Goldak heat input for Welding and AM process

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Duration: 5m
Enrolled:0
level:Intermediate

Goldak heat input for Welding and AM process

What You Will Learn?

  • What is Goldak heat input and why it’s used for welding and additive manufacturing
  • Fundamentals of Wire Arc Additive Manufacturing (WAAM)
  • The thermal behavior of welded structures and how to simulate it
  • How to set up a Goldak heat source in Abaqus for a welding model
  • Comparison between standard and Goldak-based heat input methods
  • How residual stresses form during welding and how heat input affects them
  • How to build and simulate the model in under 10 minutes

Course Content

Tutorial Video

  • Goldak heat input model for Welding and Additive Manufacturing process
    04:50

Simulation Files

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Who this product is for :

  • Mechanical Engineers
  • Engineering Students

What You Will Learn?

  • What is Goldak heat input and why it’s used for welding and additive manufacturing
  • Fundamentals of Wire Arc Additive Manufacturing (WAAM)
  • The thermal behavior of welded structures and how to simulate it
  • How to set up a Goldak heat source in Abaqus for a welding model
  • Comparison between standard and Goldak-based heat input methods
  • How residual stresses form during welding and how heat input affects them
  • How to build and simulate the model in under 10 minutes

File collection

Tutorial Video

  • Goldak heat input model for Welding and Additive Manufacturing process
    04:50

Simulation Files

Student Ratings & Reviews

No Review Yet
No Review Yet

Description

Product Overview:

Enhancing mesh efficiency in Abaqus is critical for reducing computational time without sacrificing model accuracy. This comprehensive tutorial series dives into advanced meshing techniques within Abaqus/CAE, particularly suited for 3D geometries, models with contact, and components featuring complex topologies such as holes or curved paths.

In this course, you’ll learn how to strategically partition geometry, apply specialized meshing methods like sweep, medial axis, and advancing front, and optimize mesh density based on stress concentration zones. Practical examples and PowerPoint explanations are included to ensure clear understanding, alongside guidance on essential tools like mesh quality verification and node dragging for element refinement.

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Material Includes

  • Tutorial video, Abaqus files (CAE, INP, ODB, JNL).

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