DS SIMULIA Suite 2024 SSQ | 20.3 Gb
Dassault Systèmes, the 3DEXPERIENCE Company, has released SIMULIA Structural Simulation R2024X. The newest versions of 3DEXPERIENCE and SIMULIA products include a range of upgrades and performance improvements for existing workflows, as well as new features to unlock new potential for simulation in design and analysis.
The release of Abaqus 2024 brings a host of new and improved features, enhancing the capabilities of this powerful simulation software. Let’s take a closer look at the key additions and updates that users can expect in the latest version.
Abaqus/CAE Enhancements
Python 3 Upgrade in Abaqus 2024
Abaqus Python and Abaqus/CAE now utilize Python 3.10, aligning with widely supported Python versions in the open-source community. This upgrade provides various benefits and enhances the scripting interface for automating simulation processes.
Render Styles in Plots for Continuum Particle Elements
Visualizing element particle edges is now easier with support for wireframe, hidden, filled, and shaded render styles in Abaqus/CAE. This feature simplifies the differentiation of continuum particle elements in plots.
Step-Dependent General Contact
Abaqus/CAE now allows the definition of general contact in any analysis step or the initial step in Abaqus/Standard, enabling the modeling of more complex contact behaviors in simulations.
Contact Mass Scaling
The capability to define contact mass scaling in Abaqus/Explicit has been introduced, reducing the number of increments required for simulations using non-default penalty stiffness.
Channel and Hat Section Profiles
The Property module in Abaqus/CAE now includes the ability to define channel and hat section profiles, simplifying the specification of these common beam cross-sections.
Beam Section Offset for *BEAM SECTION
Abaqus/CAE now supports the definition of a beam section offset for beam sections integrated during the analysis using *BEAM SECTION, providing greater flexibility when modeling with beam elements.
Rotational Couplings
Discrete fasteners and coupling constraints now support the definition of rotational coupling types, offering more control over the behavior of distributing couplings involving cloud nodes with rotational degrees of freedom.
Linearized Contact Capability
The linearized contact capability enables faster results for certain types of contact problems by solving contact status and contact stresses within a static perturbation step with small-sliding, frictionless contact.
Fluid Pressure Penetration Load
Abaqus/CAE now allows the creation of a fluid pressure penetration load to define fluid pressure over a surface, expanding the software’s capabilities for fluid analysis.
Abaqus 2024 Analysis Updates
The analysis capabilities have also been significantly enhanced in Abaqus 2024. Some notable updates include:
– Formation of tie constraints in import analysis
– Adjoint sensitivity analysis for sizing optimization in direct steady-state dynamic analysis
– Modeling deterioration and aging in lithium-ion batteries
– Beam-to-surface submodeling
– Improved keyword interface for importing external fields
Interactions, Materials, and User Subroutines
Several updates have been introduced in interactions, materials, and user subroutines to expand the functionality of Abaqus further.
New Material Models in Abaqus 2024
Nonisotropic Viscoelasticity
One of the significant advancements in Abaqus/Standard 2023 is the ability to define nonisotropic viscoelasticity for a material. This is achieved by specifying distinct Prony series for each component of the stiffness matrix, enabling the definition of orthotropic or transversely isotropic viscoelasticity. This update allows for a more accurate description of material behavior, particularly for composites.
Modeling Curing Processes
Abaqus now offers enhanced functionality for modeling curing processes. The introduction of mean-field homogenization enables the modeling of composite behavior during a curing process using a multiscale material model. This feature significantly expands the capabilities of Abaqus/Standard, particularly in simulating the behavior of composite materials during curing.
Enhanced Cure Kinetics Specification
In the latest update, Abaqus introduces the capability to specify cure kinetics through either the Grindling model or a user-defined form using the UCURE user subroutine. This enhancement facilitates the inclusion of a wide range of cure behaviors in Abaqus/Standard, providing users with greater flexibility in modeling material curing processes.
