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Concrete Damage Plasticity Simulation of FRP-Confined Concrete Columns in Abaqus

Concrete Damage Plasticity Simulation of FRP-Confined Concrete Columns in Abaqus

 280.0

This tutorial package provides a comprehensive guide to implementing USDFLD subroutine in the context of Concrete Damage Plasticity Material Model.  The tutorial focuses on key modeling aspects such as definition of concrete material properties using Concrete Damage Plasticity (CDP) Model.  A theoretical background of the model will be presented and detailed explanation of the definition of all material properties will be given.  The package will also explain the usage of the USDFLD subroutine to modify concrete material properties dynamically during simulation. Examples of implementing USDFLD in the context of CDP will be presented with focus on material properties that vary in function of pressure and axial strain defined as field variables.

All other modeling details will also be explained including boundary conditions, meshing, loading, and interactions.

By following the detailed steps in this tutorial, you will be able to create and analyze advanced FEM simulations in Abaqus with a focus on concrete having properties that vary during simulation.

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Available on 2024/12/07
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Abaqus advanced tutorials on concrete members

Abaqus advanced tutorials on concrete members

 250.0

Welcome to the "Abaqus Advanced Tutorials on Concrete Members" course, designed to provide civil and structural engineers with cutting-edge expertise in finite element modeling (FEM) and simulation using Abaqus. This advanced-level course focuses on the detailed modeling of complex concrete and composite columns under various loading conditions. Topics include the simulation of tubed reinforced concrete columns, concrete-filled double skin steel columns, and fiber-reinforced polymer (FRP) composite columns. Participants will delve into axial and eccentric compression loading scenarios, with a special focus on hollow and tapered cross-sections. The course also emphasizes comparing simulation results with experimental data from published research, ensuring practical relevance and accuracy. By the end of the course, learners will be equipped with the necessary skills to tackle advanced structural analysis challenges using Abaqus, reinforcing their understanding of concrete member behavior in real-world applications.

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Available on 2025/01/20
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Plain and Reinforced Concrete Structures with ABAQUS

Analysis of Plain and Reinforced Concrete Structures with ABAQUS | Validation with Experiments

 120.0

This comprehensive package offers four different workshops focused on the analysis of plain and fiber-reinforced concrete structures using ABAQUS. Designed for professionals, researchers, and students, it provides hands-on learning in modeling, simulating, and validating concrete structures under various conditions. Each workshop dives into specific aspects of concrete behavior, from flexural to compressive strength, incorporating the latest sustainable practices through the use of recycled materials. The package ensures mastery of ABAQUS, offering practical insights and a cost-effective path to advanced concrete analysis and safer, more durable infrastructure design.

Note: Only the first workshop has video.
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SFRCs with recycled fibers

Stress-strain characteristic of SFRC using recycled fibres | An Abaqus Simulation

 40.0

This training utilizes Abaqus software to simulate and analyze the stress-strain characteristics of Steel Fiber Reinforced Concrete (SFRC) using recycled fibers. The importance of this work lies in its contribution to sustainable construction practices by validating the effectiveness of recycled steel fibers in enhancing concrete's mechanical properties. Through advanced finite element analysis (FEA), the project addresses challenges in accurately modeling SFRC's post-cracking behavior, ensuring that the simulations are aligned with experimental data for reliable results. Abaqus' capabilities in nonlinear material modeling, stress-strain simulation, and principal stress analysis significantly improve the accuracy and reliability of the research, making it a valuable tool for both academia and industry.

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Nonlinear Analysis of RC Columns Using ABAQUS | Validation with Experimental Data

 40.0

Reinforced Concrete (RC) columns are critical components in civil engineering, essential for the stability of buildings, bridges, and infrastructure during seismic events. This study leverages ABAQUS, a powerful finite element analysis (FEA) software, to simulate the seismic performance of RC columns. By modeling columns in 3D and using ABAQUS's advanced tools, we replicate experimental conditions to analyze their behavior under seismic loads. Numerical simulations offer the advantage of exploring various scenarios quickly and cost-effectively, while also allowing for extensive parametric studies. The study details how ABAQUS models both concrete and steel reinforcement, accounts for interaction effects, and applies appropriate loading and boundary conditions. The simulations provide valuable insights into failure modes, load-displacement responses, and crack patterns, offering a comprehensive understanding of RC column performance in seismic scenarios.

