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软件: ABAQUS
ABACUS: A Comprehensive Engineering Simulation Software for Advanced Nonlinear Analysis & Optimization
Abstract:
ABACUS, a robust, multidisciplinary finite element software designed for tackling a wide range of simulation problems, from simple linear analyses to complex nonlinear issues. This software is equipped with a versatile library of elements, exceeding 100 in number, capable of modeling geometries of arbitrary shapes. The materials library is expansive, encompassing properties relevant to metal, rubber, polymers, composites, reinforced concrete, compressible hyperelastic foams, and geological materials such as soil and rocks, among other typical engineering materials. Beyond basic structural mechanics, ABACUS is equipped to handle analysis in diverse domains including heat conduction, mass diffusion, thermalelectrical coupling, acoustics, soil mechanics (fluidpore effect), electromagnetic, piezoelectric effects, fluid dynamics, and biomechanics. This paper delves into the advanced functionalities of ABACUS, emphasizing its versatile capabilities and its application in specialized fields.
Static & Dynamic Analysis Modules:
Stress/Displacement Analysis: Catering for linear material & geometric nonlinearities, fracture mechanics, to articulated structural fracture mechanics, whereby materials respond nonlinearly to external loads.
Viscoelastic/Viscoplastic Response Analysis: Featurerich in modeling the mechanical behavior of materials with timedependent properties under static and dynamic loading conditions.
Thermal Conduction Analysis: Incorporates transient or steadystate analysis of heat transfer by conduction, radiation, and convection.
Mass Diffusion Analysis: Focuses on diffusion of mass under hydrostatic pressure, often related to hydrogeological processes or industrial scenarios.
Coupling Analysis: Implements a comprehensive approach to analyze systems with interdependent thermal, electrical, hydraulic, or acoustic properties.
Advanced Nonlinear Analysis & Dynamics:
Nonlinear Dynamics & Large Displacement Analysis: Enables simulations of complex mechanisms with articulated components and nonlinear material behavior.
Transient Temperature/Displacement Coupling: Addresses coupled mechanics and thermal response problems, bridging thermal and mechanical variables through dynamic equations.
Quasistatic Analysis: Solves timedependent problems with small deformations using explicit integration methods, encompassing forceimpact and quasistatic motions.
Heat Treatment Simulation: Models the mechanical effects during thermal treatments, providing insights into residual stress, deformation, and surface finish.
Marine Engineering Applications:
Ocean Engineering Structures: Addressed by extensive simulations for marine vessels subject to hydrodynamic loads, buoyancy forces, inertia, and unique interfacial connections with the seabed and surrounding water.
Underwater Shock Analysis: Leverages ABACUS to assess structural integrity under dynamic hydrostatic pressures during underwater maneuvers or accidental impacts.
Mechanism Dynamics & Coupling Analysis: Encompasses detailed kinematic analysis of mechanisms combined with ABACUS’ FEA capabilities, accounting for contact and friction phenomena in mechanical systems.
Materials Modeling & Customized Functions:
Composite Structures: ABACUS augments the simulation of composite materials with specific material models adhering to conventional composite theories and material behaviors.
Soil & Geomaterials Modeling: Offers tools and constitutive models tailored for geotechnical engineering, catering to soilmechanical properties of soil and rocks under varying hydrological and mechanical conditions.
Advanced Material Model Library: Integrates a wide array of material models from linearelastic, orthotropic, nonperfectly plastic, porous to viscoelastic and hyperelastic mechanics, assigning property functions to tailor material behavior to specific engineering requirements.
Training & Service Details:
Comprehensive Curriculum: ABACUS training is anchored in foundational knowledge and advanced techniques, covering the entire workflow from pre to postprocessing, including advanced simulation techniques and postanalysis.
Expert Instruction: Taught by Wang Engineer, a graduate specializing in engineering simulation, with over 8 years of practical experience, focused on automotive component design, fluid dynamics, and thermal simulations.
Exclusive Benefits: Participants receive a 90% off voucher for simulated computation courses, free keyboard & mouse package, and discounts on group registrations, along with a fully refundable simulated computation training course booking option.
Supportive Training Environment: Tutorials are conducted entirely online with the class in realtime, complemented by ondemand course materials for passive learning support. Precise start times are enforced to optimize learning sessions, ensuring questions are answered throughout the educational process.
2020 ABACUS Training Workshop:
Schedule & Details: The 2020 ABACUS training workshop is scheduled to commence on November 23rd and conclude on December 6th. Classes will be held daily from 19:00 onwards, with a dedicated Q&A session on December 9th. The group capacity is limited to 100 participants, and early registration guarantees guaranteed spots. Invoice issuance is available upon request for financial support. An immersive online learning experience awaits, leveraging the versatility and integration of ABACUS for professional engineering pursuits.
