Design of Steel Structures as per IS 800 from Udemy

This course is designed to introduce Steel structural members design according to the limit states design as per IS800 standards. The basic principles of steel structural design are explained using typical example problems with figures, tables. The examples are illustrated with behavior and design of bolted connection, tension members, compression members, laterally restrained and unrestrained beams, beam columns – members subjected to combined axial and bending forces. Students are expected to obtain the knowledge on principles and design of steel structural elements by end of this course. A preliminary knowledge on structural analysis is required before going to this course.

The Major topics covered in this course is Bolt Shear, Bolt Tension, Rupture, Block Shear in Connection design, Net area, Tension Yield, Tension Rupture, Tension Block Shear in Tension design, Section classification, buckling curve, slenderness ratio in Compression design, Laterally restrained and Laterally unrestrained members in Beam design, finally combined forces like axial force with bending moment covered in Beam column design.

Contents:

Introduction to Steel Structures

Introduction to Steel sections, Section classifications and Steel material

Chapter 2: Steel Connection design

Introduction to connection design

Bolt Shear capacity

Bolt Tension Capacity

Rupture and Block shear calculations

Gusset Plate connection

Worked examples

Chapter 3: Tension member design

Introduction to Tension member design

Net area calculations

Tension Yield capacity calculations

Tension Rupture capacity calculations

Tension Block Shear capacity calculations

Worked examples

Chapter 4: Compression member design

Introduction to Compression member design

Worked examples

Chapter 5: Beam Design

Introduction to Beam design

Laterally Restrained Beam design

Laterally Unrestrained beam design

Worked examples

Chapter 6: Beam Column Design

Combined Axial Force and Bending moment 9.3.1

Combined Axial Force and Bending moment 9.3.2.2

What's inside

Syllabus

Introduction to Steel Structures

Example 8 Tension Capacity with Block Shear of Angle with Bolted connection

Introduction to Steel Structures Part 2

Design of Connection

Introduction to Connection design

Shear Capacity of Bolt

Bolt Tension Capacity

Tension Capacity of the plate

Example 1 Bolted Connection

Example 2 Double Shear Bolted Connection

Example 3 Shear and Tension Connection

Gusset Plate Design-Roof Truss - Part 1

Gusset Plate Design-Roof Truss - Part 2

Design of Tension Member

Introduction to Tension Member Design

Example 1 Gross and Net Area of Plate

Example 2 Tension Capacity of Plate

Example 3 Tension Capacity

Example 4 Tension Capacity with Block Shear

Example 5 Tension Capacity of Angle with Bolted connection

Example 6 Tension Capacity with Block Shear of Angle with Bolted connection

Example 7 Tension Capacity of Channel with Bolted connection

Example 9 Tension Capacity with Block Shear of Angle with Welded connection

Example 10 Tension Capacity with Block Shear of Angle with Welded connection

Design of Compression Member

Introduction to Compression Members

Example 1 I Section With Laterally Restrained

Example 2 Column Design with K value

Example 3 Compression Design Built up section

Example 4 Single Angle Compression Member

Example 5 Double Angle Compression Member

Design of Members Subjected to Bending

Introduction to Design of Beams

Example 1 Laterally Restrained Beam

Example 2 Beam Design Flexure, Shear and Deflection

Example 3 Cantilever beam - Bending, Shear and Deflection

Design of Members Subjected to Combine Forces

Example 1 Combined Axial Force and Bending Moment 9.3.1

Example 2 Combined Axial Force and Bending Moment 9.3.2.2

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 Design of Steel Structures as per IS 800 with these activities:

Review Structural Analysis Principles

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Reinforce your understanding of structural analysis, a prerequisite for this course, to better grasp the behavior of steel structures under load.

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Review fundamental concepts like statics, equilibrium, and support reactions.
Practice analyzing simple beams and frames using methods like the method of joints and sections.
Solve problems related to calculating bending moment and shear force diagrams.

Study 'IS 800:2007' Code

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Become intimately familiar with the IS 800:2007 code, the primary standard for steel structure design in India.

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Obtain a copy of the IS 800:2007 code.
Carefully read the sections relevant to the course topics, such as connections, tension members, compression members, and beams.
Pay close attention to the design requirements and specifications outlined in the code.

Read 'Design of Steel Structures' by Subramanian

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Supplement your learning with a comprehensive textbook that covers the design of steel structures as per IS 800.

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Obtain a copy of 'Design of Steel Structures' by N. Subramanian.
Read the chapters relevant to the current course topics.
Work through the solved examples to understand the application of design principles.

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Solve Connection Design Problems

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Improve your proficiency in connection design by solving a variety of problems related to bolted and welded connections.

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Gather practice problems related to bolted and welded connections from textbooks or online resources.
Solve problems involving shear capacity, tension capacity, rupture, and block shear calculations.
Compare your solutions with the provided answers or worked examples.

Design a Simple Steel Truss

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Apply your knowledge to design a simple steel truss structure, reinforcing your understanding of tension and compression member design.

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Define the geometry and loading conditions for a simple steel truss.
Calculate the forces in each member of the truss using structural analysis techniques.
Design the tension and compression members according to IS 800.
Prepare a design report including calculations and drawings.

Optimize a Steel Structure Design

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Undertake a project to optimize the design of a steel structure for cost-effectiveness and material efficiency.

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Select a steel structure design problem, such as a truss or a frame.
Develop multiple design alternatives using different steel sections and connection details.
Evaluate the cost and material requirements for each design alternative.
Select the design alternative that minimizes cost and material usage while meeting all design requirements.