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sfrc concrete

Analysis of Steel-Fiber Reinforced Concrete (SFRC) Beams with Abaqus

 40.0
Steel-Fiber Reinforced Concrete (SFRC) is an innovative composite material that enhances the structural integrity of traditional concrete by incorporating steel fibers, which improve toughness and ductility. This makes SFRC concrete particularly valuable in earthquake-prone regions, where its ability to resist cracking and absorb energy is critical. The analysis of SFRC concrete beams, through both experimental and numerical methods like finite element analysis (FEA) in Abaqus, provides insights into their behavior under seismic loads, highlighting benefits like enhanced energy dissipation and ductility. Such analysis is essential for designing resilient structures, offering significant advantages to engineers, construction companies, researchers, and policymakers.
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Fiber Reinforced Concrete Beams | An Abaqus Simulation

 30.0
Fiber Reinforced Concrete (FRC) incorporates fibers into the concrete matrix to enhance its mechanical properties. For example, we can refer to tensile strength, toughness, and impact resistance. This innovation reduces concrete’s inherent brittleness, making it more ductile and capable of withstanding higher stresses without failure. FRC’s ability to bridge cracks and improve durability makes it ideal for demanding structural applications, including industrial floors, pavements, bridge decks, and airport runways. Accurate analysis of FRC beams, particularly their flexural behavior, is crucial for predicting performance under real-world conditions. We use Abaqus, a powerful finite element analysis software, to simulate and analyze these beams. It provides insights into how fiber content, concrete strength, and reinforcement ratios affect structural performance. These simulations provide valuable data for engineers, researchers, and students, aiding in the design and optimization of FRC structures.  
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Abaqus basic tutorials on concrete beams and columns
Abaqus basic tutorials on concrete beams and columns

Abaqus basic tutorials on concrete beams and columns

 150.0

Welcome to the “Abaqus Basic Tutorials on Concrete Members,” a comprehensive course tailored for civil and structural engineers seeking to master finite element modeling (FEM) of concrete structures. This tutorial covers key concepts such as plain concrete beam and column modeling, reinforced concrete members, and fiber-reinforced polymer (FRP) composites. The course guides learners through the application of boundary conditions, material properties, and various loading conditions in Abaqus. Key topics include plain concrete beam and column modeling, reinforcement modeling with steel bars and stirrups, and fiber-reinforced polymer (FRP) reinforcement techniques. Participants will also explore comparing simulation results with experimental data, as well as interpreting critical outcomes such as stress distribution and failure modes. Through hands-on workshops, learners will simulate structural behaviors under axial, lateral, and compression loads, ensuring a practical understanding of FEM for concrete members. By the end of this course, participants will be proficient in using Abaqus to model and analyze concrete structures, reinforced elements, and advanced composites, providing them with a strong foundation for structural analysis and design.

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Available on 2025/01/20
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concrete gravity dam design

Seismic Analysis in Post-Tensioned Concrete Gravity Dam Design Using Abaqus Subroutines

 190.0
This project investigates the seismic analysis of post-tensioned concrete gravity dams. To achieve this, we utilized ABAQUS CAE with the UEL (User Element) subroutine. The project enhances the simulation of complex structural interactions, including inclined anchors and weak joints, which are crucial elements in concrete gravity dam design. Specifically, it provides a detailed comparison between transient and pseudo-static analysis results. This comparison is essential for understanding how the dynamic responses and structural behavior of these dams under seismic conditions can be effectively modeled and validated within the broader scope of concrete gravity dam design. Moreover, the project offers insights into potential debonding issues and their impact on post-tensioning forces, which are critical considerations in concrete gravity dam design. This research benefits civil engineers and academics by advancing the methodologies used for designing and analyzing the resilience of gravity dams, particularly in earthquake-prone regions.
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continuously reinforced concrete pavement​

continuously reinforced concrete pavement​ (CRCP) Analysis

 210.0
(1)

