Mohammad Zamani Nejad
Mechanical Engineering Department, Yasouj University, Yasouj, Iran.
[ 1 ] - Effect of Material Gradient on Stresses of FGM Rotating Thick-Walled Cylindrical Pressure Vessel with Longitudinal Variation of Properties under Non-uniform Internal and External Pressure
The present paper provides a semi-analytical solution to obtain the displacements and stresses in a functionally graded material (FGM) rotating thick cylindrical shell with clamped ends under non-uniform pressure. Material properties of cylinder are assumed to change along the axial direction according to a power law form. It is also assumed that the Poisson’s ratio is constant. Given the exist...
[ 2 ] - Effect of Material Gradient on Stresses of Thick FGM Spherical Pressure Vessels with Exponentially-Varying Properties
Using the Frobenius series method (FSM), an analytical solution is developed to obtain mechanical stresses of thick spherical pressure vessels made of functionally graded materials (FGMs). The cylinder pressure vessel is subjected to uniform internal pressure. The modulus of elasticity is graded along the radial direction according to power functions of the radial direction. It is assumed that ...
[ 3 ] - A review of functionally graded thick cylindrical and conical shells
Thick shells have attracted much attention in recent years as intelligent and functional graded materials because of their unique properties. In this review paper, some critical issues and problems in the development of thick shells made from Functionally graded piezoelectric material (FGPM) are discussed. This review has been conducted on various types of methods which are available for thick ...
[ 4 ] - Transient thermoelastic analysis of FGM rotating thick cylindrical pressure vessels under arbitrary boundary and initial conditions
Assuming arbitrary boundary and initial conditions, a transient thermo-elastic analysis of a rotating thick cylindrical pressure vessel made of functionally graded material (FGM) subjected to axisymmetric mechanical and transient thermal loads is presented. Time-dependent thermal and mechanical boundary conditions are assumed to act on the boundaries of the vessel. Material properties of the ve...
[ 5 ] - Elastic analysis of functionally graded rotating thick cylindrical pressure vessels with exponentially-varying properties using power series method of Frobenius
Based on the Frobenius series method, stresses analysis of the functionally graded rotating thick cylindrical pressure vessels (FGRTCPV) are examined. The vessel is considered in both plane stress and plane strain conditions. All of the cylindrical shell properties except the Poisson ratio are considered exponential function along the radial direction. The governing Navier equation for this pro...
[ 6 ] - Time-Dependent Hygro-Thermal Creep Analysis of Pressurized FGM Rotating Thick Cylindrical Shells Subjected to Uniform Magnetic Field
Time-dependent creep analysis is presented for the calculation of stresses and displacements of axisymmetric thick-walled cylindrical pressure vessels made of functionally graded material (FGM). For the purpose of time-dependent stress analysis in an FGM pressure vessel, material creep behavior and the solutions of the stresses at a time equal to zero (i.e. the initial stress state) are needed....
[ 7 ] - Stress Analysis of Rotating Thick Truncated Conical Shells with Variable Thickness under Mechanical and Thermal Loads
In this paper, thermo-elastic analysis of a rotating thick truncated conical shell subjected to the temperature gradient, internal pressure and external pressure is presented. Given the existence of shear stress in the conical shell due to thickness change along the axial direction, the governing equations are obtained based on first-order shear deformation theory (FSDT). These equations are so...
[ 8 ] - Thermoelastic Analysis of Rotating Thick Truncated Conical Shells Subjected to Non-Uniform Pressure
In the present work, a study of thermoelastic analysis of a rotating thick truncated conical shell subjected to the temperature gradient and non-uniform internal pressure is carried out. The formulation is based on first-order shear deformation theory (FSDT), which accounts for the transverse shear. The governing equations, derived using minimum total potential energy principle, are solved, usi...
[ 9 ] - Effect of Exponentially-Varying Properties on Displacements and Stresses in Pressurized Functionally Graded Thick Spherical Shells with Using Iterative Technique
A semi-analytical iterative method as one of the newest analytical methods is used for the elastic analysis of thick-walled spherical pressure vessels made of functionally graded materials subjected to internal pressure. This method is accurate, fast and has a reasonable order of convergence. It is assumed that material properties except Poisson’s ratio are graded through the thickness directio...
[ 10 ] - تحلیل الکترومکانیک استوانه چرخان ساخته شده از مواد پیزوالکتریک مدرج تابعی به کمک تئوری تغییر شکل برشی مرتبه بالا: حسگر و عملگر
در این مقاله بر مبنای تئوری تغییر شکل برشی مرتبهی بالا، معادلات الکتروالاستیک حاکم بر استوانههای جدار ضخیم متقارن محوری ساخته شده از مواد ناهمگن مدرج تابعی در حالت کلّی استخراج شده است. جابجاییها، تنشها و پتانسیل الکتریکی برای استوانه با دو سر بستهی مقید، به صورت تحلیلی بدست آمده است. این راهکار منجر به تعریف فرمولاسیون جدید برای تحلیل پوستههای جدار ضخیم بر پایه تئوری تغییر شکل برشی شده اس...
[ 11 ] - تحلیل الکترومکانیک استوانه چرخان ساخته شده از مواد پیزوالکتریک مدرج تابعی به کمک نظریه تغییر شکل برشی مرتبه بالا: حسگر و عملگر
در این مقاله بر مبنای نظریه تغییرشکل برشی مرتبه بالا، معادلات الکتروالاستیک حاکم بر استوانههای جدار ضخیم متقارن محوری ساخته شده از مواد ناهمگن مدرج تابعی در حالت کلّی استخراج شده است. جابه جاییها، تن شها و پتانسیل الکتریکی برای استوانه با دو سر بسته مقید، به صورت تحلیلی به دست آمده است. این راهکار منجر به تعریف فرمولاسیون جدید برای تحلیل پوستههای جدار ضخیم بر پایه نظریه تغییرشکل برشی شده است....
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