Valanis-Landel Hyperelastic Model
Abaqus now allows for the definition of the deviatoric response for the Valanis-Landel hyperelastic model by utilizing uniaxial and biaxial tensile test data. This update simplifies the implementation of the Valanis-Landel hyperelastic material model by utilizing readily available tests, making it more accessible for users.
New User Subroutines of Abaqus 2024
UCOHESIVEOFFSET
The UCOHESIVEOFFSET subroutine in Abaqus/Standard allows users to specify an offset for the traction-separation response in cohesive elements that facilitate fluid or slurry transport. This feature is particularly useful for modeling the behavior of materials involved in fluid transport processes, such as adhesives, sealants, or composites with fluid-filled voids.
UCURE
With the introduction of the UCURE subroutine, users can now define custom forms of cure kinetics for their analyses in Abaqus. This capability enables the simulation of a wide range of curing behaviors in composite materials, adhesives, and coatings, providing a more accurate representation of real-world curing processes.
USETTLING
Abaqus/Standard now features the new user subroutine USETTLING, which can be employed to establish the settling velocity of solid particles (proppant) in simulations involving the modeling of slurry transport and placement within a fracture. This functionality is valuable for industries such as oil and gas, where accurate modeling of particle settling is crucial for optimizing hydraulic fracturing operations.
VFILM
In Abaqus/Explicit, the new user subroutine VFILM offers the option to specify nonuniform film coefficient and sink temperature for fully coupled thermal-stress analyses. This enhancement enables more realistic modeling of heat transfer and thermal behavior in systems with varying film coefficients, leading to improved accuracy in thermal-stress predictions.
VUTEMP
Another addition to Abaqus/Explicit is the VUTEMP subroutine, which allows users to assign temperature values at the nodes of a model. This capability is beneficial for simulating heat transfer processes where non-uniform temperature distributions need to be applied, such as in thermal cycling studies or localized heating effects.
These new user subroutines expand the capabilities of Abaqus for advanced material modeling and simulation, providing engineers and researchers with powerful tools to address complex real-world scenarios. Whether it’s simulating fluid-structure interactions, customizing material curing behaviors, or accurately modeling thermal-stress phenomena, these subroutines empower users to push the boundaries of simulation-driven engineering.
Python 3 Upgrade in Abaqus 2024
Abaqus Python and Abaqus/CAE now utilize Python 3.10, aligning with widely supported Python versions in the open-source community. This upgrade provides various benefits and enhances the scripting interface for automating simulation processes.
Render Styles in Plots for Continuum Particle Elements
Visualizing element particle edges is now easier with support for wireframe, hidden, filled, and shaded render styles in Abaqus/CAE. This feature simplifies the differentiation of continuum particle elements in plots.
Step-Dependent General Contact
Abaqus/CAE now allows the definition of general contact in any analysis step or the initial step in Abaqus/Standard, enabling the modeling of more complex contact behaviors in simulations.
Contact Mass Scaling
The capability to define contact mass scaling in Abaqus/Explicit has been introduced, reducing the number of increments required for simulations using non-default penalty stiffness.
Channel and Hat Section Profiles
The Property module in Abaqus/CAE now includes the ability to define channel and hat section profiles, simplifying the specification of these common beam cross-sections.
Beam Section Offset for *BEAM SECTION
Abaqus/CAE now supports the definition of a beam section offset for beam sections integrated during the analysis using *BEAM SECTION, providing greater flexibility when modeling with beam elements.
Rotational Couplings
Discrete fasteners and coupling constraints now support the definition of rotational coupling types, offering more control over the behavior of distributing couplings involving cloud nodes with rotational degrees of freedom.
Linearized Contact Capability
The linearized contact capability enables faster results for certain types of contact problems by solving contact status and contact stresses within a static perturbation step with small-sliding, frictionless contact.
Fluid Pressure Penetration Load
Abaqus/CAE now allows the creation of a fluid pressure penetration load to define fluid pressure over a surface, expanding the software’s capabilities for fluid analysis.
