Steel Structural Design and Drafting course

Course Information


ย ููŠ ู‡ุฐู‡ ุงู„ุฏูˆุฑุฉุŒ ู‡ุฏูู†ุง ุชู…ูƒูŠู† ุงู„ู…ู‡ู†ุฏุณูŠู† ู…ู† ุงุญุชุฑุงู ุจุฑู†ุงู…ุฌูŠ:
โ€ข Autodesk Robot Structural Analysis
โ€ข Autodesk Advance Steel
ู…ู† ุฎู„ุงู„ ุชูุงุนู„ู‡ู… ู…ุน ู…ู‡ู†ุฏุณ ุฎุจูŠุฑ ูˆู…ุณุชุฎุฏู… ุจู‡ู…ุง ููŠ ู…ุดุงุฑูŠุนู‡ ุงู„ุนู…ู„ูŠุฉุŒ ุณูŠุชุนู…ู‚ ุงู„ุทู„ุงุจ ููŠ ุชูุงุตูŠู„ ุงู„ุจุฑู†ุงู…ุฌูŠู†ุŒ ู…ุฑูƒุฒูŠู† ุนู„ู‰ ุงุณุชุฎู„ุงุต ุงู„ุฑุคู‰ ูˆุงู„ู…ู†ู‡ุฌูŠุงุช ู„ู„ู…ู…ุงุฑุณุฉ ุงู„ู…ุชููˆู‚ุฉ. ุทู…ูˆุญู†ุง ู‡ูˆ ุชุนุฒูŠุฒ ู…ู‡ู†ุฏุณูŠู† ุจุฎุจุฑุฉ ุนู„ู…ูŠุฉ ุชู…ุงุฑุณ ุจุณู„ุงุณุฉ ููŠ ุจูŠุฆุฉ ุนู…ู„ู‡ู…ุŒ ูˆุชุนุฒุฒ ูุฑุตู‡ู… ุจุงู„ููˆุฒ ุจุฃู…ุงูƒู†ู‡ู… ููŠ ุณูˆู‚ ุงู„ุนู…ู„.
ุซู… ุณุชุชุนู„ู… ูƒูŠููŠุฉ ุชุตุฏูŠุฑ ู‡ุฐุง ุงู„ุนู…ู„ ุงู„ู‡ู†ุฏุณูŠ ู…ู† ุฎู„ุงู„ ู…ุฎุทุทุงุช ุชุฌูŠุจ ุนู„ู‰ ูƒู„ ุฃุณุฆู„ุฉ ู…ู† ุชุดุฑู ุนู„ูŠู‡ ู„ุชุตู†ูŠุน ู‡ุฐู‡ ุงู„ู‚ุทุนุŒ ุณูˆุงุก ู†ูˆุนูŠุฉ ูˆูƒู…ูŠุฉ ุงู„ู…ูˆุงุฏ ุงู„ุฃูˆู„ูŠุฉุŒ ุงู„ู‚ูŠุงุณุงุช ุงู„ุชู†ููŠุฐูŠุฉ ุจุทุฑูŠู‚ุฉ ุชุถู…ู† ู†ุฌุงุญ ู…ุดุฑูˆุนูƒ ู…ู† ุฃูˆู„ ู…ุญุงูˆู„ุฉ.

The Steel Structural Design and Drafting course with Autodesk Robot Structural Analysis and Autodesk Advance Steel aims to provide comprehensive training in steel structural design and drafting using industry-leading software tools. Participants will gain proficiency in creating detailed steel structural designs, performing structural analysis, and generating drafting documentation for steel structures.


  1. Introduction to Steel Structural Design Software:

Understand the interfaces, navigation tools, and terminology used in Autodesk Robot Structural Analysis and Autodesk Advance Steel.


  1. Sketching Structural Elements:

Learn how to create 2D sketches representing structural elements such as beams, columns, and connections using dedicated tools in Autodesk software.


  1. Constraints and Dimensions in Structural Design:

Explore how to apply geometric and dimensional constraints to structural sketches to define the shape and size of the steel components.


  1. Basic Structural Modeling:

Master techniques for creating 3D solid models of steel structures from sketches, including extrusions, sweeps, and lofting of structural elements.


  1. Editing and Modifying Structural Features:

Practice modifying structural features using commands like fillets, chamfers, and holes to refine the design and ensure structural integrity.


