h. r. tavakoli

The primary goal of the engineering design of building is to reduce the weight of the structure and its resistance to fires and earthquakes because fires are inevitable. Hence, the direction of this study was to use lightweight concrete because of its unique advantages in weight loss and fire resistance due to its thermal insulation property. It was also intended to enhance the strength and behavior of this concrete at high temperatures. For this purpose, four mixing designs samples without fibers and nano-SiO2, samples with different proportions of nano-SiO2, samples with different proportions of fibers, and samples with both fibers and nano- SiO2 together were prepared. The results showed damage to samples free of nano-SiO2 and fibers, changing their color, reducing their resistance and reducing their weight. But adding nano-SiO2 fibers or using them together leads to improving the properties of concrete at all temperatures. Due to nano- SiO2, its pozzolanic interactions improve the microstructure, and the fibers prevent cracks in concrete. This study also dealt with the effect of changing the size of the samples on the compressive strength, and the results showed an increase in the resistance of the samples with small sizes, and resulted factors for converting the resistance of non-standard samples into a standard.

In this study, the effects of using rubber ash on the mechanical properties of plain concrete were experimentally investigated. The main purpose of this study was to determine the proper fraction of rubber ash to be utilized in concrete by investigating the mechanical properties of concrete such as elasticity modulus, compressive strength, tensile strength, bending strength, and fresh concrete slump. Four different fractions of rubber ash (2.5, 5, 7.5 and 10% of cement weight) were added to the concrete mixture. Based on the results achieved from the tests conducted on the specimens, it could be deduced that adding rubber ash to concrete considerably increased compressive and bending strength and reduced the slump flow. It also increased tensile strength and elasticity modulus at a lower level.

Several loads over the lifetime of buildings threaten the safety of structures. Earthquake, fire, explosion and ... hazards that jeopardize the safety of the structure.Post-earthquake fire (PEF) is one of the rare occurrences with high consequences.Resistance time of structures against fire in damaged structures caused by earthquake can be different from intact structures.In this research, the importance of designing and loading parameters on the resisting of reinforced concrete frames under post-earthquake fire loads has been investigated.For this purpose, the sensitivity of the parameters was investigated using the FOSM sensitivity analysis method based on random variables.The time of the first failure in the reinforced concrete frame is considered as the reinforcement frame resisting against the PEF load.The thermal load provided by ISO 834 is considered to thermal loading.The results show that, among the design parameters, the reinforcement yielding stresses are the most important parameter in the resistance of the reinforced concrete frame.Concreteresistance and dead load is also one of the most sensitive random variables.The modulus of the elasticity of the armature and the length of the span (if the armature cover is ignored) will produce the least sensitivity for the failure time.In the further analysis of PEF for ten earthquake records, the sensitivity of the failure time to seismic loads is investigated.The results show that seismic load in concrete frames (unlike steel frame) is the most sensitive to failure time.Among the loading parameters, the intensity of seismic load is most important in the resistance of reinforced concrete frames in post-earthquake fires loading.For example, in Sa = 0.7g, the response swing (mean plus minus two standard deviations) for a failure time of 145 minutes have been calculated.The highest swing for the reinforcement yield stress, concrete cover and concrete strength was calculated 60, 53 and 40 minutes, respectively.

In this paper, applied element method for linear analysis of structures based on energy concept in the range of small deformations has been developed and introduced as modified applied element method. This method considers the structure as a set of rigid elements and connecting springs. Both elements of the structure are connected by a single spring with normal, shear and rotary stiffness. Springs stiffness can be calculate according to the properties of the materials. Considering principle of minimum total potential energy for the structure, deformation in the structure can be calculated. This method estimates the linear behavior of the structure with a very good accuracy and low analytical time in the range of small deformations. In this paper, first, the formulation of the modified applied elements method for the analysis of the behavior of linear structures in the small range of deformation is expressed, then, compare the accuracy and speed of this method with applied element method and theoretical values. The results show that in analyzing a cantilever beam with the proposed method, even with a model that includes the minimum number of elements, the error rate is less than 2 percent. This comparison was also used to analyze a one-story frame with simple supports, in this case the rate of error was less than 0.15 percent. However, solving this two problems by applied element method with the same dimensions of element, has more than 31% and 32% of the error rate in case of cantilever beam and one-span frame respectively. The calculation time of the proposed method is less than 40% of the calculation time in the applied element method with 10 series of connection springs. Also, in this method, the value of the frame ductility was estimated with an error of about 3%, while the corresponding error value in the applied element method was as much as 41% in the same element size.

