2024-03-28T14:02:13Z
https://scientiairanica.sharif.edu/?_action=export&rf=summon&issue=1172
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Experimental and numerical comparison of flow and scour patterns around a single and triple bridge piers located at a 180-degree sharp bend
M.
Asadollahi
M.
Vaghefi
M.J.
Tabibnejad Motlagh
Placement of bridge piers along rivers creates a complex 3D flow pattern which disrupts normal river flow and the resulted turbulence erodes alluvial sediments around the pier. In this research, SSIIM model has been used to simulate flow and scour patterns when no pier, one pier, and triple piers are placed at a 180 degrees bend and the results are compared with those of experiments. The piers are vertical. The simulated channel was 1 m wide with a U-turn having the relative curvature radius of 2 carrying a volumetric flow of 70 l/s the flow depth at the beginning of the bend is 18 cm. Results showed that SSIIM is well capable of simulating bed form changes and flow patterns such that at the bend with triple piers error in maximum scour and sedimentation was only 4%, in maximum transverse velocity 12%, in maximum longitudinal velocity 13%, and in maximum vertical velocity 19%. In general, SSIIM model satisfactorily simulates the location and value of local scour arising from single and series piers in numerical simulation of the flow and scour. In flow pattern simulation, the errors and differences are greater under moving bed conditions than a rigid bed.
Flow Pattern
Scour
Bridge Pier
Sharp Bend
SSIIM Model
2021
02
01
1
14
https://scientiairanica.sharif.edu/article_21241_80e3bd03e7c11dc0183dd3a67252717b.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Comparison of adaptive magnetorheological elastomer isolator and elastomeric isolator in near-field and far-field earthquakes
S.
Taghizadeh
A.
Karamodin
Magnetorheological elastomer (MRE) materials are widely used in the development of smart isolators and absorbers due to their stiffness and damping adaptability. This study investigates the performance of MRE isolators and elastomeric isolators from near-field and far-field earthquakes in benchmark base isolation buildings. All earthquakes are simultaneously applied in two horizontal directions to the horizontal plan. Vertical earthquakes are not attended in the dynamical analysis of benchmark base isolation buildings. For making an isolator model, the effect of bilateral interaction has been considered. The behaviors of MRE isolators and MR dampers are compared. To this end, three control systems including adaptive isolator, passive isolator and semi-active MR damper are considered. The results show that the MRE isolator has a better performance in near-field earthquakes due to its variable stiffness and damping, as compared to the elastomeric isolator. The semi-active MR damper for both far-field and near-field earthquakes has a better control to reduce base displacement, but causes to increase floor accelerations, story drifts and story shear. According to the results of this study, it can be observed that MRE isolator can be used instead of MR damper. The MRE isolator can reduce the base displacement without increasing other responses.
Magnetorheological elastomer (MRE) isolator
Benchmark Base Isolated Building
near-field earthquake
far-field earthquake
Magnetorheological damper (MR damper)
2021
02
01
15
37
https://scientiairanica.sharif.edu/article_21270_cf793fb2199c771cef9ab79be385eaa9.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Government credit risk assessment of non-profit public-private partnership projects in China based on the IVHFSs-IFAHP model
J.
Chen
D.
Wang
To reduce the financial pressure on local governments and improve operational efficiency, the Chinese government has introduced the Public-Private Partnership (PPP) model for the development of infrastructure. However, the government credit risk generated by PPP projects may damage private and public interests. Therefore, this study evaluates the government credit risks of non-profit PPP projects by using a systematic and rounded model that employs interval value hesitant fuzzy sets and intuitionistic fuzzy hierarchical analysis (IVHFS-IFAHP). This study employs the perspective of the private sector to establish risk index systems using the dimensions of Wuli-Shili-Renli (WSR) methodology. IFAHP is used to collect expert opinions for the comparison of the importance of the indexes and establish an intuitionistic fuzzy judgment matrix in order to calculate the weight of each index. IVHFSs are adopted to obtain the scores of the indexes coupled with the results acquired by IFAHP to produce comprehensive scores of the indexes. The feasibility and practicability of this method were verified empirically. This study provides an effective method for the private sector to evaluate the government credit risks of non-profit PPP projects and provides a reference for participation in PPP projects.
government credit risk assessment
non-profit PPP projects
WSR methodology
the model of IVHFSs-IFAHP
2021
02
01
38
48
https://scientiairanica.sharif.edu/article_21147_915bea77aaf0fada448d22675a7f12ee.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Application of wavelet theory with denoising to estimate the parameters of an earthquake
A.
