A Closed-form Semi-analytical Elastic-Plastic Solution for Predicting the Onset of Flange Wrinkling in Deep-drawing of a Two-layered Circular Plate
F.
Moayyedian
Department of Mechanical Engineering, Ferdowsi University of Mashhad, Mashhad, IRAN
author
M.
Kadkhodayan
Department of Mechanical Engineering, Ferdowsi University of Mashhad, Mashhad, IRAN
author
text
article
2013
eng
In this paper to predict the critical conditions for onset of elastic-plastic wrinkling of flange of a two-layered circular blank during the deep-drawing process a closed-form semi-analytical elastic-plastic solution using Tresca yield criterion alongwith deformation theory in plasticity with considernig the perfectly plastic behaviour of materials is presented. Simplifying the presented solution from two layered to one layered the results exactly agree with the previous work done by the authors.
Iranian Journal of Mechanical Engineering Transactions of the ISME
Iranian Society of Mechanical Engineering
1605-9727
14
v.
2
no.
2013
5
36
https://jmee.isme.ir/article_15003_b72e576b96736a04c114e17d4faf43eb.pdf
Improving the Surface Quality using Combined Ultrasonic Vibration and Magnetic Abrasive Finishing Method
S.
Khalaj Amineh
Department of Mechanical Engineering, Isfahan University of Technology, Isfahan, IRAN
author
A.R.
Fadaei Tehrani
Department of Mechanical Engineering, Isfahan University of Technology, Isfahan, IRAN
author
P.
Mosadegh
Department of Mechanical Engineering, Isfahan University of Technology, Isfahan, IRAN
author
A.
Mohammadi
Department of Mechanical Engineering, Yazd University, Yazd, IRAN
author
text
article
2013
eng
In this paper, a new non-contact ultrasonic abrasive finishing mechanism is designed and fabricated. This mechanism combines the function of ultrasonic vibrations and the magnetic abrasive finishing (MAF) process. A permanent magnet which is mounted on a horn has been used as the processing tool. This polishing tool is vibrated at an ultrasonic frequency with piezo-electric actuators. Ultrasonic energy and the relative motion between magnet and the workpiece are the stimulus of the steel grit abrasives for improving the surface quality. In order to take advantage of the cavitation collapse pressure, the components is immersed in water. The present work also studies the effect of parameters, i.e., finishing time and working gap on the surface roughness (Ra).
Iranian Journal of Mechanical Engineering Transactions of the ISME
Iranian Society of Mechanical Engineering
1605-9727
14
v.
2
no.
2013
37
49
https://jmee.isme.ir/article_15004_5739e50529bc57f8cfb59b8c8e15a97c.pdf
An Analytical Shear Factor for FGM Circular Plates with Non-uniform Elastic Foundations and Normal and Shear Tractions
M.
Shariyat
Associate Professor, Faculty of Mechanical Engineering, K.N. Toosi University of Technology, Tehran, IRAN
author
M.
Alipour
Faculty of Mechanical Engineering, K.N. Toosi University of Technology, Pardis Street, MolaSadra Avenue, Vanak Square, Tehran, Iran
author
text
article
2013
eng
The available shear correction factors have mainly been developed for homogeneous isotropic plates and/or assuming that no shear tractions are imposed on the top and bottom surfaces of the plate. In the present research, a more general case of a circular functionally graded plate subjected to non-uniform normal and shear tractions at the top and bottom surfaces is considered. These non-uniform tractions may stem from the imposed non-uniform inclined tractions at the top surface and resting on the non-uniform Winkler-Pasternak elastic foundations. Instead of using the approximate numerical methods, the solutions are derived using a pure analytical method. In this regard, influences of the proposed analytical correction factor are evaluated on results of both the modal and the stress analyses.
Iranian Journal of Mechanical Engineering Transactions of the ISME
Iranian Society of Mechanical Engineering
1605-9727
14
v.
2
no.
2013
50
72
https://jmee.isme.ir/article_15005_27ba410b138801300b78207974b9d698.pdf
Linear Thermoplastic Analysis of FGM Rotating Discs with Variable Thickness
E.
Mahdavi
Iran University of Science and Technology, School of Mechanical Engineering, Tehran, IRAN
author
R.