Abaqus 2024 Analysis Updates
The analysis capabilities have also been significantly enhanced in Abaqus 2024. Some notable updates include:
– Formation of tie constraints in import analysis
– Adjoint sensitivity analysis for sizing optimization in direct steady-state dynamic analysis
– Modeling deterioration and aging in lithium-ion batteries
– Beam-to-surface submodeling
– Improved keyword interface for importing external fields
Interactions, Materials, and User Subroutines
Several updates have been introduced in interactions, materials, and user subroutines to expand the functionality of Abaqus further.
New Material Models in Abaqus 2024
Nonisotropic Viscoelasticity
One of the significant advancements in Abaqus/Standard 2023 is the ability to define nonisotropic viscoelasticity for a material. This is achieved by specifying distinct Prony series for each component of the stiffness matrix, enabling the definition of orthotropic or transversely isotropic viscoelasticity. This update allows for a more accurate description of material behavior, particularly for composites.
Modeling Curing Processes
Abaqus now offers enhanced functionality for modeling curing processes. The introduction of mean-field homogenization enables the modeling of composite behavior during a curing process using a multiscale material model. This feature significantly expands the capabilities of Abaqus/Standard, particularly in simulating the behavior of composite materials during curing.
Enhanced Cure Kinetics Specification
In the latest update, Abaqus introduces the capability to specify cure kinetics through either the Grindling model or a user-defined form using the UCURE user subroutine. This enhancement facilitates the inclusion of a wide range of cure behaviors in Abaqus/Standard, providing users with greater flexibility in modeling material curing processes.
Valanis-Landel Hyperelastic Model
Abaqus now allows for the definition of the deviatoric response for the Valanis-Landel hyperelastic model by utilizing uniaxial and biaxial tensile test data. This update simplifies the implementation of the Valanis-Landel hyperelastic material model by utilizing readily available tests, making it more accessible for users.
New User Subroutines of Abaqus 2024
UCOHESIVEOFFSET
The UCOHESIVEOFFSET subroutine in Abaqus/Standard allows users to specify an offset for the traction-separation response in cohesive elements that facilitate fluid or slurry transport. This feature is particularly useful for modeling the behavior of materials involved in fluid transport processes, such as adhesives, sealants, or composites with fluid-filled voids.
UCURE
With the introduction of the UCURE subroutine, users can now define custom forms of cure kinetics for their analyses in Abaqus. This capability enables the simulation of a wide range of curing behaviors in composite materials, adhesives, and coatings, providing a more accurate representation of real-world curing processes.
USETTLING
Abaqus/Standard now features the new user subroutine USETTLING, which can be employed to establish the settling velocity of solid particles (proppant) in simulations involving the modeling of slurry transport and placement within a fracture. This functionality is valuable for industries such as oil and gas, where accurate modeling of particle settling is crucial for optimizing hydraulic fracturing operations.
VFILM
In Abaqus/Explicit, the new user subroutine VFILM offers the option to specify nonuniform film coefficient and sink temperature for fully coupled thermal-stress analyses. This enhancement enables more realistic modeling of heat transfer and thermal behavior in systems with varying film coefficients, leading to improved accuracy in thermal-stress predictions.
VUTEMP
Another addition to Abaqus/Explicit is the VUTEMP subroutine, which allows users to assign temperature values at the nodes of a model. This capability is beneficial for simulating heat transfer processes where non-uniform temperature distributions need to be applied, such as in thermal cycling studies or localized heating effects.
These new user subroutines expand the capabilities of Abaqus for advanced material modeling and simulation, providing engineers and researchers with powerful tools to address complex real-world scenarios. Whether it’s simulating fluid-structure interactions, customizing material curing behaviors, or accurately modeling thermal-stress phenomena, these subroutines empower users to push the boundaries of simulation-driven engineering.
The SIMULIA portfolio in the Structures domain includes products on the 3DEXPERIENCE platform, which are available on cloud, along with Abaqus, fe-safe, and Tosca Structure technologies. Abaqus is a market- and technology-leader in linear and nonlinear finite element analysis. Both implicit and explicit solution techniques are available and are complementary. fe-safe technology provides modern algorithms for durability and fatigue lifecycle predictions. Tosca Structure technology enables optimization of the 3D shape and topology of your part to reduce weight and improve strength and stiffness. These technologies are popular for their power, flexibility, feature set, and solution performance on modern High-Performance Computing (HPC) architectures including GPUs and Cloud.
