Name: COMPREHENSIVE ABAQUS TUTORIAL FOR CIVIL ENGINEERS | FULL - CAE Assistant
SKU: civilcou-1-1
Price: 2258.0 EUR
Availability: InStock

This comprehensive online course provides you with the expertise needed to master Abaqus software, enabling you to address a wide array of civil engineering challenges.

Through a carefully structured learning path, you will develop proficiency in various Abaqus applications, utilizing the following key areas:

Foundational Abaqus Skills: Establish a strong foundation in Abaqus by learning to navigate the user interface, create models, define material properties, apply meshing techniques, and perform basic analysis.
Concrete Structures: Explore advanced concrete modeling techniques, including nonlinear material behavior, cracking analysis (CRC), and simulations of reinforced concrete.
Soil Mechanics: Become proficient in modeling soil behavior with Abaqus, covering critical topics such as constitutive models, soil-structure interaction, and advanced geotechnical analysis.
Fluid Flow Analysis: Investigate Abaqus’s water simulation capabilities, ideal for analyzing water flow through dams and other hydraulic structures.
Fastener Modeling: Learn to model and analyze bolted connections in Abaqus, ensuring the structural integrity of your designs.
Material Damage and Fracture: Acquire advanced skills in simulating material damage and fracture, including techniques for concrete cracking (using XFEM and CRC) and steel damage analysis.
Tunneling Simulations: Develop the ability to model tunnel excavation and support systems in Abaqus, focusing on ground behavior and tunnel stability.

The course thoroughly covers Abaqus tutorials and finite element methods for civil engineering. For more details about our training courses and packages, visit our YouTube channel.

CURRICULUM

CURRICULUM

MODULE 1: INTRODUCTION TO ABAQUS

Lesson 1-1: ABAQUS/CAE Introduction

Lesson 1-2: Finite Element Method Introduction

Lesson 1-3: Different elements introduction in ABAQUS

Lesson 1-4: Types of analysis

Lesson 1-5: Some consideration in EXPLICIT Analysis

Lesson 1-6: buckle and frequency analysis

Lesson 1-7: Cohesive Behavior in Abaqus

Lesson 1-8: Damage information in Abaqus

MODULE 2: CONCRETE

Workshop 2-1: Simulation of Ultra-High-Performance-Fiber-Reinforcement Concrete column in cyclic loading

Workshop 2-2: Finite element simulation of Ultra-High-Performance Concrete beam-column joint in cyclic loading

Lesson 2-1: Abaqus composite modeling of Woven & Unidirectional + RVE method

Lesson 2-2: Damage information for structures

Workshop 2-3: Dynamic compression test of in concrete column reinforced with CFRP bars

Workshop 2-4: Finite element Analysis of hollow-core square reinforced concrete columns wrapped with CFRP under compression

Workshop 2-5: Axial compression in the damaged CFRP reinforced concrete column with initial residual stress

Workshop 2-6: Damaged concrete beam with initial residual stress reinforced CFRP sheet in bending loading

Workshop 2-7: Damage analysis of concrete beam-column joints simulation in cyclic loading

Workshop 2-8: FEM analysis of Elliptical ultra-high-performance concrete-filled steel tabular column under a compression loading

Workshop 2-9: Three points bending of High Strength Concrete(HSC) beam Simulation

Workshop 2-10: Flexural behavior of reinforced concrete beams strengthened with ultra-high performance concrete Analysis in Abaqus

Workshop 2-11: Finite element simulation of ECC/Concrete Composite Beam-Column Joints in axial loading

Workshop 2-12: Circular concrete-encased concrete-filled steel tube (CFST) stub columns simulation subjected to axial compression

Workshop 2-13: Axial compression loading simulation in the Ultra-High-Performance Fiber Reinforced Concrete Column

Workshop 2-14: Static and dynamic analysis of Concrete beam in bending loading

Workshop 2-15: Simulation of Flexural Behavior of Concrete Filled Square Steel Tube in Inner CFRP Circular Tube

Workshop 2-16: Damage Investigation of the concrete-filled double skin steel tube in dynamic bending

Workshop 2-17: Simulation of composite column(steel beam and concrete) in cyclic loading

Workshop 2-18: Failure analysis of concrete cover separation in FRP plated in RC beam

Workshop 2-19: Finite element simulation of reinforced concrete beams externally strengthened in flexure with side-bonded CFRP laminates

Workshop 2-20: steel-concrete composite column simulation in vertical and horizontal loading

Lesson 2-3: Heat transfer and Coupled temperature-displacement analysis

Lesson 2-4: ABAQUS Sequential Solution Software

Lesson 2-5: Lemaitre Damage model implementation with VUMAT Abaqus

Workshop 2-21: Damage mechanism and response of reinforced concrete containment structure under internal explosion

MODULE 3: SOIL

Workshop 3-1: Abaqus simulation of embankment construction with geocell on the saturate soil