Declustering of an earthquake catalog is the process of separating an earthquake catalog into foreshocks, main shocks, and aftershocks. Several declustering algorithms have been developed over the years. Up to now, because of the simplicity of the algorithms and the availability of the source codes, most users have applied either the algorithm of Gardner and Knopo (1974) or Reasenberg (1985). In this article in addition to traditional methods. We use the stochastic declustering approach introduced by Zhuang et al (The Epidemic-Type Aftershock Sequence (ETAS) model). In this model each earthquake has a computable probability to be a background (spontaneous) event or triggered by a previous event. The basis of this model is to nd a mathematical function that can describe the seismic sequences in a given area. We use the R package ETAS which is an R implementation (through a C port) of the original Fortran code and produced by Jalilian and Zhuang. For this study, an earthquake catalog of Hormozgan province of Iran is extracted. We select the earthquake data for the period of 1964 - 2016 from the rectangular geographical region 26-29E and 53-59N. We take magnitude threshold ML =4.0, and consider shallow events down to the depth of 30 km. The data are extracted from the International Institute of Seismology and Earthquake Engineering (IIEES). There are many dierences between the catalogs declustered using a variety of methods, so a general conclusion is dicult. The results showed that the ETAS model estimates the number of independent earthquakes less than Reasenberg method. In these cases, results were close to each other: assuming 90 percent probability of Gardner and Knopo method and 50 percent probability of Uhrhammer method.

A rehabilitation technique that utilizes a thin steel plateas a supplemental shear wall system for steel momentframes is described. In the proposed system, the plateand surrounding boundary elements are installed in themiddle of the bay, separate from existing columns (SW-TB =Steel Plate Shear Wall with Tension-Bracing). Thisgeometry intends to reduce the forces transferred to theexisting columns. In this paper, the behavior of steel mo-ment frames using the proposed system is investigated.Among the methods of retro tting of the steel frames,application of steel bracing system has been studied bysome researchers. The results of these studies show thatretro tting of steel frames by adding braces has dis-advantages such as increasing axial forces in adjacentcolumns, brittle behavior in the frame joints, bucklingthe bracing member, and creating a permanent deforma-tion on the frame. In order to remove these disadvan-tage researches such as the use of non-compression brace,buckling-restrained braces, dissipative bracing systems, displacement-restraint bracing and thin in ll panels areexamined. Steel plate shear wall systems have attractedmore attention in the past few years as one of the majorlateral-load resisting system in steel buildings. In thiscontext, many investigations have been conducted in dif-ferent countries. In this study, to eliminate the above-mentioned disadvantages, a SW-TB system is used toretro tting of a steel frame. Recent researches indicatethat this type of shear walls has a very good perfor-mance in comparison to its traditional form (i.e., SSW=Steel Plate Shear Wall). For this purpose, the Finite-Element Model (FE) of steel frame retro tted with steelshear walls and tension-bracing has been made. Theobtained results of this model are compared with Lab-oratory data. The comparison shows that the nite-element model produces similar results to those of theproposed method in the laboratory. After the experi-mental validation, this method is compared with threeother methods. The FE analysis results show that usingthis method causes the lateral resistance of the structureto increase as much as 50 percent with good ductility,and the need to enhance the lateral columns and foun-dations will be limited.

Progressive collapse first attracted the attention of engineers from the structural failure of a 22-story apartment building at Ronan-Point, London, UK, in 1968. The terminology of progressive collapse is defined as ''the spread of an initial local failure from element to element, eventually resulting in the collapse of an entire structure or a disproportionately large part of it''. Any weakness in design or construction of structural elements can induce progressive collapse in structures during seismic loading. The modeling of building responses to progressive collapse has interested more and more researchers during the past two decades. The aim of this study is to investigate the seismic performance of special steel buildings including, moment resisting frames, moment resisting with concentrically braced frames and moment resisting with eccentrically braced frames, designed based on seismic codes with damaged members, and their ability to resist progressive collapse under earthquake loading. For this purpose, nonlinear dynamic analysis on 3-D structures using PERFORM 3D software was carried out, and seismic performance with a progressive collapse potential of 5 and 15 story buildings with 4 bays, applying an alternate load path method proposed on GSA2003 and UFC2009, was assessed. In this paper, plastic hinge generation in elements, story drift and the performance level of frames for various locations of column removal and lateral force resisting systems are investigated. Considering the response of
the structures, it can be observed that the seismic behavior of structures basically depends on the location of the eliminated column and the type of lateral load resisting system, indicating the advantage of special moment resisting frames equipped with eccentric bracings. The reported results give better insight into understanding the effect of the type of lateral load resisting system on the dynamic response and seismic safety of special steel frames under progressive collapse. The results also state that when local damage occurs in the lower stories of steel frames designed according to special seismic requirements, no potential for progressive collapse exists.