  1. Sheet Metal Design for Structural Components:

Gain proficiency in creating sheet metal components for structural elements, including bends, flanges, and forming tools, and understanding their unique properties and design considerations.


  1. Weldment Features for Structural Frames:

Learn how to create structural frames and weldments using Welding features in Autodesk Advance Steel, including structural members, connections, and trim/extend tools.


  1. Assembly of Steel Structures:

Understand how to assemble steel structures by inserting and connecting multiple parts together, ensuring proper alignment and compatibility.


  1. Bill of Materials for Structural Assemblies:

Explore techniques for illustrating the assembly process of steel structures and generate a bill of materials (BOM) for fabrication.


  1. Structural Analysis Fundamentals:

Introduction to basic structural analysis capabilities in Autodesk Robot Structural Analysis, including setting up and running static analysis on steel structures.


  1. Drawing Generation for Steel Structural Designs:

Learn the process of generating 2D engineering drawings from 3D steel structural models, including dimensioning, annotations, and detailing.


  1. File Management and Best Practices for Steel Structural Projects:

Develop skills in organizing project files, beam & plate nesting techniques, and adhering to best practices to optimize workflow efficiency in steel structural design and drafting.


  1. Civil Engineers: Both undergraduate and graduate students studying civil engineering. Professionals working in civil engineering firms, construction companies, or government agencies.


  1. Mechanical Engineers: Undergraduate and graduate students specializing in mechanical engineering, with a focus on manufacturing processes. Professionals in industries such as manufacturing, machinery, and equipment design, where expertise in cutting, welding, and inspecting steel structures is crucial for production.


  1. Industrial Engineers: Students pursuing degrees in industrial engineering or related fields.

Professionals working in industrial settings, focusing on process optimization, production systems, and facility design.


  1. Drawing Technicians: Technicians and professionals specializing in drafting and technical drawing. Individuals seeking to enhance their skills in drafting drawings, particularly in the context of steel structural design and drafting.

1. ุงู„ู…ู‡ู†ุฏุณูˆู† ุงู„ู…ุฏู†ูŠูˆู†: ุทู„ุงุจ ุงู„ุจูƒุงู„ูˆุฑูŠูˆุณ ูˆุงู„ุฏุฑุงุณุงุช ุงู„ุนู„ูŠุง ุงู„ุฐูŠู† ูŠุฏุฑุณูˆู† ุงู„ู‡ู†ุฏุณุฉ ุงู„ู…ุฏู†ูŠุฉ. ุงู„ู…ู‡ู†ูŠูŠู† ุงู„ุนุงู…ู„ูŠู† ููŠ ุดุฑูƒุงุช ุงู„ู‡ู†ุฏุณุฉ ุงู„ู…ุฏู†ูŠุฉ ุฃูˆ ุดุฑูƒุงุช ุงู„ุจู†ุงุก ุฃูˆ ุงู„ูˆูƒุงู„ุงุช ุงู„ุญูƒูˆู…ูŠุฉ.

2. ุงู„ู…ู‡ู†ุฏุณูˆู† ุงู„ู…ูŠูƒุงู†ูŠูƒูŠูˆู†: ุทู„ุงุจ ุงู„ุจูƒุงู„ูˆุฑูŠูˆุณ ูˆุงู„ุฏุฑุงุณุงุช ุงู„ุนู„ูŠุง ุงู„ู…ุชุฎุตุตูŠู† ููŠ ุงู„ู‡ู†ุฏุณุฉ ุงู„ู…ูŠูƒุงู†ูŠูƒูŠุฉ ุŒ ู…ุน ุงู„ุชุฑูƒูŠุฒ ุนู„ู‰ ุนู…ู„ูŠุงุช ุงู„ุชุตู†ูŠุน. ุงู„ู…ู‡ู†ูŠูŠู† ููŠ ุตู†ุงุนุงุช ู…ุซู„ ุงู„ุชุตู†ูŠุน ูˆุงู„ุขู„ุงุช ูˆุชุตู…ูŠู… ุงู„ู…ุนุฏุงุช ุŒ ุญูŠุซ ุงู„ุฎุจุฑุฉ ููŠ ู‚ุทุน ูˆู„ุญุงู… ูˆูุญุต ุงู„ู‡ูŠุงูƒู„ ุงู„ููˆู„ุงุฐูŠุฉ ุฃู…ุฑ ุจุงู„ุบ ุงู„ุฃู‡ู…ูŠุฉ ู„ู„ุฅู†ุชุงุฌ.

