AISC Steel Design Course - Part 1 of 7 from Udemy

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Syllabus

Advantages & Disadvantages of Steel, Stress-Strain relationships, Navgating AISC Manual, Properties & Uses of Structural Steel & Understading Steel Be

1.0 Chapter-I Overview

This lecture discussed various advantages of steel as a structural material

1) High Strength and Lightweight

2) Uniformity

3) Elasticity

4) Permanence

5) Ductility

6) Toughness

7) Additions to Existing Structures

8) Ease of erection, ease of assembling, etc.

This lecture discussed the various disadvantages of steel as a structural material

1) Corrosion

2) Fireproofing costs

3) Susceptibility to buckling

4) Fatigue

5) Brittle Fracture

1.3 Early Uses of Iron and Steel

This lecture discusses the various standard shapes available in the market

1.5 AISC Nomenclature

1.6 Section Properties

Understanding the behavior of Steel in tension

Effect of temperature on Yield Stress

1.8 Modern Structural Steel

1.9 ASTM Designations

This video discusses the measurement of Toughness with Charpy V-Notch Test

1.11 Jumbo Sections

1.12 Lamellar Tearing

1.13 Furnishing of Structural Steel

1.14 The Work of the Structural Designer

1.15 Responsibilities of the Structural Designer

1.16 Economical Design of Steel Members

1.17 Failure of Structures

1.18 Handling and Shipping of Structural Steel

1.19 Calculation Accuracy

1.20 Computers and Structural Steel Design

End of Chapter 1

Assignment - I

Specification, Loads, and Methods of Design

Chapter-II Overview

2.1 Specifications and Building Codes

2.2 Loads

2.3 Dead Loads

2.4 Live Loads

2.5 Environmental Loads

2.6 Design Methodologies

2.7 Design Philosophy

2.8 Example 1

2.9 Example 2

2.10 Example 3

Congratulations!!!

Assignment - II

Next Steps !!

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in AISC Steel Design Course - Part 1 of 7 with these activities:

Review Structural Mechanics Fundamentals

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Strengthen your understanding of prerequisite knowledge in structural mechanics to better grasp steel design concepts.

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Review notes from previous courses.
Work through practice problems.
Identify areas of weakness.

ASCE 7: Minimum Design Loads and Associated Criteria

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Familiarize yourself with the load combinations and design criteria outlined in ASCE 7, a critical reference for steel design.

View Standard for Mitigation of Disproportionate... on Amazon

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Obtain a copy of ASCE 7.
Review relevant chapters.
Understand load combinations.

Review 'Structural Steel Design' by MacCormac and Csernak

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Reinforce understanding of fundamental steel design principles by thoroughly reviewing the course's primary textbook.

View Structural Steel Design on Amazon

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Read the relevant chapters.
Work through example problems.
Summarize key concepts.

Four other activities

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Create a Glossary of AISC Nomenclature

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Solidify understanding of AISC nomenclature by creating a comprehensive glossary with definitions and examples.

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Review the AISC manual.
Define each term.
Provide examples of usage.

Practice Calculating Section Properties

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Improve proficiency in calculating section properties, a crucial skill for steel design, through repetitive exercises.

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Find practice problems online.
Calculate section properties.
Check your answers.

Design a Simple Steel Beam

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Apply learned concepts by designing a simple steel beam for a given set of loads and constraints.

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Define the design requirements.
Select a suitable steel section.
Verify the design meets code.

Create a Steel Design Resource Compilation

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Deepen understanding and improve future reference by compiling useful resources and tools for steel design.

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Gather relevant articles and papers.
Collect useful software and tools.
Organize the resources logically.

Career center

Learners who complete AISC Steel Design Course - Part 1 of 7 will develop knowledge and skills that may be useful to these careers:

Structural Engineer

A structural engineer designs and oversees the construction of structures, ensuring their safety and stability. This AISC Steel Design Course helps build a foundation in structural steel design principles, covering topics such as steel behavior, properties, and stress-strain relationships. The course's focus on the AISC Manual and ASCE 7 code provides a crucial understanding of industry standards. This introduction to design methodologies like LRFD, coupled with practical scenario analysis, directly prepares aspiring structural engineers for real-world design challenges. The course is particularly helpful for those looking to understand design methodologies used in steel structure analysis.

See salaries and explore the career path for Structural Engineer

Bridge Engineer

Bridge engineers specialize in the design, construction, and maintenance of bridges. The AISC Steel Design Course is highly relevant, as it discusses structural steel properties, design methodologies, and code compliance, all essential for bridge design. The course also teaches the various types of loads that affect design. A bridge engineer must understand these loads for their designs. Bridge engineers will gain a deeper understanding of the behavior and economical design of steel structures, enabling them to create safe and efficient bridge designs. Given the focus on LRFD, the course is helpful for bridge engineers seeking to master modern design techniques.

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Steel Detailer

Steel detailers create detailed drawings and plans for steel structures, translating designs from engineers into practical shop drawings. The AISC Steel Design Course is valuable, as it provides a strong foundation in structural steel design principles, familiarizing the steel detailer with industry standards and practices. The course covers topics like navigating the AISC Manual and understanding steel sections, which directly relates to the steel detailer's daily tasks. Having a solid understanding of the stress-strain relationships in steel, as covered in the provided steel design course description, would be useful in the work of a steel detailer.

