Steel Design Module 2 - ANSI/AISC 360-16 Standard - AulaGEO

🌟 Advanced Structural Steel Analysis with MATLAB - AulaGEO Academy 🎓

Course Summary:

With a strong Welcome to "Advanced Structural Steel Analysis with MATLAB," we're excited to guide you through the intricacies of structural steel analysis using one of the most powerful tools in engineering – MATLAB. This course is meticulously designed to provide both the theoretical foundations and practical skills required to tackle complex steel structures, particularly in the realm of special moment frames. 🏢🛠️

Objective:

The ultimate goal of this course is to transform you into an expert in using MATLAB for structural steel analysis. By the end, you'll be equipped to confidently perform intricate calculations, interpret curves, and analyze structural components to ensure they meet rigorous safety and performance standards as per ANSI/AISC 360-16 Standard.

Target Audience:

This comprehensive course is tailored for:

• 👨‍💼 Structural Engineers looking to elevate their analytical prowess using MATLAB.
• 🚀 Civil Engineering Students and Graduates aiming to specialize in steel design.
• 🏗️ Professionals in Construction and Infrastructure who wish to harness the capabilities of MATLAB for structural analysis.
• 🤖 Anyone with a foundational understanding of structural engineering concepts eager to learn how MATLAB can be leveraged for advanced steel structure analysis. #AulaGEO

Course Content:

Dive into an array of engaging lectures designed to cover all facets of structural steel analysis using MATLAB, including:

Introduction

We kick off with the basics and build up your knowledge from there. 📚

Lecture 1: Practical Application of IP360 Profile in Special Moment Frames

• Understanding the IP360 profile and its role in special moment frames.
• Real-world examples demonstrating practical applications.

Lecture 2: Example Design of Flexural Members Using MATLAB

• Step-by-step design process for flexural members.
• Application of design principles using MATLAB, with practical exercises.

Lecture 3: Introduction to MATLAB for Flexural Member Design

• Getting familiar with the fundamentals of MATLAB for beginners.
• Setting up your first MATLAB script for structural analysis.

Lecture 4: Introduction to Local Buckling in Steel Flexural Members Using MATLAB

• Exploring the concept of local buckling and its importance in design.
• Utilizing MATLAB to analyze and mitigate local buckling risks.

Lecture 5: Calculating Characteristic Lengths and Plastic Moments Using MATLAB

• Understanding the significance of characteristic lengths and plastic moments.
• Step-by-step guidance on calculations in MATLAB.

Lecture 6: Generating Curves for Cb Values in MATLAB

• Learning about Cb values and their impact on structural analysis.
• Hands-on experience with generating and interpreting curves in MATLAB.

Lecture 7: Calculating Curves for Lb with Varying Cb

• Detailed calculations for nominal moments considering different unbraced lengths (Lb) and Cb values.
• Using MATLAB to ensure precise and accurate results.

Lecture 8: Calculating Nominal Moment and Shear in MATLAB for Cb ≠ 1

• Analyzing nominal moment and shear for non-standard Cb values.
• Ensuring structural integrity through detailed MATLAB analysis.

Lecture 9: Setting Up and Running Algorithms in MATLAB for Structural Steel Analysis

• A comprehensive guide to setting up MATLAB for structural analysis.
• Troubleshooting common issues while running algorithms.

Conclusion:

This course is your key to mastering the art of structural steel analysis with MATLAB and elevating your engineering skills to a professional level. Enroll now and unlock the full potential of your analytical capabilities! 🔓

Join us at AulaGEO Academy, where cutting-edge learning meets real-world applications. Let's embark on this journey together and transform the way we approach structural steel analysis! 🚀✨