The increasing adoption of continuously reinforced concrete pavement (CRCP) in highway pavement design is driven by its demonstrated superior performance. Critical to evaluating the long-term effectiveness of CRCP is the understanding of early-age cracks, which has garnered significant interest from highway departments. This Abaqus Continuously reinforced concrete pavement modeling project aims to establish precise design parameters for CRCP and analyze the formation of crack patterns. By accounting for stress factors such as environmental conditions and CRCP shrinkage modeling, the project offers valuable insights into predicting the likelihood of crack initiation and propagation within the concrete slab. These insights are instrumental in enhancing the durability and performance of CRCP structures, thus advancing the efficiency and effectiveness of highway infrastructure.
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UHPC (Ultra-High Performance Concrete) structures simulation in Abaqus

 170.0
(1)
Ultra-High Performance Concrete structures refer to structures that are constructed using Ultra-High Performance Concrete (UHPC). UHPC is a specialized type of concrete known for its exceptional strength, durability, and resistance to various environmental and loading conditions. UHPC structures can include bridges, high-rise buildings, infrastructure components, architectural elements, and more. Simulating UHPC structures is of significant importance. Through simulation, engineers can analyze and predict the structural behavior and performance of UHPC under different loading conditions. This includes assessing factors such as stress distribution, deformation, and failure mechanisms. By simulating UHPC structures, engineers can optimize the design, evaluate the structural integrity, and ensure the safety and reliability of these complex systems. In this project package, you will learn simulating the UHPC structures with many practical examples. Here we have a special package for the UHPC Beams
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Ultra-High Performance Concrete (UHPC) beams simulation in Abaqus

 109.0
(1)
UHPC (Ultra-High Performance Concrete) is an advanced type of concrete known for its exceptional strength, durability, and resistance. It consists of a dense matrix of fine particles, high-strength aggregates, and a low water-to-cement ratio. UHPC offers superior performance and is used in construction projects where high-strength and durability are required. UHPC (Ultra-High Performance Concrete) beams are advanced structural elements known for their exceptional strength, durability, and resistance. Simulating UHPC beams using software like Abaqus is crucial for evaluating their behavior under different loads and optimizing their design. With Abaqus simulations, engineers can analyze the structural response, stresses, and deformations of UHPC beams, ensuring they meet safety standards and design requirements. In this project package, you will learn how to simulate UHPC beams in 6 practical workshops.
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Tunnel excavation simulation using TBM in Abaqus

 49.0
(2)
Notice: This package will be available one week after purchase. Tunnel Boring Machines (TBMs) are advanced construction equipment used to excavate tunnels with efficiency and precision. These massive machines consist of a rotating cutting wheel equipped with disc cutters, which excavate the soil or rock, and a conveyor system that removes the excavated material from the tunnel. TBMs play a crucial role in various industries, including transportation, mining, and underground infrastructure development. TBM simulation is of utmost importance in the planning and execution of tunneling projects. It allows engineers and project managers to evaluate the feasibility of different tunneling methods, optimize the design and operation of TBMs, and predict potential challenges and risks. By simulating the TBM's performance and behavior under various geological conditions, factors such as ground stability, excavation rates, cutter wear, and potential impacts on surrounding structures can be analyzed and mitigated. In this package, you will learn how to do a TBM simulations by several practical examples.
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UHPFRC

UHPFRC (Ultra-High-Performance Fiber Reinforced Concrete) structures in Abaqus

 210.0
(1)
UHPFRC (Ultra-High-Performance Fiber Reinforced Concrete) structures have emerged as a groundbreaking innovation in construction. These structures offer exceptional strength, durability, and performance, revolutionizing the industry. UHPFRC incorporates a precise combination of Portland cement, fine aggregates, admixtures, and steel or synthetic fibers, resulting in an extraordinarily dense and robust composite material. With compressive strengths exceeding 150 MPa, UHPFRC structures exhibit enhanced resistance to cracking, increased load-bearing capacity, and improved durability against environmental factors such as corrosion and freeze-thaw cycles. The superior mechanical properties of UHPFRC enable the design of slimmer and lighter elements, leading to reduced material consumption and more sustainable construction practices. UHPFRC structures find applications in various fields, including bridges, high-rise buildings, marine structures, and precast elements, offering long-term performance and contributing to the advancement of modern construction. In this package, you will learn how to simulate these structures with many practical examples.
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Abaqus tunnel