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Steel Fabricator

Steel fabricators manufacture steel components for construction projects, preparing them for assembly on site. The AISC Steel Design Course is valuable, as understanding the design principles and specifications outlined in the AISC Manual directly impacts fabrication processes. Steel fabricators who understand the design of the steel are better at manufacturing it. The course touches on the properties of steel. An awareness of steel’s advantages and disadvantages is crucial for producing high-quality fabricated components. This helps fabricators produce safe and durable structures.

See salaries and explore the career path for Steel Fabricator

Architectural Engineer

Architectural engineers focus on the structural and mechanical systems of buildings, integrating architectural design with engineering principles. This AISC Steel Design Course helps build a foundation in understanding steel structures, a common material in modern building construction. The course's coverage of design methodologies and load considerations is directly applicable to ensuring the structural integrity of buildings. Architectural engineers benefit from the information this course offers, such as economical design and steel properties. The course’s focus on the AISC Manual would benefit architecture engineers since it provides industry standards.

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Civil Engineer

Civil engineers plan, design, and supervise the construction and maintenance of infrastructure projects. The AISC Steel Design Course may be useful for civil engineers specializing in structural projects involving steel. The course delves into the advantages and disadvantages of steel, various steel sections, and economical design practices. Understanding loads like dead, live, and environmental loads, as covered thoroughly in the course, is crucial for civil engineers in designing safe and durable infrastructure. The course's emphasis on the AISC Specification and ASCE 7 code further enhances a civil engineer's ability to adhere to industry standards, which ensures the project's safety and efficacy.

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Construction Manager

A construction manager oversees construction projects from start to finish, ensuring they are completed on time and within budget. This AISC Steel Design Course may be useful for construction managers, especially as it provides insights into steel structure design and construction practices. Understanding the properties of structural steel, design methodologies, and the AISC Manual, as covered in the course, enables construction managers to make informed decisions during construction. The course emphasizes the use of LRFD as a design methodology, therefore providing project managers with the tools to oversee steel construction with an understanding of its design principles.

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Project Engineer

Project engineers assist in the planning, coordination, and execution of engineering projects. This AISC Steel Design Course can be useful for project engineers involved in steel construction projects. Knowing the fundamentals of design allows more effective management of projects. With its focus on design methodologies and industry standards like the AISC Manual, this course helps project engineers ensure projects adhere to quality and safety guidelines. Grasping the economic aspects of working with steel, such as economical design, is particularly helpful for a project engineer.

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Construction Inspector

A construction inspector examines construction projects to ensure compliance with building codes, specifications, and safety regulations. The AISC Steel Design Course helps provide a foundation in understanding steel structures and design principles. This includes the properties of steel. Knowing the ins and outs of steel will mean the inspector knows what to look for. Inspectors can use this course’s explanation of the AISC Manual to assist with their knowledge of industry standards. For a construction inspector seeking to strengthen their knowledge of steel construction, this course may be useful addition to their skillset.

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Welding Engineer

Welding engineers specialize in the design and implementation of welding processes, ensuring the integrity and safety of welded structures. This AISC Steel Design Course may be useful for welding engineers, as it provides a stronger base knowledge of the properties and behavior of structural steel. The course covers the AISC manual, so welding engineers have more information. Further this would help them adhere to industry standards. Understanding the design methodologies, particularly LRFD, also enables welding engineers to optimize welding processes for maximum structural performance.

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Quality Control Engineer

Quality control engineers ensure that products and processes meet specific standards and requirements. For quality control engineers working with steel structures, this AISC Steel Design Course may be useful, as it provides insight into steel properties, design methodologies, and industry standards like the AISC Manual. If Quality control engineers understand the standard, they can perform their role more effectively. The course’s focus will allow quality control engineers to perform inspections. They can ensure projects adhere to design specifications and safety regulations, improving overall structural integrity.

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Estimator

Estimators calculate the costs associated with construction projects, including materials, labor, and equipment. The AISC Steel Design Course is useful for estimators working on steel construction projects. The course helps estimators understand the amount of steel needed, due to the course's explanation of design methodologies. This ensures the project remains within budget. Further, the course allows estimators to better anticipate material needs. The estimators know more about steel structures themselves, so they're better placed to budget for steel heavy projects.

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Materials Engineer

Materials engineers research and develop new materials and improve existing ones, focusing on their properties and applications. This AISC Steel Design Course may be useful for materials engineers specializing in steel. The course addresses advantages and disadvantages of steel. This is crucial for selecting appropriate materials for structural applications. Materials engineers gain a deeper context for their research and development efforts. With this information, they can work towards creating stronger and more efficient steel materials. The course's focus is beneficial for informing the work of Materials Engineers.

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Sustainability Consultant

Sustainability consultants advise organizations on how to reduce their environmental impact and improve sustainability practices. While this AISC Steel Design Course is focused on steel design, sustainability consultants can use this information to better advise their clients. The course discusses the advantages and disadvantages of steel as a structural material. Consultants can assess steel's environmental footprint against other materials. Knowing the economic design of steel is also useful. This can provide insights into sustainable sourcing and construction practices.

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Geotechnical Engineer

Geotechnical engineers investigate subsurface conditions and materials to assess the suitability for construction. While this AISC Steel Design Course does not directly address soil mechanics, it may be useful for geotechnical engineers collaborating on projects involving steel structures. The course provides a good base knowledge of structural loads which could be transferable to an awareness of the role of geotechnical engineers in steel construction projects. The course’s focus on industry standards like the ASCE 7 code provides a common ground for communication. Therefore, geotechnical engineers and structural engineers can work together to ensure stability and safety.

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AISC Steel Design Course - Part 1 of 7

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