Structural Engineering Abaqus Tutorials

BY
Udemy

Utilizing the features of the Abacus, gain awareness of the concepts and methods used in structural engineering.

Mode

Online

Fees

₹ 449 1999

Quick Facts

particular details
Medium of instructions English
Mode of learning Self study
Mode of Delivery Video and Text Based

Course overview

Abaqus is a piece of technology used mostly for modeling and analyzing mechanical parts as well as for pre-processing and analyzing the output of finite element analysis. Abaqus software was created by an organization called 3ds Dassault Systems. Abacus is employed in various sectors including construction, automotive, aviation, and manufactured processes markets. Armin Yousefi Kanani, an engineer, created the Structural Engineering Abaqus Tutorials online certification which is offered by Udemy.

Structural Engineering Abaqus Tutorials online course contains more than 13.5 hours of lectures and 74 downloadable resources that aim to help the applicants to get complete knowledge about the fundamentals and features of the Abacus software for civil engineering and mechanical engineering operations. Structural Engineering Abaqus Tutorials online classes topics like loading, damage models, bending, sequential load analysis, crack growth, reinforcement, beams, steel strips, steel bars, metal foam, high-low impact, repetitive impact, XFEM methods, and more.

The highlights

  • Certificate of completion
  • Self-paced course
  • 13.5 hours of pre-recorded video content
  • 74 downloadable resources

Program offerings

  • Online course
  • Learning resources.
  • 30-day money-back guarantee
  • Unlimited access
  • Accessible on mobile devices and tv

Course and certificate fees

Fees information
₹ 449  ₹1,999
certificate availability

Yes

certificate providing authority

Udemy

What you will learn

Civil engineering skills

After completing the Structural Engineering Abaqus Tutorials certification course, applicants will acquire an understanding of the functionalities of Abacus software for structural engineering and civil engineering operations. Applicants will explore various damage models including the Johnson-Cook model, Johnson-Holmquist model, Hasin damage model, concrete damage model, and ductile shear model, as well as will acquire the knowledge of various loading concepts including tensile loading, compressive loading, cyclic loading, three-point bending, high-low impact, repetitive impact. Applicants will learn about strategies to work with concrete, steel columns, beams, steel strips, steel bars, metal foam, and CFRP. Applicants will also learn about strategies involved with sequential load analysis and the XFEM method for analyzing crack growth.

The syllabus

Introduction

  • Introduction

Three point bending

  • Introduction
  • Concrete damaged plasticity (CDP)
  • Concrete beam
  • Hashin damage model for composite material
  • Concrete beam with CFRP reinforcement
  • Concrete beam with steel bars and strips reinforcement
  • Crushable foam plastic model
  • Concrete beam with metal foam reinforcement

Compressive Loading

  • Introduction
  • Concrete column
  • Concrete column strengthen with bars and strips
  • Concrete column Strengthen with bars, strips and CFRP

Sequential load analysis

  • Reinforcing damaged column with CFRP under sequential load

Cyclic Loading

  • Modelling reinforced beam and column
  • Applying load and boundary condition and results

Tensile Loading

  • Introduction
  • Concrete Specimen using CDP model
  • Ductile and shear damage
  • Aluminium Specimen using ductile damage model
  • Adaptive mesh
  • Single-Lap joint (Part-1)
  • Single-lap joint (Part-2)

High velocity Impact

  • Overview
  • Johnson-Holmquist model
  • Reinforced Concrete block under impact loading using rigid projectile(Example-1)
  • Example-1 (Part-1)
  • Example-1 (Part-2)
  • Concrete block under impact loading using steel projectile (Example-2)
  • Johnson Cook damage model
  • Example-2
  • Crushable Foam under impact loading
  • Example-3 (Part-1)
  • Example-3 (Part-2)

Impact loading by considering thermal effect

  • Introduction
  • Thermal Parameters
  • Example-1 (Part-1)
  • Example-1 (Part-2)

Low velocity Impact

  • Drop test on phone

Repetitive low velocity impact

  • Steel beam under repetitive low velocity impact

XFEM

  • Introduction
  • 2D-Concrete beam with pre-crack under 3 point bending
  • Implicit Solver
  • 3D-Concrete beam with pre-crack under 4 point bending

Only Theory

  • Concrete damaged plasticity (CDP model)
  • Hashin damage model
  • Ductile and shear damage
  • Johnson-Holmquist damge model
  • Johnson Cook damage model
  • Crushable foam plasticity
  • Thermal Properties

Instructors

Mr Armin Yousefi Kanani
Engineer
Freelancer

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