Tunnel Simulation in Abaqus

 39.0
(1)
A tunnel is an underground or underwater passage for transportation, utility lines, or water pipelines. Tunnels are critical infrastructure, and their safety and reliability are essential for ensuring public safety and the smooth functioning of society. Tunnel simulation involves using computer models to predict the behaviour of tunnels under different types of loading conditions, such as earthquakes, floods, or explosions. These simulations can help engineers and policymakers assess the safety and reliability of tunnels, identify potential failure modes, and develop strategies to mitigate risks. By using advanced simulation techniques, engineers can better understand the complex behavior of tunnels and design more effective and durable structures. Tunnel simulation is an essential tool for ensuring the safety and resilience of tunnels and the infrastructure they support. Some workshops are presented in this package to teach you how to simulate and analyze tunnels in Abaqus; two of these workshops are Damage analysis of an underground box tunnel subjected to surface explosion and Tunnel dynamic analysis subjected to internal blast loading using CEL method.
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Abaqus Dam Simulation

Dam simulation in Abaqus

 49.0
(1)
A dam is a large concrete or earthen barrier built across a river or other waterway to create a reservoir for storing water. Dams are critical infrastructure for providing water for irrigation, drinking, and hydroelectric power generation. However, they are also susceptible to damage from natural disasters and human-made threats, such as earthquakes, landslides, and terrorist attacks. Abaqus can predict the behavior of dams under different loading conditions, including earthquakes, floods, and explosions. It also can model the interaction between the dam, water, and soil, making it a comprehensive and powerful tool for dam engineering. In this package, you will learn how to model dams in different conditions, such as dam simulation subjected to earthquakes in interaction with water and soil and dam simulation subjected to an underwater explosion.
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Customized Package

 1370.0 / year
Abaqus tutorial     Make payment based on your invoice Abaqus tutorial     This product and amount are available temporary based on your invoice due time
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Concrete structure Abaqus

Abaqus Concrete structure Modeling Full Tutorial

 600.0
(10)
The package includes 19 workshops on topics such as concrete, beam-column structures, composites, steel rebars, Ultra-High-Performance-Fiber-Reinforcement Concrete columns, CFRP bars, hollow-core square reinforced concrete columns wrapped, damaged concrete beams, High Strength Concrete(HSC),ECC/Concrete Composite Beam-Column Joints, circular concrete-encased concrete-filled steel tube (CFST) stub columns, and etc. Every tutorial includes all needed files and step-by-step English videos and is explained from A to Z. Package duration: +600 minutes    
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Concrete reinforcement and column beam joint structures in ABAQUS-Pack
Concrete reinforcement and column beam joint structures in ABAQUS-package

Concrete reinforcement and column beam joint structures in ABAQUS

 225.0
Today, modeling structures with concrete, reinforcements, as well as beam and column joints are of great importance. This training package presents theories as well as various points of simulation of these structures.
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Silver Membership

 789.0 / year
Here is a description for the membership to access ABAQUS packages based on the provided details: ABAQUS Packages Membership
  • Duration: 12 months
  • Cost: €789 per 12 months
  • Packages Included: 5 packages
  • Packages Paid For: 4 packages
  • Discount: More than 55%
Package Details:
  • Access to 5 ABAQUS training packages
  • Pay for only 4 packages, but receive 5 packages
  • Significant discount of more than 55% off the regular package pricing
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Platinum Membership

 2489.0 / 2 years
Here is a description for the membership to access ABAQUS packages based on the provided details: ABAQUS Packages Membership
  • Duration: 24 months
  • Cost: €2,489 per 24 months
  • Packages Included: 20 packages
  • Packages Paid For: 13 packages
  • Discount: More than 65%
Package Details:
  • Access to 20 ABAQUS software packages
  • Pay for only 13 packages, but receive 20 packages
  • Significant discount of more than 65% off the regular package pricing
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Golden Membership

 1389.0 / year
Here is a description for the membership to access ABAQUS packages based on the provided details: ABAQUS Packages Membership
  • Duration: 12 months
  • Cost: $1,389 per year
  • Packages Included: 10 packages
  • Packages Paid For: 7 packages
  • Discount: More than 60%
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