Increasing Material Strength w/ Cold Work/Plastic Deformation; True vs. Engineering Stress & Strain
LECTURE 02a Playlist for MEEN361 (Advanced Mechanics of Materials): • MEEN 361: Advanced Mechanics of Materials Playlist for MEEN462 (Machine Element Design): • MEEN 462: Machine Element Design This lecture was recorded on December 9, 2019. All retainable rights are claimed by Michael Swanbom. Please subscribe to my YouTube channel and follow me on Twitter: @TheBom_PE Thank you for your support!
▶︎
Two Hinges & Two Sliders: Finding Reactions in 3D Frame | Sequential Solution to System of Equations
▶︎
Understanding Material Strength, Ductility and Toughness
▶︎
Ashby Charts: Choosing Material Family to Minimize Weight/Mass & Meet Deflection; Load Capacity Goal
▶︎
Basics of plasticity theory in 6 min
▶︎
MSE 201 S21 Lecture 25 - Module 4 - Cold Work & Annealing Examples
▶︎
Mechanics of Materials: Lesson 10 - .2% Offset Rule Explained, Yield Point
▶︎
Understanding Poisson's Ratio
▶︎
Understanding Work Hardening and Annealing of Metals
▶︎
Understanding Failure Theories (Tresca, von Mises etc...)
▶︎
Stress-strain curves and modulus of elasticity
▶︎
Introduction to Fatigue: Stress-Life Method, S-N Curve
▶︎
Bolt Preloading & Torque | Static Strength of Bolted Joints | Load Factor | Joint Separation Factor
▶︎
Understanding True Stress and True Strain
▶︎
ch 7 Materials Engineering
▶︎
ch 6 Materials Engineering
▶︎
Slip vs Twin | Crystal plasticity basics part 5
▶︎
Marin Factors | Corrected Endurance Limit | Fatigue Stress Concentration
▶︎
Hall Petch Equation strength vs grain size example problem
▶︎
Stress-Strain Relations: Tensile Testing, Yield & Ultimate Strengths, Elastic Modulus, Safety Factor
▶︎