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Abaqus Advanced Full Package
The Abaqus Advanced Full Package is built for engineers and researchers who want to move beyond standard tutorials and perform real, publishable finite element simulations
This package includes one hundred eighty-five expert-level Abaqus tutorials based on advanced research and real engineering problems, covering nonlinear behavior, damage and failure, blast and impact, fire, seismic loading, and multi-physics interactions. It is ideal for journal papers, MSc and PhD theses, and numerical validation studies
Each tutorial provides a complete learning experience, including Abaqus CAE models, INP files, and step-by-step English video guidance. You learn not only how to build complex models, but how to select the correct methods, materials, interactions, and solvers to obtain reliable and realistic results
Designed to complement the first full package-tutorial beginner-to-intermediate Abaqus Full Package, this advanced collection helps you eliminate trial-and-error and confidently tackle high-end simulations used in research and industry
Start Modeling at a Research Level
Gain immediate access to one hundred eight-five advanced Abaqus tutorials and take control of blast, impact, fire, seismic, and nonlinear simulations with confidence
This collection consists of one hundred eighty-five advanced Abaqus simulation models, each developed to represent realistic, high-complexity engineering and research problems. The models cover a wide range of structural systems, materials, and extreme loading scenarios, including blast and explosion, impact and penetration, fire exposure, seismic and cyclic loading, and advanced composite behavior
The models are not simplified examples. Each one demonstrates research-level finite element modeling techniques, such as nonlinear material behavior, damage and failure evolution, contact and interaction modeling, large deformation, and multi-physics coupling. Advanced numerical methods, including Abaqus/Explicit, CEL, SPH, peridynamics, and fully coupled thermal–structural analysis, are extensively used throughout the package
The collection includes simulations of reinforced concrete, UHPC and UHPFRC, steel and composite columns and beams, CFRP/GFRP strengthening systems, sandwich and armor panels, timber and hybrid structures, offshore and fluid–structure interaction problems, and manufacturing and process simulations. Many models are directly inspired by published journal papers, experimental studies, and PhD-level research topics
Each model is provided as a complete, ready-to-run Abaqus project, including the CAE file, input file (INP), material definitions, interaction setup, loading and boundary conditions, and result post-processing strategy. Step-by-step English video explanations guide users through the modeling logic, numerical choices, and interpretation of results, making these models ideal for learning, validation, and research reproduction
These one hundred eighty-five models are especially suitable for journal papers, MSc and PhD theses, and numerical–experimental validation studies, and they are intended for users who already have a solid understanding of Abaqus fundamentals and want to advance to expert-level simulation practice
Loading & Analysis Type
Air Blast Load *
Underwater Explosion *
Internal Explosion *
Impact (Low Velocity) *
Impact (High Velocity / Ballistic) *
Penetration & Armor Analysis *
Fire & Thermal Loading *
Seismic Loading *
Cyclic / Fatigue Loading *
Static Structural Analysis *
Dynamic Structural Analysis *
Progressive Collapse *
Fluid–Structure Interaction *
Numerical Method
Abaqus/Standard *
Abaqus/Explicit *
CEL (Coupled Eulerian–Lagrangian) *
SPH (Smooth Particle Hydrodynamics) *
Peridynamics using the XFEM method *
Acoustic–Structural Coupling *
Fully Coupled Thermal–Structural *
Sequential Thermal–Mechanical *
Large Deformation Explicit *
Structure Type
Reinforced Concrete Beams *
Reinforced Concrete Columns *
Beam–Column Joints *
Composite Beams *
Composite Columns *
Slabs & Panels *
Sandwich Structures *
Armor & Protective Systems *
Pipes & Pipelines *
Tanks & Vessels *
Offshore & Marine Structures *
Masonry & Block Systems *
Timber & Wood Structures *
Hybrid Structural Systems *
Material System
Normal Concrete (NSC) *
UHPC / UHPFRC *
Rubberized Concrete *
Steel *
Stainless Steel *
CFRP *
GFRP *
Hybrid FRP Systems *
Ceramic Materials *
Aluminum & Aluminum Foam *
Timber / Wood *
Green & Sustainable Composites *
Bio-inspired / Gelatin / Tissue Models *
Failure & Damage Mechanism
Concrete Damage Plasticity (CDP) *
Brittle Fracture *
Ductile Damage *
Progressive Failure *
Penetration & Perforation *
Bond–Slip Behavior *
Pull-Out Failure *
Crushing & Collapse *
Fire-Induced Damage *
Impact-Induced Damage *
Application Field
Structural Engineering *
Civil Engineering *
Mechanical Engineering *
Protective Structures *
Defense & Ballistics *
Offshore & Marine Engineering *
Earthquake Engineering *
Fire Engineering *
Materials & Composite Research *
Manufacturing & Process Simulation *
Experimental Validation Studies *
Model Purpose
Journal Paper Reproduction *
MSc Thesis Models *
PhD Research Models *
Experimental Validation *
Parametric Study *
Damage Investigation *
Design Comparison *
Method Demonstration *
The price of the second full package is Five Hundred Eighty-Five Euros. You can use a PayPal account, Tether, Bitcoin, a Visa, or a Mastercard for the payment
If you are interested in the second advanced full package, send us an email here: abaqusfem.com@gmail.com
