Master Heat Transfer & Thermal-Stress Analysis in Abaqus – 23 Industrial Workshops
By Abaqusfem
Summary
Topics Covered
- Temperature Shapes Every Structural Behavior
- Three Heat Transfer Modes Demand Coupled Simulation
Full Transcript
Hello everyone and uh welcome to Abacus FEM.
Uh if you're looking um to master heat transfer and thermal stress analysis in Abacus then you've come to the right place. In
this video, I'd like to introduce one of the most comprehensive ABAS training package packages available carefully designed for engineers, researcher,
graduate students and simulation professionals who want to solve real engineering problems not just for basic software theory.
Heat transfer uh is one of the most important topics in engineering simulation. Almost every
engineering simulation. Almost every engineering system is affected by temperature. Whether you're working on
temperature. Whether you're working on an automative engine, a welded structure, a manufacturing process, a steel building exposed to fire, or even
a high speed impact problem. Temperature
has a significant influence on a structure behavior, material properties, deformation, and failure.
To accurately predict this phenomena, engineers uh need to understand the three fundament fundamental uh modes of heat transfer. Conduction, convection
heat transfer. Conduction, convection and radiation.
Conduction describe heat flow through solid material. Convection represent
solid material. Convection represent heat exchange between a solid surface and a throating fluid such as air or water. Radiation transfer. Radiation
water. Radiation transfer. Radiation
transfers heat through electromagnetic waves and become especially important in high temperature application
uh like combustion system and fire engineering. Amacus provide powerful
engineering. Amacus provide powerful capability for modeling all of the transfer mechanism both individually and sim uh simultaneously.
It also allows engineer to perform fully copper thermomechanical analysis where temperature affected the structure deformation as stress distribution and material
behavior. That's exactly what this
behavior. That's exactly what this training package is designed to teach.
This package include uh or contains 23 detailed workshops age based on the practical engineering
application. You can see here the title
application. You can see here the title of H workshop. You simulate a conductive convective and radiation heat transfer
to understand how this mechan uh mechanic uh mechanisms uh interact in the real engine component in the manual
fold. Here you can three for engineer
fold. Here you can three for engineer working in civil and structural engineering. The package includes
engineering. The package includes several fire engineering project. You
learn how to analyze steel frame bolted connection still beams reinforced concrete beams all cores slabs timber structure and composite material under
fire condition using advanced thermal and coupled thermal stress analysis.
Uh if your interest lie in manufacturing uh uh you'll also find workshops covering uh uh machining, chip forming,
cold extrusion, cold spray and cold spray process and also many uh several other models.
Uh these welding projects demonstrate here. You
can see uh multiply numerical approach including the arbitrary oilian langian model ph method that giving get giving you practice uh giving you practical
experience with some of the most advanced technique available in a package also include two complete workshops of arc welding using difflux
sub routine where you learn how to plan moving heat source and predict temperature history residual stress and structural distortion. In addition, you
structural distortion. In addition, you explore thermal analysis uh of the ballastic impact and even investigate thermal mixing and
reverse flow characteristic using computational fluid dynamic or CFD in abacus. But this package is much more
in abacus. But this package is much more than a collection of the simulation example. Every workshop has been
example. Every workshop has been developed uh as a complete learning experience. After purchasing the
experience. After purchasing the package, you'll receive the complete appac CAE models, the corresponding
input file, detail stepbyep video uh user sub routting uh whenever applicable and reference research paper
whenever they are available. This means
uh you won't have to spend hour trying to recreate models from published paper or guess how a particular simulation was built. Everything is prepared for you
built. Everything is prepared for you allowing you to focus on understanding engineering concepts.
uh and one of and one feature that make this package different from many other online courses is it is emphasized at
the real engineering application.
Uh while working through these projects, you'll gain experience with realistic modeling strategies, temperature dependent material properties, thermal
conduct, boundary conditions, advanced matching technical and professional post-processing analysis. Whether you're a university
analysis. Whether you're a university student preparing your theta, the researcher validating numerical model or an engineer working industry, these are
skills that can immediately be applied to your own project.
And at the end uh here we have the payment method. Uh the price for the
payment method. Uh the price for the heat transfer thermal stress analysis package is €146.
We accept PayPal, Visa, Mastercard, and all the crypto currencies for the payment. Before payment, contact us
payment. Before payment, contact us through this email to tell you more about the package, the content, and everything that you need to know. for
now. Thank you for your attention.
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