Published 7/2024
Created by Farid Khan
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 14 Lectures ( 9h 14m ) | Size: 3.52 GB
Materials behavior under loading, Stress, Strain, Stress transformation, Principal stresses, bending stress in beams
What you’ll learn:
Demonstrate an understanding of the fundamentals of stress and strain
Ability to estimate deformation, stress and strain and design members under axial loading and torque
Draw shear force and bending moment diagram for beams and to able to design these under different loading scenarios
To introduce basic knowledge and tools of stress, strain and strength
To learn methods for determining the stresses, strains and deflections produced by applied loads
To apply gained knowledge to solve practical problems
Requirements:
Engineering Statics, basic algebra (not mandatory)
Description:
The engineering product (from screw to aircraft, from screw driver to bullet train, from bolt to space rovers, nut to space shuttle) needs to be designed perfectly for their reliable usage during applications. Each and every engineering product, whether small or huge is subjected to several external loads during operation, in order to withstand these loads for that these products mush be designed perfectly while keeping the economical aspect. Stress and strain is the perfect concept that is developed to study the behavior of the material/products when subjected to external loading. This course will describe about the basic concept of stress and strain. How this concept and knowledge is used to determine the analytical models for deformation, deflection, stress, and strain under uni axial load, bi-axial load and tri-axial load will be discussed. Moreover, the stress transformation through analytical tools and graphical methods (Mohr’s circle) will also be elaborated in order to equipped the learners with the broad knowledge and understandings from design point of view. Beams which are the basic components of mechanical and civil engineering are also of this course,and shear force diagrams, bending moment diagrams, beams deflection, critical stress determination and beam designing can be easily learnt. Moreover, this course also covers about torsion in shafts and the shear stress produced in shafts and how to use the torsion analytical tools for the designing of shafts etc.
Who this course is for:
Mechanical, Electrical ,Civil, mechatronics, chemical and industrial students and fresh engineers
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