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“I bring extensive experience as a CAE Engineer, with years of expertise in both the automotive and metal structures industries.”
Hello, I’m Renato Carvalho, an Automotive Mechanical Engineer with a postgraduate degree in Structural Analysis using the Finite Element Method.
After years of experience in this field, I developed an Exclusive and Simplified Method for conducting Finite Element Analysis.
I created this training program to share all the knowledge I’ve gained over the years, aiming to turn you into a Specialist in Structural Analysis with FEM.
Entering the CAE field transformed my life, allowing me to work remotely and independently with highly attractive compensation.
While I won’t promise specific earnings, I can assure you that a career in this area offers excellent financial rewards. With dedication and effort, you can achieve a rewarding salary and professional satisfaction.
… Continue reading this page, and I’ll show you everything about this training that will Transform Your Life (I’m not exaggerating…)!
The Finite Element Method for Linear Structural Analysis Training is Perfect for Professionals Who Want to Become Experts by Learning Everything from Scratch
"100% Step-by-Step" Training: I demonstrate exactly how everything works in practice, along with all the necessary theory.
Even with a busy schedule, our training is perfect for you. It’s designed with this in mind.
I cover all the THEORY involved in the subject, and alongside, I provide PRACTICAL EXAMPLES using software.
TRULY FAST and UNLIMITED Support (Our support is often described as almost like a consultancy)
We have numerous testimonials from SATISFIED STUDENTS confirming the effectiveness of the method.
You can watch the classes ANYTIME YOU WANT. The classes are recorded and posted on the platform.
My Work with the Finite Element Method for Linear Structural Analysis Training is Serious… I Love What I Do
Below are some testimonials from students of the training. I’m thrilled to see how the training has helped each person achieve their goals and transform their lives!
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You can access The Finite Element Method for Linear Structural Analysis Training Course now and have up to 7 days to request your money back if you’re not satisfied for any reason…
The goal is to add real value to your life by showing you the highly effective techniques and methods that will lead you to extreme success.
If for any reason you feel it wasn’t worth it, think the product isn’t for you, or any other reason, I will refund your money 100%.
Simply request a refund directly on the platform or by emailing renato.carvalho@learnfea.com
See Below What You Will Get Immediate Access to with The Finite Element Method for Linear Structural Analysis Training
…Just a “snippet” of the content (it’s too comprehensive to describe everything)… The Finite Element Method for Linear Structural Analysis Training is 100% complete, 100% unique, 100% above the market standard…
The Finite Element Method for Linear Structural Analysis course offers a unique opportunity to deepen your knowledge and skills in this fundamental structural analysis technique.
Over the course of 12 modules, this program will cover both essential theoretical principles and practical applications using cutting-edge finite element software (Abaqus).
This training is designed for engineers, designers, and professionals looking to enhance their expertise in structural analysis and numerical simulation.
See below for a brief description of each module.
Module 1
Introduction
In this introductory module, you will explore fundamental concepts of the Finite Element Method (FEM) and understand why this method is of utmost importance. We will also dive into practice with our first structural analysis using state-of-the-art finite element software (Abaqus).
Module 2
Linear Elastic Spring Element
In the second module of the course, we will explore the first finite element: the spring. This is a crucial starting point for establishing a solid foundation in understanding the Finite Element Method (FEM). Additionally, we will consolidate our learning by working on a practical example in the software, applying the concepts learned to spring elements.
Module 3
Linear Elastic Bar Element
In the third module, we will delve into the study of the linear elastic bar element, a structural component that exhibits stiffness when subjected to axial forces. Additionally, we will explore crucial concepts that will be applied later, such as strain energy calculation, Castigliano’s first theorem, and the minimum potential energy theorem. As usual, we will conclude with a practical example using the software.
Module 4
Truss Structures
Module 4 builds on Module 3 by focusing on assembling bar elements to create a truss structure. Trusses are widely used in metal constructions, such as industrial warehouses, mezzanines, roofs, and more. A key feature of this module is the emphasis on techniques for assembling the global stiffness matrix, skills that will be crucial throughout the course. As always, we will conclude the module with a practical example using the software.
Module 5
Beam Element
In this module, we will deepen our study of the beam element, which is notable for its versatility, providing stiffness both to bending moments and axial forces. To consolidate our learning, we will work on a practical example, using Finite Element Analysis (FEA) software to analyze a metal mezzanine.
Module 6
Equations of Elasticity
In this module and the next, we will explore concepts that will play a crucial role in the subsequent modules. We will start by addressing the equations that establish relationships between strain and displacement, as well as between stress and strain. We will then conclude with an analysis of equilibrium equations. All the equations developed here will be critical in future modules, where they will be used in the formulation of various finite elements.
Module 7
Matrix Mathematics and Solution Techniques for Linear Algebraic Equations
Just like Module 6, Module 7 will serve as a crucial foundation for the following modules. In this module, we will delve into the use of matrices, as matrix notation is essential in the context of finite elements. Additionally, we will explore methods for solving systems of linear algebraic equations, as ultimately, a matrix equation represents such a system.
Module 8
Plane Stress
In this module, we will explore the concept of plane stress condition, which occurs when a thin plate is subjected to loads acting only in its plane. For example, a thin plate with a central hole is illustrated, with horizontal tensile forces applied. At the end of the module, we will address modeling this problem using software.
Module 9
Plane Strain
In this module, you will explore the complete theory addressing the plane strain condition. Additionally, we will introduce a new type of element: the linear rectangular element. To further deepen your understanding, we will cover the concept of numerical integration (Gaussian Quadrature), which plays a crucial role in the formulation of more advanced elements. As usual, we will conclude the module with a practical example using software.
Module 10
Isoparametric Formulation
In this module, we will explore the isoparametric formulation of finite elements, a concept of great importance for developing elements with more complex geometries. This approach allows us to model elements with curved sides, which is essential for representing parts of geometries with curvatures, such as holes. Additionally, we will cover the formulation of a new type of element: the quadrilateral element. To consolidate your understanding, we will complete a practical example using software.
Module 11
General Three Dimensional Stress Element
In this module, we will explore three-dimensional elements and their application in structural analysis. These elements are one of the most commonly used and will prove extremely useful throughout our study journey. We will focus on the formulation of the tetrahedral element with 4 nodes, similar to the linear triangular element with 3 nodes that we previously covered. As usual, we will conclude with a practical example using software to enhance our skills.
Module 12
Shell Element
In this module, we will explore the plate and shell elements, which are among the most commonly used types of elements. The shell element combines the characteristics of plate and plane stress elements, making it ideal for modeling thin folded plates. We will cover all the theoretical aspects and conclude with a practical exercise using Abaqus.
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Last Days with 96.70% Discount
Originally 990 USD, now only 30 USD
...Get All Your Money Back
...on a High-Security Platform
...Select the option that works best for you.
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