CIRP GA

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CIRP GA

• August 20 26, 2006
• Kobe, Japan

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CIRP

• The International Academy for Production
  Engineering

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CIRP

• Cirp was founded in 1951 to bring together the
  research community that applies scientific
  methods to manufacturing technology.
• A body of some 400 members from 40 industrialized
  countries, many of whom are longstanding
  internationally recognized R D experts.

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Aims of CIRP

• To promote by scientific research the development
  of all aspects of manufacturing technology
  covering the optimization, control and management
  of processes, machines and systems.
• To promote cooperative research among its members
  and creating opportunities for informal contacts
  among researchers from academia and industry.

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CIRP Scientific Technical Committees

• Eleven Scientific and Technical Committees (STCs)
  that are responsible for their subject areas of
  interest and for coordinating CIRP run
  collaborative research projects.
• STCs in material working processes and Machines
• Cutting (C)
• Electro Physical Chemical Processes (E)
• Forming (F)
• Abrasive Process (G)
• Machines (M)

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CIRP Scientific Technical Committees

• STCs covering elements of the manufacturing chain
• Assembly (A)
• Design (Dn)
• Optimization of manufacturing systems (O)
• Precision engineering metrology (P)
• Surfaces (S)
• Communication
• Dictionary
• Refereed technical papers and refereed keynote
  papers.

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KOBE
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Fim 27 - 44
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Keynote papers

• Workpiece and tool handling in metal cutting
  machines.
• Sheet metal forming at elevated temperaturs.
• The Application of assembly and automation
  technologies to healthcare products,
• Virtual research lab a new way to do research.
• Advances in modeling and Simulation of grinding
  processes

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Keynote papers

• Micro and Nano machining by electro-physical and
  chemical processes.
• Agent-based systems for manufacturing.
• Dimensional micro and nano metrology.
• Recent Advances in mechanical micromachining.
• Development of DLC coating film and its
  applications to tools.
• Development of SUMIBORN BN350 and BNC300 for
  interrupted cutting of hardened steel.

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3D Finite Element Modelling of Segmented Chip
FormationJ.C. Aurich1 (2), H. Bil11Institute
for Manufacturing Engineering and Production
ManagementUniversity of Kaiserslautern, Germany

• Abstract
• This paper presents a 3D coupled
  thermo-mechanical finite element model for the
  simulation of segmented
• chip formation in metal cutting. For modelling,
  a commercial finite element code is used. The
  generation of
• segmentation is achieved either by element erase
  with respect to damage or by modification of
  material flow
• stress data both being coupled with continuous
  adaptive remeshing. A normalized Cockroft-Latham
  model is
• utilized as the damage criterion for element
  erase. Flow stress modification is achieved by
  using Rhims
• material model. Fundamental observations from
  the simulations are concluded and a guideline for
  further
• research is proposed.

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The Effect of Microstructure on Chip Formation
and Surface Defects in Microscale, Mesoscale, and
Macroscale Cutting of SteelA.Simoneau, E. Ng,
M.A. Elbestawi(1)McMaster Manufacturing Research
Institute (MMRI)Hamilton, Ontario, Canada
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• Modelling of Material Side Flow in Hard Turning
• High Level Planning of Reconfigurable
  Enterprises a Game Theoretic Approach
• Grinding of Gears with Vitreous Bonded CBN-Worms

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Laser Dressing of Metal Bonded Diamond Wheel