Development and improvement of a complete self-controlled process chain for manufacturing of laminated tools is the purose of the research performed at the Fraunhofer Institut for Material and Beam Technology and different German companies. The so-called MELATO® technology describes a process chain that has as a first step the slicing of the 3D CAD geometry into layers. The slices are obtained by high-speed laser cutting and then joined together. In this way, laminated tools or parts are built up. Using the MELATO® technology, tools for such operations as deep drawing, stamping and injection molding of various types of sheet metals can be manufactured
Die neue Prozesskette des so genannten automatisierten Metallfolien-LOM ermöglicht die schnelle Fert...
Fibre metal laminate (FML, GLARE©) materials, consisting of alternating layers of thin aluminium she...
The additive manufacturing technology Laser Beam Melting (LBM) is an emerging technology that has th...
Time reduction and quick geometrical changes of complex components and tools are currently the most ...
Time reduction and quick geometrical changes of complex components and tools are currently the most ...
For the fast manufacturing of complex formed tools Fraunhofer IWS works together with partners from ...
The quick manufacturing of large metal forming tools, e.g. for car body parts, is a novel and promis...
Time reduction and quick geometrical changes of complex components and tools are currently the most ...
Using the MELATO® (Metal Laminated Tooling) - technology deep drawing-, stamping - and injection mol...
The rapid manufacturing of large metal forming tools, for car body parts for exa mple, is a novel an...
New production technologies are increasing the degree of automation of fiber metal laminate manufact...
This paper describes machine design and control aspects of automating a viable CAM-LEM layered manu...
Rapid laminating methods predates rapid prototyping by several years, indeed the first work on lamin...
various direct and indirect RT techniques, which use advanced computer-aided techniques and computer...
An output from an EPSRC funded project (GR/K67151/01, £231,279) involving collaboration of 3 univers...
Die neue Prozesskette des so genannten automatisierten Metallfolien-LOM ermöglicht die schnelle Fert...
Fibre metal laminate (FML, GLARE©) materials, consisting of alternating layers of thin aluminium she...
The additive manufacturing technology Laser Beam Melting (LBM) is an emerging technology that has th...
Time reduction and quick geometrical changes of complex components and tools are currently the most ...
Time reduction and quick geometrical changes of complex components and tools are currently the most ...
For the fast manufacturing of complex formed tools Fraunhofer IWS works together with partners from ...
The quick manufacturing of large metal forming tools, e.g. for car body parts, is a novel and promis...
Time reduction and quick geometrical changes of complex components and tools are currently the most ...
Using the MELATO® (Metal Laminated Tooling) - technology deep drawing-, stamping - and injection mol...
The rapid manufacturing of large metal forming tools, for car body parts for exa mple, is a novel an...
New production technologies are increasing the degree of automation of fiber metal laminate manufact...
This paper describes machine design and control aspects of automating a viable CAM-LEM layered manu...
Rapid laminating methods predates rapid prototyping by several years, indeed the first work on lamin...
various direct and indirect RT techniques, which use advanced computer-aided techniques and computer...
An output from an EPSRC funded project (GR/K67151/01, £231,279) involving collaboration of 3 univers...
Die neue Prozesskette des so genannten automatisierten Metallfolien-LOM ermöglicht die schnelle Fert...
Fibre metal laminate (FML, GLARE©) materials, consisting of alternating layers of thin aluminium she...
The additive manufacturing technology Laser Beam Melting (LBM) is an emerging technology that has th...