Component-based workflows for parallel thermomechanical analysis of arrayed geometries

Component-based workflows for parallel thermomechanical analysis of arrayed geometries

Component-based simulation workflows can increase the agility of the design process by streamlining adaptation of new simulation methods. We present one such workflow for parallel unstructured mesh-based simulations and demonstrate its usefulness in the thermomechanical analysis of an array of solde...

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Veröffentlicht in:Engineering with computers 2017-07, Vol.33 (3), p.509-517
Hauptverfasser: Bloomfield, Max O., Li, Zhen, Granzow, Brian, Ibanez, Daniel A., Oberai, Assad A., Hansen, Glen A., Liu, Xiao Hu, Shephard, Mark S.
Format: Artikel
Sprache:eng
Schlagworte:
Arrays
CAE) and Design
Calculus of Variations and Optimal Control
Optimization
Classical Mechanics
Computer Science
Computer simulation
Computer-Aided Engineering (CAD
Control
Finite element method
Math. Applications in Chemistry
Mathematical and Computational Engineering
Mesh generation
Original Article
Simulation
Soldered joints
Streamlining
Systems Theory
Thermomechanical analysis
Workflow
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Beschreibung
Zusammenfassung:Component-based simulation workflows can increase the agility of the design process by streamlining adaptation of new simulation methods. We present one such workflow for parallel unstructured mesh-based simulations and demonstrate its usefulness in the thermomechanical analysis of an array of solder joints used in microelectronics fabrication. We automate the simulation process from problem specification to the solution of the underlying PDEs, including problem setup, domain definition, and mesh generation. We establish the utility of the proposed approach by demonstrating that qualitatively different stress concentrations are seen in solder joints near the center of such an array and a solder joint seen at the edge of the same array.
ISSN:0177-0667
1435-5663
DOI:10.1007/s00366-016-0487-5