Heidari
J.
Raeisi
R.
Kamgar
In this paper, strong ground mot (SGM) parameters are calculated using discrete wavelet transform (DWT) in different kinds of soils with different magnitudes. The main earthquake record (MER) is divided into approximation and detailed signals using wavelet transform with denoising. The high and low frequencies of MER are separated from each other. Previous studies showed that the approximation signal has the greatest effect on dynamic response and it is very similar to the main signal. Then SGM parameters of the new signal are calculated by DWT decomposition. This process continues over five levels and, in each level, SGM parameters are calculated and compared with the MER and its error percentage is presented. In DWT with the denoising method, the curve becomes softer such that the calculation time reduces. Results show that the error percentage in the first two levels is less than 1% and for the third level, this index is less than 3%. In addition, the reduction percentage of calculation time is 1%, 4%, and 8%, respectively, in the first to third levels. The best result is relative to the third decomposition level in which error value as well as computational time reduction is nearly 3% and 8%.
strong ground motion
filter bank
wavelet
discrete wavelet
denoising
dynamic
2021
02
01
49
64
https://scientiairanica.sharif.edu/article_21368_2efbeac5c758f7735ddbf31cd90dc26a.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Seismic behaviour assessment of eccentrically split-X braced frames
R.
Sheikhi Garjan
N.
Fanaie
Eccentrically braced frames (EBF) are lateral resisting systems with appropriate ductility and strength against earthquakes. An important kind of arranging such systems, recommended by Popov and also presented in AISC, is eccentrically split-X bracing. The axial force applied to the beam outside link beam is reduced causing the improvement of the behaviour of this type of bracing. In this research, for the first time, ductility factor, overstrength factor and response modification factor of eccentrically split-X braces are investigated through nonlinear static and incremental dynamic analyses and fragility curves are presented for different ratios of link beam length to span length. For this purpose, three buildings, 2-, 6- and 10-storey structures with the ratios of link beam length to span length (e/L) of 0.05, 0.1, 0.15 and 0.2 are considered. Ductility factor of Rđ=3.55, overstrength factor of Rs = 2.31 and response modification factor of RLRFD =8.06 are calculated under 10 earthquake records. It is concluded that the most appropriate values of e/L ratio in the eccentrically split-X bracing are 0.1 for tall structures and 0.05 for small ones. According to the log-normal distribution, the fragility curves are also plotted considering collapse prevention (CP) and immediate occupancy (IO) performance levels.
Eccentrically split-X
Link beam
Incremental Dynamic Analysis
Response modification factor
Fragility curve
2021
02
01
65
84
https://scientiairanica.sharif.edu/article_21325_42bc02c29ad9ea1f85642bbb650cd4cf.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Numerical and experimental study on proposed T-form semi-precast moment-resisting concrete connections
M.
Fathi
M.
parvizi
This paper presents the results of experimental and numerical study on a proposed exterior semi-precast moment-resisting concrete connection. Steel linkage element connects precast concrete beam to column in two cases of bolted and welded connections. These connections were compared to monolithic connection based on stiffness, strength, energy dissipation capacity and ductility factor. An accurate 3D nonlinear finite element model has been simulated to study the behavior of these connections. A good agreement was observed between numerical results and experimental ones in behavior and damage mode. Although, all samples satisfied all the code criteria, but the trend of failure in bolted and welded connection was observed on the weld and bolts area, at the connection zone between beam and steel linkage. However, in monolithic connection, the yielding was observed in rebars and crushing of concrete at the end of beam. The initial stiffness of bolted and welded connection specimen was less than that of monolithic connection specimen. But, the beam moment capacity factors of these samples were a little more than monolithic sample; so, the ductility factors of them were a little less than that of monolithic sample.
Experimental Study
Precast Concrete Frame
Moment-Resisting Connection
Cyclic Loading
Finite Elements Analysis
2021
02
01
85
95
https://scientiairanica.sharif.edu/article_21369_1b03de385bfcdfa03d9aefe824adb954.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Parametric study from laboratory tests on twin circular footings on geocell-reinforced sand
P.
