InhaltsangabePREFACE PART I: Concepts INTRODUCTION Motivation What Is ICME? Historical Development of ICME Current Activities toward ICME Toward a Modular Standardized Platform for ICME Scope of This Book BASIC CONCEPT OF THE PLATFORM Overview Open Architecture Modularity Standardization WebBased Platform Operation Benefits of the Platform Concept Verification Using Test Cases STATEOFTHEART MODELS, SOFTWARE, AND FUTURE IMPROVEMENTS Introduction Overview of Existing Models and Software Requirements for Models and Software in an ICME Framework Benefits of Platform Operations for Individual Models Strong and Weak Coupling of Platform Models Conclusions STANDARDIZATION Overview Standardization of Geometry and Result Data Material Data Application Programming Interface Future Directions of Standardization PREDICTION OF EFFECTIVE PROPERTIES Introduction Homogenization of Materials with Periodic Microstructure Homogenization of Materials with Random Microstructure Postprocessing of Macroscale Results: the Localization Step Dedicated Homogenization Model: Two-Level Radial Homogenization of Semicrystalline Thermoplastics Virtual Material Testing Tools for the Determination of Effective Properties Examples Conclusions DISTRIBUTED SIMULATIONS Motivation The AixViPMaP¿¿Simulation Platform Architecture Data Integration WebBased User Interface for the Simulation Platform VISUALIZATION Motivation Standardized Postprocessing Integrated Visualization Data History Tracking PART II: Applications TEST CASE LINE PIPE Introduction Materials Process Experiments Experimental Process Chain Simulation Models and Results Conclusion and Benefits TEST CASE GEARING COMPONENT Introduction Materials The Process Chain Experimental Procedures and Results Simulation Chain and Results Conclusions TEST CASE: TECHNICAL PLASTIC PARTS Introduction Material Process Chain Modeling of the Phenomena along the Process Chain Implementation of the Virtual Process Chain Experimental Methods Results Summary and Conclusion TEXTILEREINFORCED PISTON ROD Introduction Experimental Process Chain Simulation Chain Conclusion/Benefits TEST CASE STAINLESS STEEL BEARING HOUSING Introduction Materials Processes Phenomena Simulation Chain Results Conclusions/Benefits FUTURE ICME Imperative Steps Lessons Learned Future Directions Closing Remark

Inhaltsangabe1 INTRODUCTION Motivation Historical Development of ICME Current Activities towards ICME 2 BASIC CONCEPT OF THE AixViPMaP Standardization Modularity Grid Operations Verification using Testcases 3 IMPROVING INDIVIDUAL MODELS Overview of Available Models Speeding up the Models Adding New Functionalities Improving Predictive Capabilities 4 STANDARDIZED INFORMATION EXCHANGE Geometry standard Data Standard Control Standard 5 DISTRIBUTED SIMULATIONS Converter Workflow Editor Condor Middleware 6 VISUALIZATION Standardized Postprocessing Immersed Visualization Data History Tracking 7 DETERMINATION OF EFFECTIVE PROPERTIES Mathematical Homogenization: Description, Numerical Realization Virtual Testing: Description, Numerical Realization combined methods 8 TESTCASE LINEPIPE Materials: Overview, Thermophysical Properties, Other Data Processes: Overview of the Process Chain, Description and Parameters "Heating", "Rolling", "Quenching", "U-Forming", "O-Forming", "Welding" Phenomena: Overview of Phenomena to be Modeled, Description of the Individual Phenomena Simulation Chain: Simulation Tools, Simulation Flowcharts Results: Macroscopic Process Simulations, Microstructures, Effective Properties Conclusion/Benefits 9 TESTCASE GEARING COMPONENT Materials: Overview, Thermophysical Properties, Other Data Processes: Overview of the Process Chain, Description and Parameters "Rolling", "Forging", "Carburizing", "Welding", "Machining", "Application" Phenomena: Overview of Phenomena to be Modeled, Description of the Individual Phenomena Simulation Chain: Simulation Tools, Simulation Flowcharts Results: Macroscopic Process Simulations, Microstructures, Effective Properties Conclusion/Benefits 10 TESTCASE TOPBOX Materials: Overview, Thermophysical Properties, Other Data Processes: Overview of the Process Chain, Description and Parameters "Injection Moulding", "Heat Treatment", "Application" Phenomena: Overview of Phenomena to be Modeled, Description of the Individual Phenomena Simulation Chain: Simulation Tools, Simulation Flowcharts Results: Macroscopic Process Simulations, Microstructures, Effective Properties Conclusion/Benefits 11 TESTCASE TEXTILE REINFORCED PISTON ROD Materials: Overview, Thermophysical Properties, Other Data Processes: Overview of the Process Chain, Description and Parameters "Flechten", "Infiltration", "Application" Phenomena: Overview of Phenomena to be Modeled, Description of the Individual Phenomena Simulation Chain: Simulation Tools, Simulation Flowcharts Results: Macroscopic Process Simulations, Microstructures, Effective Properties Conclusion/Benefits 12 TESTCASE STAINLESS STEEL BEARING Materials: Overview, Thermophysical Properties, Other Data Processes: Overview of the Process Chain, Description and Parameters "Casting", "Heat Treatment", "Machining", "Application" Phenomena: Overview of Phenomena to be Modeled, Description of the Individual Phenomena Simulation Chain: Simulation Tools, Simulation Flowcharts Results: Macroscopic Process Simulations, Microstructures, Effective Properties Conclusion/Benefits 13 FUTURE DIRECTIONS Further Development of the Platform: New Testcases, Life Cycle Modeling, Product Design, Coupling to Logistics Models, Data Generation from Atomistic Models Applications of the Platform: Use Cases, SME, Academia, Education

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