Flexible manufacture of lightweight frame structures : proceedings /
Integrated manufacturing of lightweight components is of increasing importance for production engineering in today's industrial climate. Due to the market's need for high geometrical flexibility, combined with small batch sizes and short production cycles, the requirements of customers are...
Clasificación: | Libro Electrónico |
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Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Uetikon-Zuerich ; Enfield, N.H. :
Trans Tech,
©2006.
|
Colección: | Advanced materials research ;
v. 10. |
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Research for a Flexible Production of Lightweight Space Frame Structures
- Three-Dimensional Curved Profile Extrusion: First Results on the Influence of Gravity
- Composite Extrusion: Determination of the Influencing Factors on the Positioning of the Reinforcing Elements
- Mechanical Properties of Compound-Extruded Aluminum-Matrix Profiles under Quasi-Static Loading Conditions
- Flying Cutting of Spatially Curved Extrusion Profiles
- 3D-Laser Processing of Spatially Curved Profiles
- Analysis and Simulation of Cutting Technologies for Lightweight Frame Components
- Laser Bifocal Hybrid Welding of Aluminum
- Investigation of the Influence of Process Parameters on the Structure and the Mechanical Properties of Joints Produced by Electromagnetic Compression
- Joining by Forming of Lightweight Frame Structures
- Seam Weld Positioning for Composite Extrusion
- In-Process Simulation of Multi-Axis Milling in the Production of Lightweight Structures
- Analysis of Cutting Technologies for Lightweight Frame Components
- Structural Behavior of an EN AW-6060 Profile during and Immediately after Welding by a Laser-Laser-Hybrid System
- Qualitative Knowledge and Manufacturing Considerations in Multidisciplinary Structural Optimization of Hybrid Material Structures
- Flexible and Intelligent Gripping Technology for Machining and Handling of Spatially Curved Extruded Aluminum Profiles
- Design and Optimization of an Innovative Machine Kinematics for Combined Handling and Machining.