Vol. 6 No. 1 Pages 1-88 (2018) | |||
Open Access Article | |||
1. |
Microstructure and fracture behavior of friction stir lap welding of dissimilar metals
, Pages: 1-10 R.N. Shubhavardhan and S. Surendran PDF (550K) |
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Abstract: Friction Stir Welding (FSW) is a relatively new solid state joining technique which is used not only for joining the aluminum and its alloys but also has potential for joining dissimilar materials with very different physical and mechanical properties which are hard to weld using conventional fusion welding processes. Tensile shear testing is used to determine the Mechanical strength of friction stir lap (FSL) welds under static loading, fracture strength (σLap) corresponding to the maximum load in a test over the sample width is widely used as the strength value. During friction stir lap welding (FSLW) of dissimilar metals with large differences in melting temperatures, a metallurgical bond is established through the formation of interfacial intermetallic compounds. However, as these intermetallic compounds are generally believed to be brittle with little ductility, they are generally considered to have detrimental effect on fracture strength. The aim of the present research is to study how the interface structure is affected by FSW parameters and how the formation of interface structure affects fracture of Al-Steel and Al-Ti FSL welds. DOI: 10.5267/j.esm.2017.12.001 Keywords: Friction stir lap welding, Aluminum, Steel, Titanium, Intermetallics, Fracture strength
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2. |
Finite element prediction of curing micro-residual stress distribution in polymeric composites considering hybrid interphase region
, Pages: 11-20 V. Teimouri and M. Safarabadi PDF (550K) |
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Abstract: The interphase is a region between fibers and a matrix, which has different properties from the matrix and the fibers, but is dependent on them. Considering the interphase region has a significant effect on the accuracy of obtained residual stresses. So far, in order to obtain the micromechanical residual stresses, the interphase properties are considered as an average. In this paper, the properties of the interphase are assumed variable by using a suitable UMAT code in the ABAQUS software. The equations of previous studies that have acquired interphase properties to be variable are used to write the UMAT code. A representative volume element (RVE) in polymer composites is modeled in three phases in the ABAQUS software and the interphase properties are considered as FGM by using the UMAT code. Temperature variation during curing to environment temperature is the only loading factor in the RVE. The matrix, fiber and interphase stresses are obtained in the ABAQUS software. The achieved stresses were compared with the results of previous studies that considered interphase properties as average. Finite element and energy methods were used in previous papers but in the present study just the finite element method with variable interphase properties was use. In addition, residual stress diagrams with the variable interphase properties are plotted to study the effect of the thermal expansion coefficient. The results of this study are similar to those in previous ones, and the curves are improved. DOI: 10.5267/j.esm.2017.11.004 Keywords: Finite element simulation, UMAT code, Interphase, Variable properties, Residual micromechanical stress
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3. |
Thermal deformation of gas metal arc welding on aluminum alloy T-joints
, Pages: 21-26 Mohd Idris Shah Ismail, Mariyam Jameelah Bahari and Norsyafiqah Shuib PDF (550K) |
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Abstract: Thermal deformations can reduce the product quality that causes loss of dimensional control and structural integrity. It may increase the manufacturing cost due to unfitted component. This paper deals with the thermal deformation on AA6061 aluminum alloy T-joint after exposed to heat by gas metal arc welding (GMAW) process. In this study, two main parameters; welding speed and welding voltage were used to evaluate the angular distortion, transverse shrinkage and longitudinal shrinkage occurred in GMAW process. The results show that the angular distortion is larger with lowest welding speed. The transverse shrinkage is reduced gradually with increasing of welding speed and transverse shrinkage also linearly increasing with increasing of welding voltage. The magnitude of longitudinal shrinkage is much smaller than angular distortion and transverse shrinkage. Longitudinal shrinkage is insignificantly affected by changing the welding heat input. These findings are important to identify and minimize the unacceptable welding distortion in product manufacturing. DOI: 10.5267/j.esm.2017.11.003 Keywords: Gas metal arc welding, Welding deformation, T-joint, Aluminum alloy
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Open Access Article | |||
4. |
Rheology investigation of waste LDPE and crumb rubber modified bitumen
, Pages: 27-38 Hosein Zanjirani Farahani Massoud Palassi and Saeed Sadeghpour Galooyak PDF (550K) |
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Abstract: In this article, waste plastics (low-density polyethylene, LDPE) and crumb rubber have been utilized to solve one of the most important environmental issues and to improve bitumen performance properties by these low cost materials. At first, modified bitumen samples were made using high shear mixer, then classic and performance tests were performed on them. It has been observed that adding low-density polyethylene and crumb rubber to the bitumen leads to improvement of classical characteristics. Then, after conducting dynamic shear rheometer test on modified bitumen samples, it was found that the sample containing 3% LDPE and 3% crumb rubber has the best performance. Conducting short-term and long-term aging experiments on samples containing 3% LDPE showed improved performance at high temperature services. After BBR test, more appropriate performance grade is observed for the sample containing 3% LDPE 3% crumb rubber. DOI: 10.5267/j.esm.2017.11.002 Keywords: Bitumen, Waste material, LDPE, Aging, BBR
