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三维多领域系统仿真
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Durability
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Durability
Durability Introduction
Component Fatigue
Component Strength and Fatigue for NASTRAN
System-Level Fatigue
System-Level Strength and Fatigue for NASTRAN
Durability Options
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Structures
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Modeling and Assembly
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Optimization
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What's new in LMS Virtual.Lab Revision 6
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What's new in LMS Virtual.Lab Revision 7
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LMS Virtual.Lab Durability Overview
LMS Virtual.Lab Durability
Designing for Optimal Durability Performance - Undoubtedly the most challenging task for durability engineers is designing components and systems that are fail-safe – but not over-designed. System parts with insufficient fatigue strength may cause permanent damage and potentially life-threatening situations. In addition, product recalls influence market perceptions negatively. Today, development ...
LMS Virtual.Lab Component Fatigue
LMS Virtual.Lab Component Fatigue is a complete solution to accurately assess the fatigue performance of individual components in one single, integrated simulation environment. By combining component loads derived from prototype measurements or multibody simulations, FE-based stress results and cyclic fatigue material parameters, LMS Virtual.Lab Component Fatigue allows engineers to predict the fatigue ...
LMS Virtual.Lab Component Strength and Fatigue for NASTRAN
LMS Virtual.Lab Component Strength and Fatigue for NASTRAN provides an integrated solution for component-based strength and fatigue simulation. Its tools include static strength analysis based on static load cases, dynamic strength analysis based on dynamic load cases and numerical fatigue life prediction methods. Durability teams can prepare, automatically drive, and post-process MSC.NASTRAN based ...
LMS Virtual.Lab System-Level Fatigue
LMS Virtual.Lab System-Level Fatigue is the complete solution for optimizing subsystems or assemblies, and tracing strength and fatigue of system parts. It allows engineers to calculate component loads from prescribed system motion through multibody simulation, using the embedded LMS Virtual.Lab Motion solver. These component loads are combined with structural stresses. Finally material fatigue parameters ...
LMS Virtual.Lab System-Level Strength and Fatigue for NASTRAN
LMS Virtual.Lab System-level Strength and Fatigue for NASTRAN is the solution for optimizing subsystems or whole systems, and tracing strength and fatigue of system parts using MSC.NASTRAN-based stress analysis cases. It uses the multibody simulation capabilities of LMS Virtual.Lab Motion to predict component loads from prescribed system motion, combines these component loads with structural stresses ...
LMS Virtual.Lab Durability – Options
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LMS Virtual.Lab Motion Rev 7 strengthens simulation capability for vehicle handling and ride comfort
TÜV SÜD deploys LMS Virtual.Lab in certifying wind turbine designs
PSA PEUGEOT CITROËN selects LMS Virtual.Lab as integrated simulation platform for vehicle developmen
» Application Cases
Mitsubishi develops vehicle platform with support of LMS
John Deere Werke Mannheim increases tractor endurance simulations
BMW Group uses LMS lifetime prediction software to optimize vehicle durability