Akbari Alashti
Babol Noshirvani University of Technology, School of Mechanical Engineering, Babol, IRAN
author
A.
Cheloee Darabi
Iran University of Science and Technology, School of Mechanical Engineering, Tehran, IRAN
author
M.
Alizadeh
Iran University of Science and Technology, School of Mechanical Engineering, Tehran, IRAN
author
text
article
2013
eng
This work presents thermoplastic analysis of FG rotating diskswith variable thickness and constant angular velocity. The solutions are obtained by variable material property (VMP) theory. In this theory, the domain is divided into some finite sub-domains in the radial direction, in which the properties are assumed to be constant and the form of the elastic response is used to solve elastic-plastic problems. The results are compared with the results obtained by the finite element analysis using ANSYS software. The results reveal that mentioned methods are in very good agreement in both thermoelastic and themroplastic states. Finally, the effect of various parameters including the thermal distribution and thickness profile on the stress behavior of disk are investigated.
Iranian Journal of Mechanical Engineering Transactions of the ISME
Iranian Society of Mechanical Engineering
1605-9727
14
v.
2
no.
2013
73
87
https://jmee.isme.ir/article_15006_0c897039c8bed328b99e58438aba6a42.pdf
A fiber-reinforced Transversely Isotropic Constitutive Model for Liver Tissue
B.
Fereidoonnezhad
Department of Mechanical Engineering, Sharif University of Technology, Tehran, IRAN
author
J.
Arghavani
Department of Mechanical Engineering, Sharif University of Technology, Tehran, IRAN
author
R.
Naghdabadi
Department of Mechanical Engineering, Sharif University of Technology, Tehran, IRAN
author
text
article
2013
eng
Biomechanical properties of soft tissue, such as liver, are important in modeling computer aided surgical procedures. Experimental evidences show that liver tissue is transversely isotropic. In this article, considering the liver tissue as an incompressible fiber-reinforced composite with one family of fibers, an exponential strain energy function (SEF) is proposed. The proposed SEF is based on a recently developed strain measure which is more consistent with the physics of deformation than the commonly used Green-Lagrange strain measure. To show the capabilities of the proposed SEF, comparison is done with the experimental data available in the literature. It is shown that the results of the proposed SEF is in a good agreement with the experimental data for both tensile and compression deformations.
Iranian Journal of Mechanical Engineering Transactions of the ISME
Iranian Society of Mechanical Engineering
1605-9727
14
v.
2
no.
2013
88
97
https://jmee.isme.ir/article_15007_2036ac696ccecab390fc1d6f8ea33ffc.pdf
Calculating Stress Intensity Factor for Small Edge Radial Cracks on an Orthotropic Thick-walled Cylinder Subjected to Internal Pressure using the Average Stress
H.
Ghaffari Some’e
Mechanical Engineering Department, Hamedan Science and Research Branch, Islamic Azad University, Hamedan, IRAN
author
F.
Barati
Mechanical Engineering Department, Hamedan Branch, Islamic Azad University, Hamedan, IRAN
author
H.
Mahbadi
Mechanical Engineering Department, Islamic Azad University, Central Tehran Branch, Tehran, IRAN
author
text
article
2013
eng
In this paper, the problem of calculating the stress intensity factor (SIF) for an orthotropic thick-walled cylinder with a small radial crack subject to internal pressure is considered. The crack is assumed to be an edge crack on the external radius of the cylinder. The stress intensity factor is calculated by superposition of an uncracked cylinder with uniform stress distribution and a cylinder with a small radial crack. To calculate the stress distribution in the small radial crack, basic assumptions of the Linear Elastic Theory have been used. Due to the small length of the crack, an average stress method with a proper weight function is then used to evaluate the stress intensity factor of the assumed crack problem. Simplifying the proposed formula for orthotropic cylinder to the isotropic one, the results are validated against data given in the literature search.
Iranian Journal of Mechanical Engineering Transactions of the ISME
Iranian Society of Mechanical Engineering
1605-9727
14
v.
2
no.
2013
98
109
https://jmee.isme.ir/article_15008_ca046f2f07d94fc299d137877c8e6188.pdf