Career center

Learners who complete Design of Steel Structures as per IS 800 will develop knowledge and skills that may be useful to these careers:

Structural Engineer

A structural engineer analyzes, designs, and oversees the construction of structures, ensuring their safety and stability. This course, focusing on the 'Design of Steel Structures as per IS 800', directly aligns with the core responsibilities of a structural engineer. The course's detailed coverage of steel connection design, tension member design, compression member design, beam design, and beam column design provides a solid foundation for designing steel structures according to Indian standards. A structural engineer who has completed this course will be well-prepared to apply IS 800 standards in their work.

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Bridge Engineer

Bridge engineers specialize in the design, construction, and maintenance of bridges, with steel frequently serving as a primary material. This course focusing on 'Design of Steel Structures as per IS 800', directly applies to their work. Bridge engineers will find the detailed sections on steel connection design, tension member design, compression member design, and beam design especially relevant. The course enables a bridge engineer to design and analyze steel bridge components under prevailing Indian standards. The course's emphasis on practical examples can help a bridge engineer refine their knowledge and skills.

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Structural Designer

Structural designers create detailed plans and drawings for structures, often working closely with structural engineers. This course, 'Design of Steel Structures as per IS 800', is very useful as it focuses on steel structure design. This course will help the structural designer to understand steel connection design, tension member design, and beam design principles, allowing designers to translate engineering concepts into detailed construction documents. By learning about IS 800 standards, a structural designer can ensure their designs comply with Indian regulations.

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Lecturer

Lecturers educate students in a college. The course 'Design of Steel Structures as per IS 800' is very useful for lecturers in civil and structural engineering. The course is designed to introduce Steel structural members design according to the limit states design as per IS800 standards. The course will help a lecturer to effectively explain basic principles of steel structural design using typical example problems with figures, tables.

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Technical Consultant

Technical Consultants provide advice to clients on technical topics. This course is directly applicable as it teaches the steel structural standards. The course's detailed instruction will help a consultant to explain design of steel members. Consultants can better advise their clients.

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Civil Engineer

A civil engineer plans, designs, and supervises the construction and maintenance of infrastructure projects. This course, 'Design of Steel Structures as per IS 800', may be useful to civil engineers who work with steel structures. The course covers essential topics such as steel connection design and beam design. A civil engineer taking this course gains a deeper understanding of steel structures, which can be applied to a range of civil engineering projects. The detailed examples and practical applications make the course particularly relevant to a civil engineer.

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Steel Detailer

Steel detailers produce detailed drawings for steel fabrication and erection. This course on the 'Design of Steel Structures as per IS 800' may be useful to steel detailers as it covers steel connection design and member behavior under different loads. A steel detailer who has taken this course develops a stronger understanding of design principles, enabling them to create drawings that are accurate, efficient, and compliant with design specifications. This course will help a steel detailer avoid errors.

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Building Inspector

Building inspectors examine buildings and structures to ensure they comply with building codes and regulations. This course on the 'Design of Steel Structures as per IS 800' may be useful to building inspectors as it provides a good understanding of steel structure design principles and IS 800 standards. Building inspectors who have taken this course can better assess the structural integrity of steel components and identify potential issues during inspections. The course is best suited for building inspectors involved with commercial or industrial buildings that use steel structures.

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Steel Fabricator

Steel fabricators manufacture steel components. While they do not design the structures, they must understand the design requirements to correctly fabricate the components. The course 'Design of Steel Structures as per IS 800' may be useful by teaching knowledge on principles and design of steel structural elements. A fabricator who understands the forces.

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Sales Engineer

Sales engineers sell technical products or services. This course on the 'Design of Steel Structures as per IS 800' is especially useful, as it provides an understanding of what exactly it is they are selling, and an understanding of their customers. A sales engineer can also explain to builders the design of steel structures.

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Project Engineer

Project engineers manage engineering projects from start to finish, often working on teams with structural engineers and designers. This course on the 'Design of Steel Structures as per IS 800' may be useful to project engineers who handle projects involving steel structures. The course provides project engineers with a deeper understanding of the design challenges and considerations involved in steel construction. The course may benefit a project manager by improving communication with the structural engineering team.

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Construction Manager

A construction manager oversees construction projects, ensuring they are completed on time and within budget. While a construction manager doesn't directly design structures, understanding the principles behind steel structure design is beneficial. This course on the 'Design of Steel Structures as per IS 800' may be useful because it offers insights into how steel structures are designed and helps inform decision-making on site. The course is useful to a construction manager who wants to expand their knowledge of structural engineering.

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CAD Technician

CAD Technicians use computer aided design software to prepare technical drawings. This course on the 'Design of Steel Structures as per IS 800' may be useful for CAD technicians, providing them with insights into steel connection design and how structural members function. A CAD technician who has completed this course will have a greater understanding of steel structures and can prepare better technical drawings. This may improve understanding of engineering specifications.

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Research and Development Engineer

Research and development engineers work to create new techniques and knowledge, and improve existing methods. This course on the 'Design of Steel Structures as per IS 800' may be useful, providing a solid base of understanding. A research and development engineer may use this knowledge in their lab work. Engineers in research and development will benefit.

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Estimator

Estimators calculate the cost of materials, labor, and equipment for construction projects. This course on the 'Design of Steel Structures as per IS 800' may be useful, because estimators who understand the principles of steel design can better assess the quantities of steel required for a project and the complexity of the connections. The estimator will use this course to improve the accuracy of their cost estimates, reducing the risk of overspending.

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Design of Steel Structures as per IS 800

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