Fazeli Dehkordi
M.
Ghazavi
N.
Ganjian
U.F.A.
karim
Bearing capacity (BC) test results are presented for bounded and unbounded twin circular footings on unreinforced and geocell-reinforced (GCR) sand. Analysis of the results demonstrate material, scale and size effects on the BC for a given combination in materials (sand-GCR), footing (single-twin) and the problem geometric dimensions. The significance of these combinations on BC and settlements is used to arrive at suitably modified BC factors for design that could be generalized. Plots given relative to reference cases for which BC design solutions are available provide correction factors to modify classical BC equations. Values of the BC and BC factors represent the lumped effect of all or separate problem variables including scale and any experimental limitations. Compared with previous works, these results give deeper critical depths for twin footings on unreinforced and GCR sand and BC higher than 4 times the reference case.
Bearing capacity factors
Sand
Geocell reinforcement
Circular twin footings
Rigid base
2021
02
01
96
108
https://scientiairanica.sharif.edu/article_21370_b6354f0c4b768023ad853e12d00baa42.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
A new ground motion record selection procedure based on the effects of spectral share and period elongation
S.
Ale Saheb Fosoul
H.
Tajmir Riahi
N.
Hatami Aloughareh
One of the most prevalent ground motion Intensity Measures (IMs) is the spectral acceleration at the fundamental period of the structure. Previous research has shown that vectorizing scalar IMs leads to a more reliable structural response, particularly in the nonlinear region and near collapse. Furthermore, nonlinear behavior of ductile structures results in an elongation in the "effective period" of the structure. Therefore, this paper proposes a new approach for selecting ground motion records considering the effect of spectral shape and period elongation. This method contains two disaggregation analyses at the fundamental and elongated period of the structure. Nonlinear dynamic analysis is conducted on a set of reinforced concrete moment resisting frames designed based on ACI 318-05 as representatives of modern structures. Results show a considerable decrease in the median collapse prediction, margin against collapse and dispersion of the structural response. The presented approach can give a better prediction for the vulnerability of the structure toward collapse.
Record selection
Spectral shape
Period elongation
Disaggregation analysis
nonlinear dynamic analysis
Reinforced concrete moment resisting frame
2021
02
01
109
123
https://scientiairanica.sharif.edu/article_21685_d422d37fa50120c36a7310ceed5df4ff.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Comparison of static pushover analysis and IDA-based probabilistic methods for assessing the seismic performance factors of diagrid structures
A.
Seyedkazemi
F.
Rahimzadeh Rofooei
This study attempts to reliably quantify the seismic response parameters of the steel diagrid structural systems. In that regard, in addition to the conventional static pushover analysis (SPA), the dynamic pushover analysis (DPA) based on the incremental dynamic analysis (IDA) technique is also considered. FEMA P-695 recommends a methodology for establishing seismic performance factors (SPFs). The present study tries to propose a simpler framework for estimating and validating SPFs while applying the concepts of FEMA P-695 guideline. The results show that the R-factors obtained with the SPA procedure for steel diagrid systems are conservative and the IDA-based probabilistic method gives a more rational value for the R coefficient. Furthermore, the proposed simplified method has good agreement with FEMA P-695 in predicting the collapse capacity of diagrid models.
diagrids
steel structures
pushover analysis
nonlinear dynamic analysis
Seismic Performance Factors
2021
02
01
124
137
https://scientiairanica.sharif.edu/article_21692_7283e41bd7061f442a795e5e9e56acee.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
The effect of transportation and safety attitudes, personality, and lifestyle on vehicle type choice: A case study of Tehran
A.
Mohammadi
M.
Kermanshah
In recent years, researchers have paid specific attention to safety, air pollution, and energy consumption, which are all affected by the vehicle type. The primary objective of this study is to achieve a thorough understanding of the relationships between transportation attitudes, safety attitudes, personality, as well as lifestyle and vehicle type for the first time in Iran, as a developing country. For this purpose, an interview questionnaire was designed, and 740 participants were interviewed in Tehran. Vehicle types are categorized into seven groups: mini, compact, medium, heavy, SUV, pickup, and motorcycle. In the first stage, factor analysis was used to identify the latent variables regarding transportation attitudes, safety attitudes, personality, and lifestyle. In the second step, by using these latent variables, individuals are classified, and a two-level clustering is formed. The correlation analysis performed in the third step shows a significant relationship between each category of people and the type of car. Likewise, the analyses carried out in this study reveal the significant relations between the vehicle type (classified based on fuel economy level, production country, vehicle emission, and vintage) and the attitudes of its owner. This information is beneficial to both vehicle manufacturers and transportation planners.