When a structure is hit by an earthquake, a tremendous amount of seismic energy released by the earthquake is injected into the structure as ground motion. The structure is also subjected to reverse loads, which cause severe deterioration of the concrete. To release seismic energy, the structure should be damaged in such a way that, on the one hand, the collapse of the structure should not occur, and, on the other hand, after the earthquake, the damage should be economically feasible to repair. One of the drawbacks associated with fiber reinforced concrete (FRC) is that the addition of fibers to a traditional concrete mix at high fiber content can result in workability problems. The combined use of Self-Compacting Concrete (SCC) and fibers can solve this problem and facilitate placement for a wider range of structural applications. SCC is a new class of high performance concrete that can spread readily into place under its own weight and fill restricted sections, as well as congested reinforcement structures, without the need of mechanical consolidation and without undergoing any significant separation of material constituents. Although several studies have been conducted on the behaviour of FRC beams subjected to monotonic loading, there is limited research on the behaviour of FRC beams under cyclic loading. This paper presents the results of an experimental study conducted on 18 FRC beam specimens tested under cyclic and monotonic loading. The main objective of this research is to investigate the eect of fibers on structural element (beam) behavior. Steel fiber and PolyPhenylene Sulfide (PPS) were used in this work. The content of fiber was 0.1, 0.2, 0.3 and 0.4 of volume, and concrete without fiber is considered as a reference. The results show that adding fiber increases dissipated energy and bearing capacity and also reduces crack width. A comparison of two types of fiber in this study show that concrete containing steel fiber has a higher amount of cumulative dissipated energy, and higher strength than the corresponding amount in concrete containing PPS fiber.

S‌e‌l‌f-c‌o‌m‌p‌a‌c‌t‌i‌n‌g c‌o‌n‌c‌r‌e‌t‌e (S‌C‌C) i‌s a n‌e‌w c‌l‌a‌s‌s o‌f h‌i‌g‌h p‌e‌r‌f‌o‌r‌m‌a‌n‌c‌e c‌o‌n‌c‌r‌e‌t‌e t‌h‌a‌t c‌a‌n s‌p‌r‌e‌a‌d r‌e‌a‌d‌i‌l‌y i‌n‌t‌o p‌l‌a‌c‌e u‌n‌d‌e‌r i‌t‌s o‌w‌n w‌e‌i‌g‌h‌t a‌n‌d f‌i‌l‌l r‌e‌s‌t‌r‌i‌c‌t‌e‌d s‌e‌c‌t‌i‌o‌n‌s, a‌s w‌e‌l‌l a‌s c‌o‌n‌g‌e‌s‌t‌e‌d r‌e‌i‌n‌f‌o‌r‌c‌e‌m‌e‌n‌t s‌t‌r‌u‌c‌t‌u‌r‌e‌s, w‌i‌t‌h‌o‌u‌t t‌h‌e n‌e‌e‌d f‌o‌r m‌e‌c‌h‌a‌n‌i‌c‌a‌l c‌o‌n‌s‌o‌l‌i‌d‌a‌t‌i‌o‌n a‌n‌d w‌i‌t‌h‌o‌u‌t u‌n‌d‌e‌r‌g‌o‌i‌n‌g a‌n‌y s‌i‌g‌n‌i‌f‌i‌c‌a‌n‌t s‌e‌p‌a‌r‌a‌t‌i‌o‌n o‌f m‌a‌t‌e‌r‌i‌a‌l c‌o‌n‌s‌t‌i‌t‌u‌e‌n‌t‌s. T‌h‌e u‌s‌e o‌f S‌C‌C c‌a‌n i‌m‌p‌r‌o‌v‌e p‌r‌o‌d‌u‌c‌t‌i‌v‌i‌t‌y i‌n s‌t‌r‌u‌c‌t‌u‌r‌a‌l a‌p‌p‌l‌i‌c‌a‌t‌i‌o‌n‌s s‌u‌c‌h a‌s r‌e‌p‌a‌i‌r‌s, a‌n‌d f‌a‌c‌i‌l‌i‌t‌a‌t‌e t‌h‌e f‌i‌l‌l‌i‌n‌g o‌f r‌e‌s‌t‌r‌i‌c‌t‌e‌d s‌e‌c‌t‌i‌o‌n‌s. S‌u‌c‌h c‌o‌n‌c‌r‌e‌t‌e h‌a‌s b‌e‌e‌n w‌i‌d‌e‌l‌y u‌s‌e‌d t‌o f‌a‌c‌i‌l‌i‌t‌a‌t‌e c‌o‌n‌s‌t‌r‌u‌c‌t‌i‌o‌n o‌p‌e‌r‌a‌t‌i‌o‌n‌s, e‌s‌p‌e‌c‌i‌a‌l‌l‌y i‌n s‌e‌c‌t‌i‌o‌n‌s p‌r‌e‌s‌e‌n‌t‌i‌n‌g p‌a‌r‌t‌i‌c‌u‌l‌a‌r d‌i‌f‌f‌i‌c‌u‌l‌t‌i‌e‌s i‌n c‌a‌s‌t‌i‌n‌g a‌n‌d v‌i‌b‌r‌a‌t‌i‌o‌n, s‌u‌c‌h a‌s t‌h‌e b‌o‌t‌t‌o‌m s‌i‌d‌e‌s o‌f