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The objective in this course is to summarize modern and effective finite element procedures for the linear and nonlinear analyses of static and (implicit and explicit) dynamic problems using ANSYS Mechanical software. The online hybrid course is divided into self-paced online learning and face-to-face instruction.
We want you to be the first to try the new CivilFEM 2019 and, on the occasion of the launch of new version, we invite you to be part of the Beta Tester program.
Feel like it?
Take this opportunity to learn cutting-edge software and discover its new capabilities in the fields of Geotechnical and Structural Analysis.
Just for participating, you will receive a free training course at CivilFEM and will receive a certificate on their behalf as well as a 50% discount on the courses of our ICAEEC.
The winner will also obtain a training grant through the ICAEEC and a 2-month of a CivilFEM Expert license with technical support included that can be used in research works, final projects, papers, etc.
If you are looking to learn and understand basics of FEM (Finite Element Method) and its applications in Civil/Structural Engineering, this course is for you.
In Finite Element Analysis, you have to pay a lot of attention to details. It is crucial to understand what parts of the FEA process are important and which are secondary, in this course you will learn to focus what is important in typical FEA engineering problems.
This free course will cover:
- FEA Intro
- Geometry model preparation
- Boundary conditions and loading
- Reinforced concrete and structural steel examples including code check/design.
This course provides a deep understanding of the fundamentals and key applications of this advanced approach in structural engineering. Specifically, it focuses on analyzing the interactions between thermal response and structural behavior in concrete structures using Finite Element Analysis (FEA).
In this course, we will explore the latest advancements in concrete design, focusing on the integration of prestressed concrete and advanced nonlinear simulations using Finite Element Analysis (FEA).
The course covers key topics essential for cutting-edge concrete design. We will begin with an in-depth examination of the construction stage process, highlighting the time-dependent properties of concrete that play a crucial role in structural behavior.
Reinforced Concrete Structural Design with FEA is a comprehensive course that focuses on the principles and techniques of designing reinforced concrete structures using Finite Element Analysis (FEA).
This course provides a solid foundation in the basic concepts of concrete structural design with FEA. It covers the behavior of concrete, including cracking, crushing, creep, and shrinkage, as well as the properties and behavior of reinforcing steel within concrete structures.