the gravity and high-p...