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ME-212: Industrial production processes
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Lectures in this course (53)
Introduction to Production Processes
Introduces the instructor and explains the course format based on flipped classroom principles.
Introduction to Production Processes
Covers the importance of production processes, historical evolution, challenges faced by companies, and current industry issues.
Shear Behavior: Evaluation and Laws
Explores material behavior in shear, shear forces, stress, equilibrium, shear laws, tension/compression, plane shear, shear rate, constrained slip, and shear strength.
Stress and Strain: Real vs Nominal
Explores real and nominal strain rates, stress, deformation, and force in materials testing.
Plasticity Criteria: Von Mise and Tresca
Explores plasticity criteria like Von Mise and Tresca, determining material plastic limits.
Stress and Deformation: Understanding Material Behavior
Explores stress, strain, elasticity, plasticity, and material behavior, emphasizing the importance of dislocations and microstructure.
Relaxation in Traction: Deformation and Hardening
Explores relaxation in traction, permanent deformation, hardening, and strain rate calculation.
States and Phases: Introduction to Thermal Properties
Covers states, phases, and thermal properties in materials, including phase transformations and phase diagrams.
Geometric Properties in Elasticity and Plasticity
Delves into the relationship between geometric properties in elasticity and plasticity, covering Fish, Poisson, Hencky, and Consider theories.
Phase Diagrams: Eutectic Type and Liquidus Slope
Explores phase diagrams, liquidus slope, fractions, and equilibrium laws in material systems.
Tensile Curve and Resistance: Material Behavior Analysis
Explores material behavior through tensile curves, resistance, and stress analysis.
Enthalpy: Specific Heat
Covers the concept of enthalpy and specific heat of systems.
Specific Volume and Thermal Expansion
Explains specific volume and thermal expansion calculations with temperature changes.
Traction Function: Modulus and Resistance
Explores the traction function, hardening modulus, resistance, and evaluation methods.
Heat Flow and Inhomogeneous System
Explores heat flow, conservation of energy, and thermodynamic system evolution.
Specific Strain Energy and Toughness
Explores specific strain energy, toughness, hardness measurement methods, and tough materials.
Heat Equation: Stationary Distribution
Explores the heat equation, equilibrium equations, heat flux, and harmonic functions in heat distribution.
Compression Experiment: Traction Curve Completion
Explores completing traction curves in compression experiments and the laws of Poisson and Hencky.
Introduction to Cutting Dynamics
Introduces the fundamentals of cutting dynamics, exploring various cutting processes and objectives of understanding cutting laws and optimizing manufacturing costs.
Two-dimensional Cutting Model and Machining Applications
Covers the two-dimensional cutting model and its applications in machining.
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