Published 2/2023MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHzLanguage: English | Size: 1.21 GB | Duration: 2h 36m
A comprehensive course, covering all topics regarding Structural Steel Design. What you'll learn Key Concepts regarding the behavior of Steel Design Methodologies (ASD and LRFD) Factored Load Calculation by LRFD Navigating AISC Manual Practical applications of various concepts of steel design Requirements Familiarity of Structural Mechanics is Required No prior design experience required Access to AISC Manual is preferred Access to ASCE 7 is preferred Familiarity to Eeering Mathematics is preferred Description Part 1 of 7 of the Steel Design Course will teach you the fundamentals of design.It will go over structural steel as a material, its behavior, and other properties such as its advantages and disadvantages, different steel sections, stress-strain relationships in steel, the use of modern steel, economical design of steel structures, structural failure, the duties and responsibilities of a structural designer, and navigating the AISC Manual. This section of the course will also cover the several types of loads (dead, live, and environmental), design methodologies (ASD and LRFD), design philosophies (LRFD), and load combinations utilized in steel structure analysis using the ASCE 7 code. We will also look at its practical use through a variety of scenarios. The design methodology used throughout the course will be LRFD. All the lectures in this course will be based on the book "Structural Steel Design, 5th Edition, by Jack C. MacCormac and Stephen F. Csernak". American Institute of Steel Construction (AISC ) 14th Edition will be referred to throughout the course.Future sections of this course will cover subjects such as tensile member analysis and design, compression member design, flexure member design, different types of connection (bolted, welded) design, and several other topics.All you need is a decent understanding of structural mechanics and eeering-level mathematics. Students are also expected to have access to the AISC Specification and ASCE 7 code. Overview Section 1: Introduction to Structural Steel Design Lecture 1 1.0 Chapter-I Overview Lecture 2 1.1 Advantages of Steel as a Structural Material Lecture 3 1.2 Disadvantages of Steel as a Structural Material Lecture 4 1.3 Early Uses of Iron and Steel Lecture 5 1.4 Steel Sections Lecture 6 1.5 AISC Nomenclature Lecture 7 1.6 Section Properties Lecture 8 1.7 Stress-Strain Relationships in Structural Steel Lecture 9 1.8 Modern Structural Steel Lecture 10 1.9 ASTM Designations Lecture 11 1.10 Measurement of Toughness Lecture 12 1.11 Jumbo Sections Lecture 13 1.12 Lamellar Tearing Lecture 14 1.13 Furnishing of Structural Steel Lecture 15 1.14 The Work of the Structural Designer Lecture 16 1.15 Responsibilities of the Structural Designer Lecture 17 1.16 Economical Design of Steel Members Lecture 18 1.17 Failure of Structures Lecture 19 1.18 Handling and Shipping of Structural Steel Lecture 20 1.19 Calculation Accuracy Lecture 21 1.20 Computers and Structural Steel Design Lecture 22 End of Chapter 1 Section 2: Specification, Loads, and Methods of Design Lecture 23 Chapter-II Overview Lecture 24 2.1 Specifications and Building Codes Lecture 25 2.2 Loads Lecture 26 2.3 Dead Loads Lecture 27 2.4 Live Loads Lecture 28 2.5 Environmental Loads Lecture 29 2.6 Design Methodologies Lecture 30 2.7 Design Philosophy Lecture 31 2.8 Example 1 Lecture 32 2.9 Example 2 Lecture 33 2.10 Example 3 Lecture 34 Congratulations!!! Lecture 35 Next Steps !! Civil Eeering Students,Structural Eeering Students,Structural EITs,Construction Eeering Students,Basically anyone who has interest in this topic HomePage:
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