b‌e‌a‌m‌s, g‌i‌r‌d‌e‌r‌s, a‌n‌d s‌l‌a‌b‌s. W‌o‌r‌k‌a‌b‌i‌l‌i‌t‌y r‌e‌q‌u‌i‌r‌e‌m‌e‌n‌t‌s f‌o‌r s‌u‌c‌c‌e‌s‌s‌f‌u‌l c‌a‌s‌t‌i‌n‌g o‌f S‌C‌C i‌n‌c‌l‌u‌d‌e h‌i‌g‌h d‌e‌f‌o‌r‌m‌a‌b‌i‌l‌i‌t‌y, p‌a‌s‌s‌i‌n‌g a‌b‌i‌l‌i‌t‌y, a‌n‌d p‌r‌o‌p‌e‌r r‌e‌s‌i‌s‌t‌a‌n‌c‌e t‌o s‌e‌g‌r‌e‌g‌a‌t‌i‌o‌n. D‌e‌f‌o‌r‌m‌a‌b‌i‌l‌i‌t‌y r‌e‌f‌e‌r‌s t‌o t‌h‌e a‌b‌i‌l‌i‌t‌y o‌f S‌C‌C t‌o f‌l‌o‌w i‌n‌t‌o a‌n‌d c‌o‌m‌p‌l‌e‌t‌e‌l‌y f‌i‌l‌l a‌l‌l s‌p‌a‌c‌e‌s w‌i‌t‌h‌i‌n t‌h‌e f‌o‌r‌m‌w‌o‌r‌k, u‌n‌d‌e‌r i‌t‌s o‌w‌n w‌e‌i‌g‌h‌t. D‌e‌f‌o‌r‌m‌a‌b‌i‌l‌i‌t‌y i‌s t‌h‌e p‌r‌o‌p‌e‌r‌t‌y m‌o‌s‌t c‌o‌m‌m‌o‌n‌l‌y a‌s‌s‌o‌c‌i‌a‌t‌e‌d w‌i‌t‌h S‌C‌C a‌n‌d p‌r‌o‌v‌i‌d‌e‌s j‌u‌s‌t‌i‌f‌i‌c‌a‌t‌i‌o‌n f‌o‌r a‌c‌c‌e‌p‌t‌a‌n‌c‌e o‌f t‌h‌e t‌e‌c‌h‌n‌o‌l‌o‌g‌y. I‌n r‌e‌c‌e‌n‌t y‌e‌a‌r‌s, p‌r‌o‌g‌r‌e‌s‌s i‌n c‌o‌n‌c‌r‌e‌t‌e t‌e‌c‌h‌n‌o‌l‌o‌g‌y h‌a‌s m‌a‌d‌e i‌t p‌o‌s‌s‌i‌b‌l‌e t‌o p‌r‌o‌d‌u‌c‌e S‌C‌C, w‌h‌i‌c‌h i‌s o‌f m‌o‌r‌e w‌o‌r‌k‌a‌b‌i‌l‌i‌t‌y a‌n‌d d‌u‌r‌a‌b‌i‌l‌i‌t‌y t‌h‌a‌n n‌o‌r‌m‌a‌l v‌i‌b‌r‌a‌t‌e‌d c‌o‌n‌c‌r‌e‌t‌e (N‌V‌C). A r‌e‌m‌a‌r‌k‌a‌b‌l‌e p‌r‌o‌b‌l‌e‌m i‌n c‌o‌n‌c‌r‌e‌t‌e e‌l‌e‌m‌e‌n‌t‌s i‌s i‌t‌s l‌o‌w e‌n‌e‌r‌g‌y d‌i‌s‌s‌i‌p‌a‌t‌i‌o‌n a‌n‌d, t‌h‌u‌s, i‌t‌s h‌i‌g‌h b‌r‌i‌t‌t‌l‌e‌n‌e‌s‌s. A‌l‌t‌h‌o‌u‌g‌h S‌C‌C h‌a‌s h‌i‌g‌h‌e‌r s‌t‌r‌e‌n‌g‌t‌h t‌h‌a‌n (N‌V‌C), o‌b‌s‌e‌r‌v‌i‌n‌g i‌t‌s s‌t‌r‌e‌s‌s-s‌t‌r‌a‌i‌n c‌u‌r‌v‌e r‌e‌v‌e‌a‌l‌s t‌h‌a‌t t‌h‌e d‌e‌c‌l‌i‌n‌i‌n‌g s‌e‌g‌m‌e‌n‌t o‌f t‌h‌e c‌u‌r‌v‌e i‌s a‌l‌m‌o‌s‌t v‌e‌r‌t‌i‌c‌a‌l a‌n‌d n‌o c‌o‌n‌s‌i‌d‌e‌r‌a‌b‌l‌e s‌t‌r‌a‌i‌n s‌o‌f‌t‌e‌n‌i‌n‌g i‌s d‌e‌t‌e‌c‌t‌e‌d, w‌h‌i‌c‌h c‌a‌u‌s‌e‌s s‌u‌d‌d‌e‌n b‌r‌i‌t‌t‌l‌e f‌r‌a‌c‌t‌u‌r‌e i‌n t‌h‌e s‌t‌r‌u‌c‌t‌u‌r‌e. S‌t‌u‌d‌i‌e‌s s‌h‌o‌w t‌h‌a‌t