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Modal computation of jointed structures
Wolfgang Witteveen
Research Center Wels
Publikation
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Typen von Abschlussarbeiten
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Dissertation
Übersicht
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Untersuchen Sie die Forschungsthemen von „Modal computation of jointed structures“. Zusammen bilden sie einen einzigartigen Fingerprint.
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Keyphrases
Joint Structure
100%
Modal
100%
Joint Interface
100%
Interface Mode
100%
Finite Element Method
28%
Bolted Joints
28%
Elastic Structure
28%
Computation Time
28%
Substructure
28%
Time-invariant
28%
Bolt Preload
28%
High Computational Efficiency
14%
Reduction Method
14%
Degrees of Freedom
14%
Computational Techniques
14%
Direct Finite Elements
14%
Computational Effort
14%
Rigid Body Motion
14%
Physical Parameters
14%
Convergence Rate
14%
Computational Accuracy
14%
Nonlinearity
14%
Multibody Simulation
14%
Commercially Available
14%
Simulation Software
14%
Nonlinear Problems
14%
FE Simulation
14%
Dynamic Computation
14%
Nodal Degree
14%
Mechanical Characteristics
14%
Computational Efficiency
14%
Problem-based
14%
Time Factors
14%
Surface Roughness
14%
Nonlinear Contact
14%
Modal Analysis
14%
Spot-welded Joint
14%
Linear Elastic Elements
14%
Local Continuity
14%
Modal Reduction
14%
FE Analysis
14%
Linear Elastic Model
14%
Linearization
14%
Local Contact
14%
Nonlinear Constitutive Behavior
14%
Engineering
Joint Interface
100%
Joints (Structural Components)
85%
Elastic Structure
42%
Computational Efficiency
28%
Bolted Joints
28%
Computational Time
28%
Finite Element Analysis
28%
Numerical Study
14%
Degree of Freedom
14%
Computational Technique
14%
Rigid Body Motion
14%
Computational Effort
14%
Nonlinear Problem
14%
Welds
14%
Simulation Software
14%
Physical Parameter
14%
Superposition
14%
Contact Model
14%
Linear Elastic Model
14%
Modal Analysis
14%
Nonlinearity
14%
Mechanical Property
14%