Security Challenges of Sophisticated Simulation towards Construction Materials Fatigue Phenomena Elimination

Authors

  • M. Kuffová Armed Forces Academy of General Milan Rastislav Stefanik, Liptovsky Mikulas, Slovakia
  • P. Nečas Armed Forces Academy of General Milan Rastislav Stefanik, Liptovsky Mikulas, Slovakia

Keywords:

modelling and simulation, construction material fatigue, experiments, cracks and degradation process, reliability and personnel security, sophisticated numerical tools, propagation direction

Abstract

Modern societies have become highly dependent on modern technology. Without its tools, their economies can no longer be run and their infrastructure would collapse. Thus technology has offered a high and sophisticated standard of living to societies, but at the same time it has introduced an inherent vulnerability. The efficient Automatic Dynamic Incremental Nonlinear Analysis (ADINA) is a Finite Element Method (FEM) based system, very suitable for solving large variety of personnel security problems; observing construction material processing and growth of fatigue damage, crack propagation and the distribution of stress fields. Leveraged by simulated fracture and damage of material models, it is the catalyst of the problem-solution roadmap towards substantial material cracks elimination.

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Published

28-02-2022

How to Cite

Kuffová, M., & Nečas, P. (2022). Security Challenges of Sophisticated Simulation towards Construction Materials Fatigue Phenomena Elimination. Advances in Military Technology, 6(1), 89–97. Retrieved from https://aimt.cz/index.php/aimt/article/view/1618

Issue

Section

Research Paper