ANSYS

ANSYS offers a comprehensive software suite that spans the entire range of physics, providing access to virtually any field of engineering simulation that a design process requires. Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment. Simulation-Driven Product Development takes engineering simulation to another level ― the unequalled depth and breadth of our software coupled with its unmatched engineered scalability, comprehensive multiphysics foundation and adaptive architecture set our technology apart from other CAE tools. These ANSYS Advantages add value to the engineering design process by delivering efficiency, driving innovation and reducing physical constraints, enabling simulated tests that might not be possible otherwise.


References in zbMATH (referenced in 685 articles )

Showing results 21 to 40 of 685.
Sorted by year (citations)

previous 1 2 3 4 ... 33 34 35 next

  1. Gadala, Mohamed S.: Finite elements for engineers with ANSYS applications (2020)
  2. Gao, Jie; Xiao, Mi; Gao, Liang; Yan, Jinhui; Yan, Wentao: Isogeometric topology optimization for computational design of re-entrant and chiral auxetic composites (2020)
  3. Gholipour, Alireza; Ghayesh, Mergen H.; Zander, Anthony C.; Psaltis, Peter J.: In vivo based biomechanics of right and left coronary arteries (2020)
  4. Guyot, M. K.; Ormiston, S. J.; Soliman, H. M.: Numerical analysis of two-phase flow from a stratified region through two side branches (2020)
  5. Jiménez Rios, Alejandro; O’Dwyer, Dermot: Numerical modeling of cob’s nonlinear monotonic structural behavior (2020)
  6. Józsa, Viktor; Kovács, Róbert: Solving problems in thermal engineering. A toolbox for engineers (2020)
  7. Jung, Jaeho; Yoon, Kyungho; Lee, Phill-Seung: Deep learned finite elements (2020)
  8. Kharghani, N.; Guedes Soares, C.: Experimental, numerical and analytical study of buckling of rectangular composite laminates (2020)
  9. Kontogiannis, Spyridon G.; Savill, Mark A.: A generalized methodology for multidisciplinary design optimization using surrogate modelling and multifidelity analysis (2020)
  10. Kralik, Juraj; Kralik, J. jun.: Probabilistic assessment to analyze of steel hall collapse due to extreme wind impact (2020)
  11. Kulikov, Gennady M.: Application of strong SaS formulation and enhanced DQ method to 3D stress analysis of rectangular plates (2020)
  12. Liao, Yixiang: Update to the MUSIG model in ANSYS CFX for reliable modelling of bubble coalescence and breakup (2020)
  13. Li, Lei; Chang, Qi; Zhou, Changcong; Wang, Wenxuan; Zhang, Zheng: Sensitivity analysis-based optimization: a case study with the MTBF of an aeronautical hydraulic pipeline system (2020)
  14. Lolić, Damjan; Zupan, Dejan; Brojan, Miha: A consistent strain-based beam element with quaternion representation of rotations (2020)
  15. Michael Ortner; Lucas Gabriel; Coliado Bandeira: Magpylib: A free Python package for magnetic field computation (2020) not zbMATH
  16. Nassit, Mariame; El Harif, Abderrahmane; Berbia, Hassan; Taha Janan, Mourad: A new analytical method for spherical thin shells’ axisymmetric vibrations (2020)
  17. Obrezkov, Leonid P.; Matikainen, Marko K.; Harish, Ajay B.: A finite element for soft tissue deformation based on the absolute nodal coordinate formulation (2020)
  18. Pokrovskiy, A. M.; Dubovitskiy, E. I.; Chermoshentseva, A. S.: Calculation of critical depth of edge crack in the main oil pipeline in the neighborhood of a transverse welded joint (2020)
  19. Praharaj, Rajendra K.; Datta, N.: On the transient response of plates on fractionally damped viscoelastic foundation (2020)
  20. Preethi, A. Angelin Peace; Karthigaikumar, P.: Micro-machined silicon accelerometer with piezoresistive SCR implementation for glucolysis (2020)

previous 1 2 3 4 ... 33 34 35 next