Scientific and engineering computations

ACE&CS Ltd provides various scientific and engineering computations for its customers ranging from traditional "linear" structural (mechanical), thermal, hydrodynamic, electro-magnetic and multi physical analyses to strongly nonlinear, advanced structural, thermal, hydrodynamic, electro-magnetic and multiple physical analyses using both small strain and large strain formulations. The detailed list of analyses is shown below:

Linear analyses:

• Static structural (mechanical) analyses
• Dynamic structural (mechanical) analyses using implicit or explicit time integration
• Seismic (response spectrum) analyses - i.e. calculation of a construction response to dynamic excitation in the frequency domain
• Modal analyses – i.e. calculation of the eigenvalues (natural frequencies and eigenvectors) of a construction
• Harmonic analyses – i.e. structural analyses using a harmonic load
• Linear buckling analyses - i.e. calculation of the critical buckling load
• Steady state thermal analyses
• Steady state hydrodynamic analyses – i.e. steady flow analyses
• Steady state electro-magnetic analyses
• Linear multiple physical analyses

Nonlinear analyses:

• Nonlinear static structural (mechanical) analyses – i.e. nonlinear static analyses using nonlinear material models, large strain formulation with contact interactions between bodies
• Nonlinear dynamic structural (mechanical) analyses using implicit or explicit time integration– i.e. nonlinear dynamic analyses using nonlinear material models, large strain formulation with contact interactions between bodies
• Non-stationary thermal analyses
• Nonlinear hydrodynamic analyses – i.e. unsteady flow analyses
• Non-stationary electro-magnetic analyses
• Nonlinear multiple physical analyses – using weak or strong coupling between the modelled multiple simultaneous physical phenomena