Design Principles Of Concrete Structures - Ii
Basics , Design of Single[4 Design Methods] and Doubly beam , T- Beam and Slab design
What you'll learn
Load Transfer Mechanism from Slab to beams, How to prepare Bar Bending Schedules (BBS)
Design of beams with Detailed Examples, Analysis and design of T-Beams
Analysis of Doubly reinforced beams and design of doubly reinforced beams
Special Topics: Structural system in High Rise buildings, Ground improvement techniques, Structural Scheming (Structural Planning)
Requirements
Design Principles of Concrete Structures - I
Basic knowledge of materials, Structural Analysis
Description
The "Design Principles of Concrete Structures" course is designed to provide a comprehensive understanding of the fundamental principles and practices involved in designing concrete structures. It covers various aspects of concrete design, including structural analysis, material properties, and design methodologies. Here is a description of the key topics typically covered in this course:Lecture -1- Load Transfer from Slabs to Beams Lecture -2- Bar Bending Schedule Lecture -3 Design Examples Lecture -4- Flexural Analysis and Design of Doubly Beams Lecture -5- Flexural Analysis and Design of T & L Beams Lecture -6- Flexural Analysis and Design of T & L Beams Lecture -7- One way slab design Lecture -8- Two way slab design How load transfer from slabs to beams is discussed and how bar bending schedule/tables are formed are discussed thoroughly. For 1-way and 2-way slab design, determine the design loads: Identify the dead load (self-weight of the slab and any permanent fixtures) and live load (occupancy and use-specific loads) that the slab will need to support. These loads are typically specified by local building codes or design standards. determine the effective span and effective depth: Calculate the effective span of the slab, which is the distance between the supports along the direction of the primary bending moment is discussed. Further topics are given above The Design Principles of Concrete Structures - II is continuation of Couse Design Principles of Concrete Structures - I. Throughout the course, students have to engage in design side by side with lectures.
Overview
Section 1: Load Transfer Mechanism from Slab to beams
Lecture 1 Load transfer from slab to beams part 1
Lecture 2 Load transfer from slab to beams part 2
Section 2: Bar Bending Schedules BBS
Lecture 3 BBS
Section 3: Design Examples
Lecture 4 Design Examples
Lecture 5 Detailed Full Example 2
Section 4: Design of Doubly Beams
Lecture 6 Analysis of Doubly Reinforced beam Part 1
Lecture 7 Analysis of Doubly Reinforced beam Part 2
Lecture 8 Design of Doubly Beams
Section 5: Analysis & Design of T & L Beams
Lecture 9 Analysis & Design of T & L Beams (Theory Background)
Lecture 10 Analysis steps and Example
Lecture 11 Design Step and Design Example
Section 6: Special Topics (Optional Lectures)
Lecture 12 Structural systems in High Rise buildings
Lecture 13 Ground Improvement Techniques
Lecture 14 Structural Scheming
Civil Engineers, Technologist, Architects, Designers, Construction
Last updated 8/2020
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.73 GB | Duration: 5h 18m
Download
*
Basics , Design of Single[4 Design Methods] and Doubly beam , T- Beam and Slab design
What you'll learn
Load Transfer Mechanism from Slab to beams, How to prepare Bar Bending Schedules (BBS)
Design of beams with Detailed Examples, Analysis and design of T-Beams
Analysis of Doubly reinforced beams and design of doubly reinforced beams
Special Topics: Structural system in High Rise buildings, Ground improvement techniques, Structural Scheming (Structural Planning)
Requirements
Design Principles of Concrete Structures - I
Basic knowledge of materials, Structural Analysis
Description
The "Design Principles of Concrete Structures" course is designed to provide a comprehensive understanding of the fundamental principles and practices involved in designing concrete structures. It covers various aspects of concrete design, including structural analysis, material properties, and design methodologies. Here is a description of the key topics typically covered in this course:Lecture -1- Load Transfer from Slabs to Beams Lecture -2- Bar Bending Schedule Lecture -3 Design Examples Lecture -4- Flexural Analysis and Design of Doubly Beams Lecture -5- Flexural Analysis and Design of T & L Beams Lecture -6- Flexural Analysis and Design of T & L Beams Lecture -7- One way slab design Lecture -8- Two way slab design How load transfer from slabs to beams is discussed and how bar bending schedule/tables are formed are discussed thoroughly. For 1-way and 2-way slab design, determine the design loads: Identify the dead load (self-weight of the slab and any permanent fixtures) and live load (occupancy and use-specific loads) that the slab will need to support. These loads are typically specified by local building codes or design standards. determine the effective span and effective depth: Calculate the effective span of the slab, which is the distance between the supports along the direction of the primary bending moment is discussed. Further topics are given above The Design Principles of Concrete Structures - II is continuation of Couse Design Principles of Concrete Structures - I. Throughout the course, students have to engage in design side by side with lectures.
Overview
Section 1: Load Transfer Mechanism from Slab to beams
Lecture 1 Load transfer from slab to beams part 1
Lecture 2 Load transfer from slab to beams part 2
Section 2: Bar Bending Schedules BBS
Lecture 3 BBS
Section 3: Design Examples
Lecture 4 Design Examples
Lecture 5 Detailed Full Example 2
Section 4: Design of Doubly Beams
Lecture 6 Analysis of Doubly Reinforced beam Part 1
Lecture 7 Analysis of Doubly Reinforced beam Part 2
Lecture 8 Design of Doubly Beams
Section 5: Analysis & Design of T & L Beams
Lecture 9 Analysis & Design of T & L Beams (Theory Background)
Lecture 10 Analysis steps and Example
Lecture 11 Design Step and Design Example
Section 6: Special Topics (Optional Lectures)
Lecture 12 Structural systems in High Rise buildings
Lecture 13 Ground Improvement Techniques
Lecture 14 Structural Scheming
Civil Engineers, Technologist, Architects, Designers, Construction
Last updated 8/2020
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.73 GB | Duration: 5h 18m
Download
*