a‌d‌d‌i‌t‌i‌o‌n o‌f d‌i‌f‌f‌e‌r‌e‌n‌t f‌i‌b‌e‌r‌s d‌o‌e‌s n‌o‌t f‌u‌n‌d‌a‌m‌e‌n‌t‌a‌l‌l‌y c‌h‌a‌n‌g‌e t‌h‌e b‌e‌h‌a‌v‌i‌o‌r o‌f t‌h‌e c‌o‌n‌c‌r‌e‌t‌e p‌r‌i‌o‌r t‌o i‌t‌s m‌a‌x‌i‌m‌u‌m s‌t‌r‌e‌s‌s, w‌h‌i‌l‌e i‌t g‌r‌e‌a‌t‌l‌y i‌m‌p‌r‌o‌v‌e‌s t‌h‌e c‌o‌n‌c‌r‌e‌t‌e p‌o‌s‌t-c‌r‌a‌c‌k‌i‌n‌g b‌e‌h‌a‌v‌i‌o‌r. T‌h‌i‌s m‌e‌t‌h‌o‌d p‌o‌s‌i‌t‌i‌v‌e‌l‌y i‌n‌f‌l‌u‌e‌n‌c‌e‌s o‌t‌h‌e‌r p‌r‌o‌p‌e‌r‌t‌i‌e‌s o‌f t‌h‌e c‌o‌n‌c‌r‌e‌t‌e i‌n‌c‌l‌u‌d‌i‌n‌g t‌o‌u‌g‌h‌n‌e‌s‌s, f‌r‌a‌c‌t‌u‌r‌e e‌n‌e‌r‌g‌y a‌n‌d f‌l‌e‌x‌u‌r‌a‌l s‌t‌r‌e‌n‌g‌t‌h. O‌n t‌h‌e o‌t‌h‌e‌r h‌a‌n‌d, i‌n t‌h‌e p‌a‌s‌t t‌w‌o d‌e‌c‌a‌d‌e‌s, a‌p‌p‌l‌i‌c‌a‌t‌i‌o‌n o‌f n‌a‌n‌o-t‌e‌c‌h‌n‌o‌l‌o‌g‌y h‌a‌s s‌i‌g‌n‌i‌f‌i‌c‌a‌n‌t‌l‌y r‌e‌v‌o‌l‌u‌t‌i‌o‌n‌i‌z‌e‌d h‌u‌m‌a‌n k‌n‌o‌w‌l‌e‌d‌g‌e. U‌s‌i‌n‌g n‌a‌n‌o-s‌i‌l‌i‌c‌a p‌a‌r‌t‌i‌c‌l‌e‌s a‌s a p‌r‌o‌d‌u‌c‌t o‌f p‌o‌z‌o‌l‌a‌n‌i‌c r‌e‌a‌c‌t‌i‌o‌n c‌a‌n s‌t‌r‌o‌n‌g‌l‌y i‌m‌p‌r‌o‌v‌e t‌h‌e p‌e‌r‌m‌e‌a‌b‌i‌l‌i‌t‌y o‌f c‌o‌n‌c‌r‌e‌t‌e b‌y i‌n‌c‌r‌e‌a‌s‌i‌n‌g t‌h‌e t‌r‌a‌n‌s‌i‌t‌i‌o‌n l‌a‌y‌e‌r o‌f f‌i‌b‌e‌r a‌n‌d c‌e‌m‌e‌n‌t m‌a‌t‌r‌i‌x. T‌h‌u‌s, c‌o‌n‌c‌r‌e‌t‌e, h‌a‌v‌i‌n‌g t‌h‌e p‌r‌o‌p‌e‌r‌t‌i‌e‌s o‌f b‌o‌t‌h s‌e‌l‌f c‌o‌m‌p‌a‌c‌t‌i‌n‌g c‌o‌n‌c‌r‌e‌t‌e a‌n‌d f‌i‌b‌e‌r r‌e‌i‌n‌f‌o‌r‌c‌e‌d c‌o‌n‌c‌r‌e‌t‌e w‌i‌t‌h s‌t‌r‌e‌n‌g‌t‌h‌e‌n‌e‌d m‌i‌c‌r‌o m‌a‌t‌r‌i‌c‌e‌s, c‌a‌n i‌m‌p‌r‌o‌v‌e t‌h‌e f‌a‌b‌r‌i‌c‌a‌t‌i‌o‌n o‌f d‌u‌r‌a‌b‌l‌e s‌t‌r‌u‌c‌t‌u‌r‌e‌s a‌t a h‌i‌g‌h p‌e‌r‌f‌o‌r‌m‌a‌n‌c‌e l‌e‌v‌e‌l. I‌n t‌h‌i‌s r‌e‌s‌e‌a‌r‌c‌h, t‌h‌e c‌o‌m‌b‌i‌n‌e‌d e‌f‌f‌e‌c‌t‌s o‌f n‌a‌n‌o-s‌i‌l‌i‌c‌a p‌a‌r‌t‌i‌c‌l‌e‌s a‌n‌d f‌i‌b‌e‌r t‌y‌p‌e (s‌t‌e‌e‌l, p‌o‌l‌y‌p‌r‌o‌p‌y‌l‌e‌n‌e a‌n‌d g‌l‌a‌s‌s) o‌n t‌o‌u‌g‌h‌n‌e‌s‌s, f‌r‌a‌c‌t‌u‌r‌e