Vehicle type choice
Subjective Variables
safety attitude
Factor Analysis
Cluster analysis
Fuel economy level
Vehicle emission
case study
2021
02
01
138
155
https://scientiairanica.sharif.edu/article_21526_f6d192b7a88988323ce80874451ca234.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Effects of initial suction and degree of saturation on dynamic properties of sand at large strain
F.
Jafarzadeh
A.
Ahmadinezhad
H.
Sadeghi
Soil deposits may experience different hydraulic states in terms of suction (Ď) and degree of saturation (Sr) while subjected to large strain caused by dynamic loading during earthquakes. This phenomenon is investigated by considering the effects of initial Ď, initial Sr, sample preparation method, drainage condition, and cycle number (N) on dynamic properties. Shear modulus (G) and damping ratio (D) are specifically studied for an unsaturated sand using a modified cyclic simple shear device for all zones of soil water retention curve (SWRC). Results revealed the relative significance of both Ď and Sr in relation to SWRC on observed trends in G and D. Through analyzing some results from the literature, it was shown that most of the data follow a sigmoid function in the plane of normalized stiffness (G/Gsat) versus suction normalized to the air entry value. It was also revealed that minimum damping is not in conjugation with maximum stiffness due to the contribution of other mechanisms in damping like inter-particle water lubrication. Comparison between results of two testing methods indicated a notable influence of initial fabric on G. Furthermore, the overall trends in G and D against N are marginally influenced by initial Ď and Sr.
Cyclic Simple Shear
Suction
Degree of saturation
shear modulus
damping ratio
Unsaturated Sand
2021
02
01
156
174
https://scientiairanica.sharif.edu/article_21521_12d9602872c5dfc9aad3cce575005588.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Wardrop's first principle: Extension for capacitated networks
H.
Zokaei Aashtiani
H.
Poorzahedy
M.
Nourinejad
In transportation literature, User Equilibrium (UE) has been widely studied since early 1950âs, many studies of which define equilibrium flow of traffic for uncapacitated networks based on Wardropâs first principle, implying also a Nash Equilibrium (NE). Although, in general, the two equilibria (UE and NE) are not explicitly the same, they are shown to be equivalent under special conditions, for uncapacitated UE, when volume-delay functions are separable, continuous, non-decreasing and non-negative. A good deal of research is devoted to explain UE in capacitated networks based on Wardropâs first principle and the concept of generalized costs. However, UE for capacitated networks, even under the defined special conditions, is not equivalent to NE. This paper extends Wardropâs first principle to explain UE in capacitated networks, which, under the same special conditions of uncapacitated networks, would represent an NE as well. Moreover, a complementarity equilibrium model is proposed for UE, based on an extension of Wardropâs principle.
Equilibrium flow
Wardrop Principle
Nash Equilibrium
Link capacity
Transportation network
2021
02
01
175
191
https://scientiairanica.sharif.edu/article_21736_ce26c27ff6a3395c8fe692051199c51b.pdf
Scientia Iranica
Scientia Iranica
1026-3098
1026-3098
2021
28
1
Canonical forms and rotationally repetitive matrices for eigensolution of symmetric structures
A.
Kaveh
P.
Rahmani
In this paper, symmetry of graph models (structures) is investigated. All canonical forms previously derived in literature for bilateral symmetry are derived from the formula for rotationally repetitive structures (systems) considering the angle of rotation as 180 degrees. Different nodal numberings result in different patterns for matrices associated with bilaterally symmetric structures. In this study, it is shown that all these forms have the same nature and can be considered as particular forms of circulant matrices associated with rotationally repetitive structures. In order to clarify this point, some numerical examples are investigated using both the classic approach and the canonical forms.
canonical forms of matrices
graphs
regular structures
Eigenvalues
Laplacian
bilateral symmetric systems
rotationally repetitive (circulant) matrices
dome structures
2021
02
01
192
208
https://scientiairanica.sharif.edu/article_22071_ad5577cb11d7a5df2a62a9fe6bd24b88.pdf