Workshop 3-2: Abaqus simulation of Pressure Distribution on Subgrade Soil Underlying Geocell Reinforced Foundation Bed

Workshop 3-3: Abaqus simulation of geosynthetic-reinforced soil retaining wall

Workshop 3-4: Abaqus simulation of concrete piled raft interacted with soil

Workshop 3-5: Abaqus simulation of earthquake over a concrete tunnel having interaction with soi

Workshop 3-6: Abaqus simulation of embankment and excavation on saturated soil

Workshop 3-7: Simulation soil consolidation in interaction with concrete pile in Abaqus

Workshop 3-8: Abaqus simulation of geosynthetic-reinforced soil retaining wall besides heap soil

Workshop 3-9: Abaqus simulation embankment construction on saturate soil floor

Workshop 3-10: Aabqus simulation of TBM modeling into the dry mix with saturate soil

Workshop 3-11: Abaqus simulation Pile in interaction with soil under vertical load

Workshop 3-12: Simulation Concrete wall in the soil in Abaqus

Workshop 3-13: Earthquake over gravity dam in interaction with water and soil using Abaqus

Workshop 3-14: Simulation sequential embankment construction and earthquake analysis after it in Abaqus

Workshop 3-15: Simulation Sequential Construction of an Embankment on a Clay Layer in Abaqus

Workshop 3-16: Abaqus simulation and calculation of the total load capacity of the pile group

Workshop 3-17: Simulation bearing capacity of a three-dimensional square foundation in Abaqus

Workshop 3-18: Abaqus simulation end bearing capacity of a pile under rapid load

Workshop 3-19: Simulation Bearing Capacity Failure of a Strip Foundation in Abaqus

Workshop 3-20: Abaqus simulation and calculate the long-term load capacity of a pipe pile

MODULE 4: WATER

Workshop 4-1: Impact Simulation against water-filled X65 steel pipes in ABAQUS

Workshop 4-2: Numerical simulation of failure modes of concrete gravity dams subjected to an underwater explosion in Abaqus

Workshop 4-3: Simulation of water sloshing in the concrete tank under earthquake load in Abaqus

MODULE 5: FASTENERS (BOLTS)

Workshop 5-1: Simulating the failure of bolts at the connection between steel beams and columns

Workshop 5-2: Modeling the dynamic failure of bolts at the joint between steel plates

Workshop 5-3: The simulation of double-angle connections of steel bolts under dynamic load

workshop 5-4: Bolt failure simulation on the steel beam and column connection in Abaqus

MODULE 6: CRACK

Lesson 6-1: Plasticity hardening in Abaqus

Workshop 6-1: Abaqus simulation of crack growth in the RC beam under 5 points bending

Workshop 6-2: Abaqus simulation of crack growth of a concrete wall under normal and transverse loading

Workshop 6-3: Abaqus simulation of crack growth of a bone under 3 points bending

Workshop 6-4: Abaqus simulation of crack growth in a concrete having wood shavings aggregates

Workshop 6-5: Abaqus simulation of crack growth in the Koyna dam under seismic loading

Workshop 6-6: Abaqus XFEM simulation of three-dimensional crack growth in the concrete slab

Workshop 6-7: Crack modeling and mechanical fracture parameter in the four-point bending test in Abaqus

Workshop 6-8: Abaqus XFEM simulation of crack growth in the concrete

Workshop 6-9: Abaqus simulation of crack growth of a pressure vessel using XFEM

Lesson 6-2: Dload and VDOALD subroutine

Workshop 6–10: Simulation of ellipsoid crack in the pressure vessel using Dload subroutine

Lesson 6-3: Continuously Reinforced Concrete Pavement modeling (CRCP)

Workshop 6-11: CRCP cracking analysis

Workshop 6-12: CRCP cracking analysis

MODULE 7: TUNNEL

Workshop 7-1: Damage analysis of an underground box tunnel subjected to surface explosion

Workshop 7-2: Tunnel dynamic analysis subjected to internal blast loading using CEL method

MODULE 8: MASONRY WALL

Workshop 8-1: Masonry wall behavior under coupled Eulerian-Lagrangian explosion

Workshop 8-2: Micro modeling of masonry wall (brick wall) in Abaqus and investigation of rocking mode fracture

Workshop 8-3: Numerical simulation of reinforced bricks masonry beams using GFRP reinforcement in Abaqus

Workshop 8-4: Abaqus micro model simulation of earthquake load over masonry wall

All the package includes Quality assurance of training packages. According to this guarantee, you will be given another package if you are not satisfied with the training, or your money is returned. Get more information in terms and conditions of the CAE Assistant.
All packages include lifelong support, 24/7 support, and updates will always be sent to you when the package is updated with a one-time purchase. Get more information in terms and conditions of the CAE Assistant.

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COMPREHENSIVE ABAQUS TUTORIAL FOR CIVIL ENGINEERS | FULL

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