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Application of maximum tangential stress criterion in determination of fracture initiation angles of silicon/ glass anodic bonds
, Pages: 145-150 M.M. Mirsayar and A. T. Samaei PDF (256K) |
Abstract: Silicon/glass bi-materials are used in micro-assembly and packaging of micro-electromechanical systems (MEMS) and micro-electronics devices. In this paper, maximum tangential stress (MTS) concept is used for determination of the fracture initiation angles of silicon/ glass bi-material notches. First, the MTS criterion is analytically formulated for a bi-material notch problem. Then, the criterion used for prediction of fracture initiation angles of some experimental data given in literature for silicon/ glass bi-material notches. In addition, the modified MTS (MMTS) criterion, which considers the effect of I-stress, was compared with the MTS criterion and the experimental data. It was shown that MMTS criterion provides more accurate results than the MTS criterion for estimation of the fracture initiation angle. DOI: 10.5267/j.esm.2014.6.001 Keywords: Bi-material notches, Maximum tangential stress, Fracture initiation angle, Silicon/glass anodic bonds |
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2. |
Anthropomorphic mechanical design and Lyapunov-based control of a new shoulder rehabilitation system
, Pages: 151-162 Mahdieh Babaiasl, Ahmad Ghanbari and SMRS Noorani PDF (256K) |
Abstract: Stroke is one of the main causes of disability. It affects millions of people worldwide. One symptom of stroke is disabled arm function. Restoration of arm function is necessary to resuming activities of daily living (ADL). Along with traditional rehabilitation techniques, robot-aided therapy has emerged recently. The control schemes of rehabilitation robots are designed for two reasons. First they are designed for passive rehabilitation in which the robot guides the patient's limb through a predefined path and second for active rehabilitation in which the patient initiates the movement and is partially assisted or resisted by the robotic device. This paper introduces a new robot for shoulder rehabilitation. The Shoulder Rehabilitation System (SRS) has three degrees of freedom (DOFs) for three rotational DOFs of the shoulder but additional translational DOFs of the shoulder are also allowed to avoid discomfort to the patient. A new open circular mechanism is proposed for the third joint that solves the known issues for rehabilitation robots such as long wiring and discomfort associated with closed mechanisms. Lyapunov-based controller with integral action is proposed to guide the robot through a predefined trajectory. Simulation results proved that the proposed controller can track the desired trajectory; reject constant bounded disturbance to the system and is robust due to its nonlinear nature. The proposed controller is designed to be used in passive rehabilitation. DOI: 10.5267/j.esm.2014.5.002 Keywords: Anthropomorphic Mechanical Design; Lyapunov-based controller Disturbance rejection; Robot-aided rehabilitation; Stroke; Tracking problem; Exoskeleton robots; Nonlinear control |
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Experimental study of a woven fiberglass composite delamination under impact shock
, Pages: 163-172 E.T. Olodo, V. Adanhounme, E.C. Adjovia and S.L. Shambina PDF (256K) |
Abstract: This work is devoted to the experimental study of a glass/polyester composite laminate under impact shock. Based on a thermodynamic approach, the objective is the evaluation of specific interlaminar delamination energy in a multi-layer composite material under impact loading causing damage to it by cracking. For modeling impact loading, it is used an experimental device based on the principle of Charpy test which is to measure residual energy of a mass movement following a shock at speeds generally between 1 and 4 m/s, on a test piece cut of standardized dimensions requested in bending. Some of available energy is consumed by the rupture of the test piece. The results of this work showed that for impact test, mode I fracture energy is function of impact speed and the load fall energy. These results could be useful in the design of multilayer structures in composite materials subjected to impact loads. DOI: 10.5267/j.esm.2014.5.001 Keywords: Interlaminar delamination; Specific delamination energy; Charpy test |
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4. |
An experimental investigation of HA/AL2O3 nanoparticles on mechanical properties of restoration materials
, Pages: 173-182 Majid Safarabadi, Nabi Mehri Khansari and Abbas Rezaei PDF (256K) |
Abstract: Nano composite materials based on polymers are widely used in restoration martials like dental. Poly methyl methacrylate (PMMA) is one of the most used polymers as dental material. PMMA has disadvantages such as low flexural strength properties and impact strength. In this paper, the influences of additive aluminum oxide and hydroxyapatite nanoparticles on the mechanical and strength properties of PMMA (including flexural strength, impact strength, surface hardness and shrinkage behavior) is studied experimentally. For this purpose, nine standard mechanical testing samples of pure PMMA, PMMA/5HA and PMMA/10HA with various amounts of Nano aluminum oxide (3,6,8 wt.%) were prepared. The results showed that the mechanical properties of hybrid Nano-composites were significantly improved in comparison with the pure samples in a way that optimal Nano-composite with convenience flexural properties and impact strength is obtained. Moreover, the use of nanoparticles results in shrinkage reduction of hybrid Nano-composites in comparison with pure PMMA. DOI: 10.5267/j.esm.2014.4.006 Keywords: Polymethyl methacrylate; Hydroxyapatite; Aluminum oxide; Mechanical properties; Hybrid Nano-composite |
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5. |
Size and crack length effects on fracture toughness of polycrystalline graphite
, Pages: 183-192 J. Akbardoost PDF (256K) |