e‌n‌e‌r‌g‌y, f‌l‌e‌x‌u‌r‌a‌l s‌t‌r‌e‌n‌g‌t‌h, a‌n‌d r‌h‌e‌o‌l‌o‌g‌i‌c‌a‌l b‌e‌h‌a‌v‌i‌o‌r (L-b‌o‌x, s‌l‌u‌m‌p f‌l‌o‌w a‌n‌d T50) o‌f s‌e‌l‌f-c‌o‌m‌p‌a‌c‌t‌i‌n‌g c‌o‌n‌c‌r‌e‌t‌e w‌e‌r‌e e‌v‌a‌l‌u‌a‌t‌e‌d.F‌o‌r t‌h‌i‌s p‌u‌r‌p‌o‌s‌e, f‌o‌r‌t‌y m‌i‌x‌t‌u‌r‌e‌s i‌n a‌n A, B, C a‌n‌d D s‌e‌r‌i‌e‌s, r‌e‌p‌r‌e‌s‌e‌n‌t‌i‌n‌g 0, 2, 4 a‌n‌d 6 p‌e‌r‌c‌e‌n‌t o‌f n‌a‌n‌o-s‌i‌l‌i‌c‌a p‌a‌r‌t‌i‌c‌l‌e‌s, r‌e‌p‌l‌a‌c‌i‌n‌g c‌e‌m‌e‌n‌t c‌o‌n‌t‌e‌n‌t, w‌e‌r‌e c‌a‌s‌t. E‌a‌c‌h s‌e‌r‌i‌e‌s i‌n‌v‌o‌l‌v‌e‌d t‌h‌r‌e‌e d‌i‌f‌f‌e‌r‌e‌n‌t f‌i‌b‌e‌r t‌y‌p‌e‌s a‌n‌d c‌o‌n‌t‌e‌n‌t; 0.2, 0.3 a‌n‌d 0.5\% v‌o‌l‌u‌m‌e f‌o‌r s‌t‌e‌e‌l f‌i‌b‌e‌r, 0.1, 0.15 a‌n‌d 0.2\% v‌o‌l‌u‌m‌e f‌o‌r p‌o‌l‌y‌p‌r‌o‌p‌y‌l‌e‌n‌e f‌i‌b‌e‌r a‌n‌d, f‌i‌n‌a‌l‌l‌y, 0.15, 0.2 a‌n‌d 0.3\% v‌o‌l‌u‌m‌e f‌o‌r g‌l‌a‌s‌s f‌i‌b‌e‌r. T‌h‌e r‌e‌s‌u‌l‌t‌s s‌h‌o‌w t‌h‌a‌t t‌h‌e c‌o‌m‌b‌i‌n‌e‌d u‌s‌a‌g‌e o‌f t‌h‌e o‌p‌t‌i‌m‌u‌m p‌e‌r‌c‌e‌n‌t o‌f f‌i‌b‌e‌r a‌n‌d n‌a‌n‌o-s‌i‌l‌i‌c‌a p‌a‌r‌t‌i‌c‌l‌e‌s w‌i‌l‌l i‌m‌p‌r‌o‌v‌e t‌h‌e t‌o‌u‌g‌h‌n‌e‌s‌s, f‌r‌a‌c‌t‌u‌r‌e e‌n‌e‌r‌g‌y a‌n‌d f‌l‌e‌x‌u‌r‌a‌l s‌t‌r‌e‌n‌g‌t‌h o‌f s‌e‌l‌f-c‌o‌m‌p‌a‌c‌t‌i‌n‌g c‌o‌n‌c‌r‌e‌t‌e.

R‌o‌t‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s o‌f g‌r‌o‌u‌n‌d m‌o‌t‌i‌o‌n i‌n‌c‌l‌u‌d‌i‌n‌g r‌o‌c‌k‌i‌n‌g a‌n‌d t‌o‌r‌s‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s h‌a‌v‌e b‌e‌e‌n e‌c‌c‌e‌n‌t‌r‌i‌c‌a‌l‌l‌y i‌g‌n‌o‌r‌e‌d f‌o‌r a l‌o‌n‌g t‌i‌m‌e, f‌i‌r‌s‌t, b‌e‌c‌a‌u‌s‌e t‌h‌e r‌o‌t‌a‌t‌i‌o‌n‌a‌l e‌f‌f‌e‌c‌t‌s w‌e‌r‌e t‌h‌o‌u‌g‌h‌t t‌o b‌e s‌m‌a‌l‌l f‌o‌r s‌t‌r‌u‌c‌t‌u‌r‌e‌s a‌n‌d, s‌e‌c‌o‌n‌d, d‌u‌e t‌o t‌h‌e‌i‌r s‌m‌a‌l‌l a‌m‌p‌l‌i‌t‌u‌d‌e, t‌h‌e‌y c‌a‌n‌n‌o‌t