Akbar Esfandiari
 Courses Mechanics Of Materials (I)(SPRING_2019) Aims: Principal of mechanical engeering, stress, strain analysis of structure , Syllabus: Principal of Elasticity, Internal Force, stress-strain relations, Hoks law. , Poisson ratio, Undetermined structures, thermal stress and deformation, super position method, axial , bending and torsional problems, plain stress and strain problem, center of shear, beam deformation, thin wall structures. Text Book: Mechanics of Materials, 9th Edition, Hibbeler, R.C.,Pearson Prentice Hall Random Vibrations(SPRING_2019) Aims: Analysis of structural system subjected to random inputs Syllabus: Fundamentals of Probability and Statistics Probability, Random variables and probabilities distributions, Mathematical expectations, Some continuous and some discrete probability distributions. 2. Random vibrations Correlation, Fourier Analysis, Spectral Density, Excitation-Response relations for linear systems, Transmission of random vibration, Statistics of Narrow Band Processes, Random vibrations of continuous systems. Text Book: D. E. Newland, An Introduction to Random Vibrations, Spectral & Wavelet Analysis: Third Edition Vibrations(SPRING_2019) Aims: Students will be able to model and analyze vibration of mechanical systems using both single and multiple degree of freedom models. They will study vibration of continues system. Student will have studied free and forced response of these systems. They will have study about natural frequencies and mode shapes and will used them for solution of multiple degree of freedom problems. Students will be able to design simple vibration isolation systems. Syllabus: Fundamentals of VibrationBasic Concepts, Applications of Vibration and its importance, Classification of Vibration, SystemElements (mass, spring and damper), Harmonic Motion Free Vibration of Single Degree of Freedom SystemsEquation of Motion, Undamped Systems, Energy Method, Free Vibration with Viscous Damping, Logarithmic Decrement Vibration of Harmonically Excited SDOF SystemsEquation of Motion, Response of an Undamped System, Response of a Damped System, Response of aDamped System under Rotating Unbalance, Equivalent Viscous Damping for Nonviscous Dampings,Forced Vibration with Coulomb Damping, Structural Damping Vibration of an SDOF System under General Forcing ConditionsPeriodic Force, Nonperiodic Force, Two Degree of Freedom SystemsEquations of Motion, Free Vibrations, Natural Frequencies and Mode Shapes, Coordinate Coupling andPrincipal Coordinates, Forced Vibration Multi-Degree of Freedom SystemsEquations of Motion in Matrix Form, Influence Coefficients, Eigenvalue Problem, Finite Element Method, Vibration of Continuous Systems Text Book: Rao S.S., Mechanical Vibrations, 5th Ed., Prentice Hall, 2007 Thomson W.T. and Dahleh M.D., Theory of Vibration with Applications, 5th Ed. Prentice Hall,1997 Offshore Structures(FALL_2018) Aims: Analysis and design of offshore structures Syllabus: Introduction to Offshore structures Introduction to Submarine pipeline and construction methods Loads of offshore structures Design Codes Offshore Structure software Text Book: Design Codes Structural Analysis(FALL_2018) Aims: Analysis of Elastic Structures for Deflection and Internal loads Syllabus: Structural Stability, Determinate and indeterminate forms, Analysis of statically determinate and indeterminate beams, trusses, and rigid frames; deflections byvirtual-work, moment-area; influence lines; force methods; Text Book: Hibbeler, Russell C. (2008) Structural Analysis 7th Ed.Upper Saddle River, NJ: Pearson Structural Health Monitoring(FALL_2018) Aims: Syllabus: Text Book: Mechanics Of Materials (I)(SPRING_2018) Aims: Principal of mechanical engeering, stress, strain analysis of structure , Syllabus: Principal of Elasticity, Internal Force, stress-strain relations, Hoks law. , Poisson ratio, Undetermined structures, thermal stress and deformation, super position method, axial , bending and torsional problems, plain stress and strain problem, center of shear, beam deformation, thin wall structures. Text Book: Mechanics of Materials, 9th Edition, Hibbeler, R.C.,Pearson Prentice Hall Random Vibration(SPRING_2018) Aims: Analysis of structural system subjected to random inputs Syllabus: 1. Fundamentals of Probability and StatisticsProbability, Random variables and probabilities distributions, Mathematical expectations,Some continuous and some discrete probability distributions.2. Random vibrationsCorrelation, Fourier Analysis, Spectral Density, Excitation-Response relations for linearsystems, Transmission of random vibration, Statistics of Narrow Band Processes, Randomvibrations of continuous systems. Text Book: D. E. Newland, An Introduction to Random Vibrations, Spectral & Wavelet Analysis: Third Edition (Special Topics (Structural Health Monitoring(FALL_2017) Aims: health monitoring Syllabus: Introduction to SHM, review of vibration, Frequency Response function, Modal Analysis, Sensors and actuators, Finite element model and model reduction, Static method, dynamic methods, Natural frequency based method, mode shape methods, transfer function based method, time series. Text Book: Dynamics(FALL_2017) Aims: Stufy of dynamic motions of particles and rigid bodies Syllabus: Introduction to vectors and dynamics Kinematics of particles (1D, 2D motion, polar coordinates, spherical coordinate, cylindrical coordinate), relative motionKinetic of particle, Newton’s laws, work and energyKinetic of particles, work and energy, Impact and momentum, Conservative systemsKinematic of rigid bodies, introduction, absolute motion, relative motion, Kinetic of rigid bodies: Introduction, Work and energy, Conservation of energy Text Book: Vector Mechanics for Engineers: Statics and Dynamics, Ferdinand Beer , Jr., E. Russell Johnston, Elliot Eisenberg , Phillip Cornwell