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Open Access Article | |||
5. |
Elastica and buckling loads of nonlinear elastic tapered cantilever columns
, Pages: 39-50 Joon Kyu Lee and Byoung Koo Lee PDF (550K) |
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Abstract: This paper deals with the elastica and buckling loads of the nonlinear elastic tapered cantilever columns subjected to an axial load at the free end. The column cross section is rectangular, where the width and depth vary linearly with the column axis. The column material is nonlinear elastic, which obeys the Ludwick’s constitutive law. The ordinary differential equations governing the elastica of buckled column are derived and solved numerically for computing the elastica and buckling loads. Parametric studies for the annealed copper, N.P. 8 aluminum alloy and steel columns are conducted. DOI: 10.5267/j.esm.2017.11.001 Keywords: Elastica, Buckling load, Tapered column, Ludwick type material
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6. |
Dissimilar alloys (AA6082/AA5083) joining by FSW and parametric optimization using Taguchi, grey relational and weight method
, Pages: 51-66 Sumit Jain, Neeraj Sharma and Rajat Gupta PDF (550K) |
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Abstract: This work is focused on the influence of different friction stir welding (FSW) parameters on AA6082 T-6 and AA5083-O alloys welding quality, by using Taguchi, Grey Relational and Weight Method. Four welding parameters were investigated, namely tool rotation speed (TRS), welding speed (WS), tool pin profile (TPP) and shoulder diameter (SD). The optimized setting of these input parameters was investigated so that weld parts quality could be optimized. Analysis of variance (ANOVA) was used to investigate the effects of these welding process parameters on response variables, viz. elongation (EL) and ultimate tensile strength (UTS). Single response optimization was carried using Taguchi Technique while grey relational analysis (GRA) was used for simultaneous optimization of two responses. Once the optimal settings of control factors were identified, confirmation experiments were performed for the validation of results. In the multi-response optimization, TRS was found to have the maximum effect (57.9%), followed by WS, SD and TPP. Weight method was applied for providing the priority to the response (i.e. EL and UTS). The response with higher priority presented a weight equal to 0.7, while the lower priority given corresponds to a weight of 0.3. DOI: 10.5267/j.esm.2017.10.003 Keywords: AA5083-O, AA6082 T-6, Dissimilar alloys joining, FSW, GRA, Taguchi, Weight method
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Open Access Article | |||
7. |
Factors influencing stresses and movements in continuously reinforced concrete pavements – A review
, Pages: 67-82 M. M. Mirsayar and D. G. Zollinger PDF (550K) |
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Abstract: The use of cement concrete as a stronger and more durable material than asphalt concrete in construction of the pavements has been increased during the past decades. This review paper investigates the effect of various input variables for the design of continuously reinforced concrete pavements. A literature review is prepared based on the efforts performed by many researchers to investigate the effect of different factors including temperature change, shrinkage, material properties of the concrete, and concrete slab/ subbase bond properties on the displacements and stresses in the concrete slab. It is found that the important role of concrete slab/ subbase bond strength has not been investigated properly as compared to other input variables. DOI: 10.5267/j.esm.2017.10.002 Keywords: Stress, Continuously reinforced concrete pavements
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Open Access Article | |||
8. |
Investigating the effect of column removal on progressive collapse of buildings designed by buckling restrained braced and bending frames
, Pages: 83-88 Farzad Akbarinia, Yahya Adinehfar, Hadi Davashi, Dariush Jalili Peyman Beiranvand and Mojtaba Hosseini PDF (550K) |
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Abstract: In this study, the behavior of two buildings designed with steel structures Buckling Restrained Braced (BRB) and conventional bending frame was studied to analyze their strengths against progressive collapse. The structures were designed and analyzed in accordance with Iranian regulation No. 2800 for the design of buildings. Using nonlinear static pushover analysis, the performance of the structure after removal of the center and the corner columns were investigated and it was demonstrated that removing the corner column provides more critical conditions for the investigated buildings. Furthermore, the use of BRB elements provides better performance for the analyzed buildings due to the ability of BRB in absorbing and dissipating more energy induced from the external loading sources like the earthquake. DOI: 10.5267/j.esm.2017.10.001 Keywords: Progressive collapse, Buckling restrained braced, Nonlinear static analysis, Removing centre and corner columns
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