3. ุงู„ู…ู‡ู†ุฏุณูˆู† ุงู„ุตู†ุงุนูŠูˆู†: ุงู„ุทู„ุงุจ ุงู„ุฐูŠู† ูŠุณุนูˆู† ู„ู„ุญุตูˆู„ ุนู„ู‰ ุฏุฑุฌุงุช ุนู„ู…ูŠุฉ ููŠ ุงู„ู‡ู†ุฏุณุฉ ุงู„ุตู†ุงุนูŠุฉ ุฃูˆ ุงู„ู…ุฌุงู„ุงุช ุฐุงุช ุงู„ุตู„ุฉ.
ุงู„ู…ู‡ู†ูŠูŠู† ุงู„ุนุงู…ู„ูŠู† ููŠ ุงู„ุจูŠุฆุงุช ุงู„ุตู†ุงุนูŠุฉ ุŒ ู…ุน ุงู„ุชุฑูƒูŠุฒ ุนู„ู‰ ุชุญุณูŠู† ุงู„ุนู…ู„ูŠุงุช ูˆุฃู†ุธู…ุฉ ุงู„ุฅู†ุชุงุฌ ูˆุชุตู…ูŠู… ุงู„ู…ู†ุดุฃุฉ.

4. ูู†ูŠูˆ ุงู„ุฑุณู…: ุงู„ูู†ูŠูˆู† ูˆุงู„ู…ู‡ู†ูŠูˆู† ุงู„ู…ุชุฎุตุตูˆู† ููŠ ุงู„ุตูŠุงุบุฉ ูˆุงู„ุฑุณู… ุงู„ูู†ูŠ. ุงู„ุฃูุฑุงุฏ ุงู„ุฐูŠู† ูŠุณุนูˆู† ุฅู„ู‰ ุชุนุฒูŠุฒ ู…ู‡ุงุฑุงุชู‡ู… ููŠ ุตูŠุงุบุฉ ุงู„ุฑุณูˆู…ุงุช ุŒ ู„ุง ุณูŠู…ุง ููŠ ุณูŠุงู‚ ุงู„ุชุตู…ูŠู… ุงู„ู‡ูŠูƒู„ูŠ ุงู„ุตู„ุจ .


  • 1. Foundation of Structural Design Software:
    • Introduction to Autodesk Robot Structural Analysis and Autodesk Advance Steel
    • Familiarization with the software interfaces and navigation tools.
  • 2. Basic Structural Modeling:
    • Sketching structural elements using dedicated tools
    • Creating 3D solid models of basic structural components.
  • 3. Advanced Structural Modeling:
    • Modeling complex structural elements and connections.
    • Exploring advanced modeling techniques for intricate designs.
  • 4. Structural Analysis Fundamentals:
    • Understanding the principles of structural analysis
    • Performing static analysis using Autodesk Robot Structural Analysis.
  • 5. Detailing and Drafting
    • Generating detailed engineering drawings from 3D steel structural models.
    • Dimensioning, annotations, and detailing for fabrication and construction
  • 6. Sheet Metal Design for Steel Structures
    • Designing sheet metal components for structural elements
    • Incorporating bends, flanges, and forming tools into steel structural designs.
  • 7. Weldments and Connections
    • Creating structural frames and weldments using Autodesk Advance Steel.
    • Designing and detailing connections for steel structures
  • 8. Professional Practices in Steel Structural Design
    • Best practices for efficient modeling and drafting workflows
    • Standards compliance and quality assurance in steel structural projects
  • 9. Case Studies and Real-world Applications
    • Analyzing real-world steel structural projects
    • Applying learned concepts to practical scenarios and industry examples.
  • File Management and Collaboration
    • Organizing project files and managing configurations in Autodesk softwar
    • Collaborative workflows and data exchange between stakeholders.
  • Advanced Analysis Techniques
    • Exploring advanced structural analysis capabilities in Autodesk Robot Structural Analysis
    • . Optimizing designs for performance and efficiency
  • 12. Introduction to Autodesk Navisworks
    • Utilizing Autodesk Navisworks for sharing and reviewing steel structural designs
    • Visualization techniques for communicating design intent effectively