Abstract:
ABACUS, a robust, multidisciplinary finite element software designed for tackling a wide range of simulation problems, from simple linear analyses to complex nonlinear issues. This software is equipped with a versatile library of elements, exceeding 100 in number, capable of modeling geometries of arbitrary shapes. The materials library is expansive, encompassing properties relevant to metal, rubber, polymers, composites, reinforced concrete, compressible hyperelastic foams, and geological materials such as soil and rocks, among other typical engineering materials. Beyond basic structural mechanics, ABACUS is equipped to handle analysis in diverse domains including heat conduction, mass diffusion, thermalelectrical coupling, acoustics, soil mechanics (fluidpore effect), electromagnetic, piezoelectric effects, fluid dynamics, and biomechanics. This paper delves into the advanced functionalities of ABACUS, emphasizing its versatile capabilities and its application in specialized fields.
Static & Dynamic Analysis Modules:
Stress/Displacement Analysis: Catering for linear material & geometric nonlinearities, fracture mechanics, to articulated structural fracture mechanics, whereby materials respond nonlinearly to external loads.
Viscoelastic/Viscoplastic Response Analysis: Featurerich in modeling the mechanical behavior of materials with timedependent properties under static and dynamic loading conditions.
Thermal Conduction Analysis: Incorporates transient or steadystate analysis of heat transfer by conduction, radiation, and convection.
Mass Diffusion Analysis: Focuses on diffusion of mass under hydrostatic pressure, often related to hydrogeological processes or industrial scenarios.
Coupling Analysis: Implements a comprehensive approach to analyze systems with interdependent thermal, electrical, hydraulic, or acoustic properties.
Advanced Nonlinear Analysis & Dynamics:
Nonlinear Dynamics & Large Displacement Analysis: Enables simulations of complex mechanisms with articulated components and nonlinear material behavior.
Transient Temperature/Displacement Coupling: Addresses coupled mechanics and thermal response problems, bridging thermal and mechanical variables through dynamic equations.
Quasistatic Analysis: Solves timedependent problems with small deformations using explicit integration methods, encompassing forceimpact and quasistatic motions.
Heat Treatment Simulation: Models the mechanical effects during thermal treatments, providing insights into residual stress, deformation, and surface finish.
Marine Engineering Applications:
Ocean Engineering Structures: Addressed by extensive simulations for marine vessels subject to hydrodynamic loads, buoyancy forces, inertia, and unique interfacial connections with the seabed and surrounding water.
Underwater Shock Analysis: Leverages ABACUS to assess structural integrity under dynamic hydrostatic pressures during underwater maneuvers or accidental impacts.
Mechanism Dynamics & Coupling Analysis: Encompasses detailed kinematic analysis of mechanisms combined with ABACUS’ FEA capabilities, accounting for contact and friction phenomena in mechanical systems.
Materials Modeling & Customized Functions:
Composite Structures: ABACUS augments the simulation of composite materials with specific material models adhering to conventional composite theories and material behaviors.
Soil & Geomaterials Modeling: Offers tools and constitutive models tailored for geotechnical engineering, catering to soilmechanical properties of soil and rocks under varying hydrological and mechanical conditions.
Advanced Material Model Library: Integrates a wide array of material models from linearelastic, orthotropic, nonperfectly plastic, porous to viscoelastic and hyperelastic mechanics, assigning property functions to tailor material behavior to specific engineering requirements.
Training & Service Details:
Comprehensive Curriculum: ABACUS training is anchored in foundational knowledge and advanced techniques, covering the entire workflow from pre to postprocessing, including advanced simulation techniques and postanalysis.
Expert Instruction: Taught by Wang Engineer, a graduate specializing in engineering simulation, with over 8 years of practical experience, focused on automotive component design, fluid dynamics, and thermal simulations.
Exclusive Benefits: Participants receive a 90% off voucher for simulated computation courses, free keyboard & mouse package, and discounts on group registrations, along with a fully refundable simulated computation training course booking option.
Supportive Training Environment: Tutorials are conducted entirely online with the class in realtime, complemented by ondemand course materials for passive learning support. Precise start times are enforced to optimize learning sessions, ensuring questions are answered throughout the educational process.
2020 ABACUS Training Workshop:
Schedule & Details: The 2020 ABACUS training workshop is scheduled to commence on November 23rd and conclude on December 6th. Classes will be held daily from 19:00 onwards, with a dedicated Q&A session on December 9th. The group capacity is limited to 100 participants, and early registration guarantees guaranteed spots. Invoice issuance is available upon request for financial support. An immersive online learning experience awaits, leveraging the versatility and integration of ABACUS for professional engineering pursuits.
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