Summary
Diamond and other ultra-hard materials possess outstanding mechanical, wear and thermal properties that make them attractive to manufacture a wide range of high value-added products such as high-performance, smart tools. However, due to the extreme properties of this group of materials, efficient and precise generation of complex 3D freeform geometries and structures to meet the needs for a further development of high-performance tools is still a challenge.
DIPLAT addresses the need for an efficient, precise and flexible processing technology for ultra-hard materials in tooling applications, in order to fully exploit the potential of these materials. By smartly utilizing the advantages of high brilliance short and ultra-short pulsed lasers, a tooling technology based on 3D Pulsed Laser Ablation (PLA) will be developed and demonstrated for various industrial applications. DIPLAT will introduce new technology platform for producing ultra-hard tools with enhanced functionality, outstanding machining performance and superior lift-time.
In this regard, DIPLAT fosters the following four main scientific and technological objectives:
(1) Design functional surfaces (with controlled micro geometries) on diamond and other ultra-hard materials to enable enhanced functionality for tooling applications;
(2) Study and development of advanced 3D processing strategies for structuring/conditioning of ultra-hard tool surfaces and superabrasive grain layers by Pulsed Laser Ablation;
(3) Develop and implement a novel multi-axis control concept and a model-based CAM software support module to enable optimized 3D pulsed laser processing;
(4) Fabrication of various novel prototype tools made of ultra-hard materials and demonstration of their superior performance and functionality in challenging industrial applications.
DIPLAT will lead to a technological breakthrough that will push European manufacturing industries to the cutting edge of high-performance machining and tooling technology.
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More information & hyperlinks
| Web resources: |
http://www.fp7-diplat.eu/
https://cordis.europa.eu/project/id/314731 |
| Start date: | 15-01-2013 |
| End date: | 14-07-2016 |
| Total budget - Public funding: | 5 108 607,00 Euro - 3 199 685,00 Euro |
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Original description
Diamond and other ultra-hard materials possess outstanding mechanical, wear and thermal properties that make them attractive to manufacture a wide range of high value-added products such as high-performance, smart tools. However, due to the extreme properties of this group of materials, efficient and precise generation of complex 3D freeform geometries and structures to meet the needs for a further development of high-performance tools is still a challenge. DIPLAT addresses the need for an efficient, precise and flexible processing technology for ultra-hard materials in tooling applications, in order to fully exploit the potential of these materials. By smartly utilizing the advantages of high brilliance short and ultra-short pulsed lasers, a tooling technology based on 3D Pulsed Laser Ablation (PLA) will be developed and demonstrated for various industrial applications. DIPLAT will introduce new technology platform for producing ultra-hard tools with enhanced functionality, outstanding machining performance and superior lift-time. In this regard, DIPLAT fosters the following four main scientific and technological objectives: (1) Design functional surfaces (with controlled micro geometries) on diamond and other ultra-hard materials to enable enhanced functionality for tooling applications; (2) Study and development of advanced 3D processing strategies for structuring/conditioning of ultra-hard tool surfaces and superabrasive grain layers by Pulsed Laser Ablation; (3) Develop and implement a novel multi-axis control concept and a model-based CAM software support module to enable optimized 3D pulsed laser processing; (4) Fabrication of various novel prototype tools made of ultra-hard materials and demonstration of their superior performance and functionality in challenging industrial applications. DIPLAT will lead to a technological breakthrough that will push European manufacturing industries to the cutting edge of high-performance machining and tooling technology.Status
ONGCall topic
FoF.NMP.2012-7Update Date
27-10-2022
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Organisations
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| EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH (Coördinator)
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| DIAMOUTILS SAS
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| ELEMENT SIX LIMITED
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| Institute for Advanced Manufacturing - University of Nottingham
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| REISHAUER AG
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| STRUERS AS KBUS 17 NR.1181 SPG OF 1997 STRUERS HOLDING STRUERS TECH
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| WALTER MASCHINENBAU GMBH
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| ZEEKO LIMITED