Concrete constitutive models for low velocity impact simulations

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Duration: 26m
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level:Intermediate

Concrete constitutive models for low velocity impact simulations

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Simulation Files

  • Tutorial Video
    00:00
  • Modeling Files

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Who this product is for :

  • Civil Engineers
  • Mechanical Engineers
  • Engineering students

File collection

Simulation Files

  • Tutorial Video
    00:00
  • Modeling Files

Student Ratings & Reviews

No Review Yet
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Description

Papers abstract:

Concrete structures are commonly exposed to low velocity impact loads originating from windborne/waterborne debris, vehicle/vessel collision, and rock fall. For the performance assessment of concrete structures under such loads, several constitutive models have been developed to date. To compare the accuracy of the available models for practical applications, the current study evaluates four constitutive models: the Continuous Surface Cap Model (CSCM), Elasto-Plastic Damage Cap (EPDC) model, Karagozian and Case Concrete (KCC) model, and Winfrith concrete model. For this purpose, the constitutive models are first examined at the material level through single element simulations under basic stress paths, such as uniaxial compression and tension, as well as triaxial compression. A range of measures—such as post-peak softening, shear dilation, and confinement effect—are extracted and compared. The investigation is then extended to understand how the concrete constitutive models perform at the structure level. This is achieved by replicating drop hammer tests on reinforced concrete (RC) and concrete-filled steel tube (CFST) beams. Investigation of these two structural categories provides a unique opportunity to further evaluate the accuracy of the concrete constitutive models in interaction with the most common reinforcement details. To achieve this goal, the impact responses of RC and CFST beams are compared with full-scale experimental test data. Upon understanding the capabilities of each constitutive model in predicting the structural behavior and damage, the most important modeling parameters are examined. The outcome of this study facilitates the selection and use of concrete constitutive models for the design and assessment of concrete structures subjected to various low velocity impact loads.

 

Product Overview:
This tutorial demonstrates the complete workflow to simulate a drop-weight impact on a reinforced concrete beam using Abaqus/Explicit. Based on the methodology in a peer-reviewed ISI journal, the setup guides users through geometry creation, material assignment, boundary conditions, and result interpretation. Key simulation steps include:

  • Creating geometry for beam, rebar, stirrups, and rigid impactor
  • Assigning concrete and steel materials using Concrete Damage Plasticity
  • Setting boundary conditions, predefined velocity, and dynamic explicit step
  • Embedding reinforcement within the concrete
  • Configuring output requests (DAMAGEC, DAMAGET, U2, RF2, etc.)
  • Meshing parts and managing deformation scale and damage plots

 

In this tutorial, reinforced concrete beam impacts are simulated, according to data from the work of Dikshant Saini and Behrouz Shafei.

More information

  • This tutorial is based on a peer-reviewed study comparing four advanced concrete models. While the paper evaluates CSCM, EPDC, KCC, and Winfrith, the tutorial uses the widely accessible CDP model in Abaqus for simplicity and reproducibility. Users can examine displacement, crack propagation, and stress evolution under impact, aligning well with experimental trends. The package offers both setup instructions and postprocessing techniques, ensuring you gain both technical insight and practical modeling experience.

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Material Includes

  • Package Includes the following items:
  • Simulation files:
  • Abaqus files (The INP files are applicable to all versions):
  • CAE
  • INP
  • JNL
  • Instructional video:
  • Concise 26-minute guide to model setup and outputs for low-velocity impact simulation of RC beams in Abaqus.

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