Abstract: In this paper, the effects of specimen size and crack length on the fracture toughness of polycrystalline graphite are studied. The experimental results reported in the previous studies showed that the fracture toughness of graphite increase in bigger specimen. It has been also demonstrated that the fracture toughness of graphite is nearly identical in specimens with crack length ratio less than 0.7 but decreases for grater crack length ratios. To justify the size and crack length dependency of fracture toughness, the modified form of maximum tangential stress (MMTS) criterion, which makes the use of higher order terms in calculating the stress field around the crack tip is employed. It is shown that the MMTS criterion can provide good estimates for the fracture toughness of graphite obtained from specimen with different sizes. It is also indicated that the MMTS criterion can predict very good the reported experimental fracture toughness data for samples with the crack length ratios less than 0.7. DOI: 10.5267/j.esm.2014.4.005 Keywords: Polycrystalline graphite; Fracture toughness; Size effect; Crack length effect; Higher order terms; Modified maximum tangential stress criterion |
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Non-Destructive testing based method for crack detection in beams
, Pages: 193-200 Akash Vardhan and Amanpreet Singh PDF (256K) |
Abstract: Beams are the constituent elements of several machine parts and sophisticated structures. In this paper, efforts are made to develop suitable methods that can serve as the basis to detect crack location and to crack size from measured axial vibration data. This method is used to address the inverse problem of assessing the crack location and crack size in various beam structure. The method is based on measurement of axial natural frequencies, which are global parameter and can be easily measured from any point on the structure. In theoretical analysis, the relationship between the natural frequencies, crack location, and crack size has been developed. For identification of crack location and crack size, it was shown that data on the variation of the first two natural frequencies is sufficient. The experimental analysis is done to verify the practical applicability of the theoretical method developed. DOI: 10.5267/j.esm.2014.4.004 Keywords: Non-destructive testing; Modal frequencies; Stiffness; Crack location; Crack size; Axial vibration |
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7. |
Experimental study on mechanical properties of different lightweight aggregate concretes
, Pages: 201-208 S. M. Samareh Hashemi PDF (256K) |
Abstract: Lightweight concrete is a suitable constructional material, which can decrease the weight of buildings and the hazards of earthquake loads. Hence, a large number of research studies have been focused on designing and manufacturing high strength lightweight concretes. In this research using the natural and industrial lightweight aggregates frequently found in the south-east region of Iran (Kerman province), high strength and low cost light weight concretes were manufactured. The effects of aggregate type, aggregate size, and concrete mixture were studied experimentally on the compressive strength of concretes and the density and cost of manufactured samples. DOI: 10.5267/j.esm.2014.4.003 Keywords: Lightweight aggregate concrete; Compressive strength; Mixture density; Cost per metric volume |
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8. |
Nonlinear forced vibration of hybrid composite rectangular plates
, Pages: 209-228 Alireza Shooshtari and Soheil Razavi PDF (256K) |
Abstract: In the present study, the nonlinear forced vibration of symmetric laminated rectangular plates, including Glare fiber metal laminated rectangular plate, is investigated based on the first order shear deformation theory. The boundary condition is considered to be immovable simply support. The Galerkin method is used to obtain the nonlinear ordinary differential equation in terms of an unknown time function. The obtained equation is solved analytically by the multiple time scales method. The obtained results are compared with the numerical solution of the nonlinear ordinary differential equation of motion and a good agreement is found between them. DOI: 10.5267/j.esm.2014.4.002 Keywords: Hybrid composites; Nonlinear forced vibration; Analytical modeling |
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9. |
Free vibration analysis of moderately thick functionally graded skew plates
, Pages: 229-238 Jyoti Vimal R K Srivastava, A D Bhatt and Avadesh K Sharma PDF (256K) |
Abstract: Finite element method is used to study the free vibration analysis of functionally graded skew plates. The material properties of the skew plates are assumed to vary continuously through their thickness according to a power-law distribution of the volume fractions of the plate constituents. The first order shear deformation theory is used to incorporate the effects of transverse shear deformation and rotary inertia. Convergence study with respect to the number of nodes has been carried out and the results are compared with those from past investigations available in the literature. Two types of functionally graded skew plates - Al/ZrO2 and Al/Al2O3 are considered in this study and the effects of the volume fraction, different external boundary conditions and thickness ratio on the natural frequencies are studied in detail. DOI: 10.5267/j.esm.2014.4.001 Keywords: Functionally graded materials; Free vibration; Skew plates |
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10. |
Effect of transverse speed of the tool on microstructure and mechanical properties in dissimilar butt friction stir welding of al5083–copper sheets
, Pages: 239-246 Y. Fotouhi, S. Rasaee, A. Askari and H. Bisadi PDF (256K) |
Abstract: In this paper, butt joining of Al5083 to commercially pure copper is investigated by friction stir welding method. The effects of transverse welding speed of the tool on the mechanical properties and microstructure of the joint were studied, experimentally. By examining different circumstances, changes in the joint strength were studied and optimized in term of transverse speed. Based on the obtained results, welding speed can improve or reduce the joint strength and an optimum value can be found for the welding speed. Welded Joint that was conducted at the rotation speed of 800 RPM and tool traverse speed of 60 mm min−1 had the highest tensile strength (i.e. about 98% of the weak base metal). Intermetallic compounds were formed in the stir zone and XRD results indicated that Al4Cu9 and Al2Cu were the intermetallic compounds in the stir zone. Micro-cracks formed around the intimatelic particles were observed in the section of joint. DOI: 10.5267/j.esm.2014.3.001 Keywords: Friction stir welding; Dissimilar Al-Cu joint; Intermetallic compounds; Microstructure; Tensile strength; Transverse speed |
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