The new release 2024 for the SIMULIA product portfolio includes exciting and essential features to improve the usability at your company in the future and offers a broader range of functionality.
ABAQUS FEM Application in Civil and Structural Engineering
Dassault Systèmes, the 3DEXPERIENCE Company, provides business and people with virtual universes to imagine sustainable innovations. Its world-leading solutions transform the way products are designed, produced, and supported. Dassault Systèmes’ collaborative solutions foster social innovation, expanding possibilities for the virtual world to improve the real world. The group brings value to over 250, 000 customers of all sizes, in all industries, in more than 140 countries.
SIMULIA, the Dassault Systèmes brand for realistic simulation, offers a portfolio of solutions to help product development and engineering organization achieve its technical and business objectives. Products range from the Unified Finite Element Analysis solution to an automated simulation process engine to streamline the engineering and design flow. SIMULIA Abaqus also provides an upgrade path for Abaqus for Solidworks Simulation Users who encounter advanced nonlinear applications commonly found in Life Sciences and Manufacturing.
Owner: Dassault Systèmes
Product Name: SIMULIA Structural Simulation
Version: R2024X * with Documentations
Supported Architectures: x64
Website Home Page : www.3ds.com
Languages Supported: english
System Requirements: Windows & Linux **
Size: 20.3 Gb
Abaqus / CAE: A powerful and complete simulation package for both routine and sophisticated problem solving for industry processes requiring Structures simulation. This scalable suite of unified analysis products allows all users, regardless of their simulation expertise or domain focus, to collaborate and seamlessly share simulation data and approved methods without loss of information fidelity.
Fe-safe: A powerful, comprehensive capability available in the Abaqus portfolio for fatigue analysis from finite element models. It is used with commercial structural analysis (FEA) software, to calculate where and when fatigue cracks will occur and whether they will propagate, and to predict service life variation and is used by leading companies in automotive, heavy truck, off-highway, marine, defense, offshore, power generation, wind energy, medical engineering and many other industries.
Tosca Structure: An integrated topology, shape, and bead optimization technology available with and integrated into the Abaqus portfolio. Tosca is used to optimize the topology, shape, and bead layout of structures considering in-use loading scenarios in order to reduce weight & cost, increase strength, and maximize life.
Isight / SEE: The industry process automation and design optimization software, providing solutions that enable users to reduce analysis time and costs while improving product performance, quality and reliability. SIMULIA Execution Engine (SEE) provides state-of-the art Fiper technology for distributing and parallelizing simulation process flows. Together these allow customers to build a web-based framework for distributing the execution of simulation processes to optimize computing resources and enable collaboration across the enterprise.
Fe-safe: A powerful, comprehensive capability available in the Abaqus portfolio for fatigue analysis from finite element models. It is used with commercial structural analysis (FEA) software, to calculate where and when fatigue cracks will occur and whether they will propagate, and to predict service life variation and is used by leading companies in automotive, heavy truck, off-highway, marine, defense, offshore, power generation, wind energy, medical engineering and many other industries.
Tosca Structure: An integrated topology, shape, and bead optimization technology available with and integrated into the Abaqus portfolio. Tosca is used to optimize the topology, shape, and bead layout of structures considering in-use loading scenarios in order to reduce weight & cost, increase strength, and maximize life.
Isight / SEE: The industry process automation and design optimization software, providing solutions that enable users to reduce analysis time and costs while improving product performance, quality and reliability. SIMULIA Execution Engine (SEE) provides state-of-the art Fiper technology for distributing and parallelizing simulation process flows. Together these allow customers to build a web-based framework for distributing the execution of simulation processes to optimize computing resources and enable collaboration across the enterprise.
Please visit my blog
Added by 3% of the overall size of the archive of information for the restoration
No mirrors please
Added by 3% of the overall size of the archive of information for the restoration
No mirrors please