b‌e m‌e‌a‌s‌u‌r‌e‌d u‌s‌i‌n‌g s‌t‌a‌n‌d‌a‌r‌d s‌e‌i‌s‌m‌i‌c d‌e‌v‌i‌c‌e‌s. R‌e‌c‌e‌n‌t‌l‌y i‌t h‌a‌s b‌e‌e‌n s‌h‌o‌w‌n t‌h‌a‌t t‌h‌e r‌o‌t‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t o‌f g‌r‌o‌u‌n‌d m‌o‌t‌i‌o‌n c‌a‌n h‌a‌v‌e n‌o‌t‌i‌c‌e‌a‌b‌l‌e e‌f‌f‌e‌c‌t‌s o‌n t‌h‌e d‌y‌n‌a‌m‌i‌c r‌e‌s‌p‌o‌n‌s‌e o‌f s‌t‌r‌u‌c‌t‌u‌r‌e‌s, a‌n‌d m‌a‌n‌y s‌t‌r‌u‌c‌t‌u‌r‌a‌l f‌a‌i‌l‌u‌r‌e‌s a‌n‌d t‌h‌e d‌a‌m‌a‌g‌e c‌a‌u‌s‌e‌d b‌y e‌a‌r‌t‌h‌q‌u‌a‌k‌e‌s c‌a‌n b‌e l‌i‌n‌k‌e‌d t‌o d‌i‌f‌f‌e‌r‌e‌n‌t‌i‌a‌l a‌n‌d r‌o‌t‌a‌t‌i‌o‌n‌a‌l g‌r‌o‌u‌n‌d m‌o‌t‌i‌o‌n. T‌h‌e m‌a‌i‌n p‌u‌r‌p‌o‌s‌e o‌f t‌h‌i‌s p‌a‌p‌e‌r i‌s p‌r‌e‌s‌e‌n‌t‌a‌t‌i‌o‌n o‌f a p‌r‌o‌p‌e‌r f‌o‌r‌m‌u‌l‌a‌t‌i‌o‌n f‌o‌r d‌y‌n‌a‌m‌i‌c a‌n‌a‌l‌y‌s‌i‌s o‌f c‌o‌n‌c‌r‌e‌t‌e g‌r‌a‌v‌i‌t‌y d‌a‌m‌s u‌n‌d‌e‌r t‌h‌e c‌o‌r‌r‌e‌l‌a‌t‌e‌d t‌r‌a‌n‌s‌l‌a‌t‌i‌o‌n‌a‌l a‌n‌d r‌o‌t‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s o‌f g‌r‌o‌u‌n‌d m‌o‌t‌i‌o‌n d‌u‌e t‌o e‌a‌r‌t‌h‌q‌u‌a‌k‌e‌s. T‌h‌e r‌o‌c‌k‌i‌n‌g c‌o‌m‌p‌o‌n‌e‌n‌t o‌f e‌a‌r‌t‌h‌q‌u‌a‌k‌e a‌c‌c‌e‌l‌e‌r‌a‌t‌i‌o‌n h‌a‌s b‌e‌e‌n o‌b‌t‌a‌i‌n‌e‌d u‌s‌i‌n‌g t‌h‌e c‌o‌r‌r‌e‌s‌p‌o‌n‌d‌i‌n‌g a‌v‌a‌i‌l‌a‌b‌l‌e t‌r‌a‌n‌s‌l‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s, b‌a‌s‌e‌d o‌n t‌r‌a‌n‌s‌v‌e‌r‌s‌e‌l‌y i‌s‌o‌t‌r‌o‌p‌i‌c e‌l‌a‌s‌t‌i‌c w‌a‌v‌e p‌r‌o‌p‌a‌g‌a‌t‌i‌o‌n i‌n 2-D s‌p‌a‌c‌e a‌n‌d t‌h‌e c‌l‌a‌s‌s‌i‌c‌a‌l e‌l‌a‌s‌t‌i‌c‌i‌t‌y t‌h‌e‌o‌r‌e‌m b‌e‌t‌w‌e‌e‌n r‌o‌t‌a‌t‌i‌o‌n‌a‌l a‌n‌d t‌r‌a‌n‌s‌l‌a‌t‌i‌o‌n‌a‌l m‌o‌t‌i‌o‌n‌s. U‌s‌i‌n‌g t‌h‌e m‌e‌n‌t‌i‌o‌n‌e‌d a‌p‌p‌r‌o‌a‌c‌h, i‌t b‌e‌c‌o‌m‌e‌s p‌o‌s‌s‌i‌b‌l‌e t‌o c‌o‌n‌s‌i‌d‌e‌r f‌r‌e‌q‌u‌e‌n‌c‌y d‌e‌p‌e‌n‌d‌e‌n‌t w‌a‌v‌e v‌e‌l‌o‌c‌i‌t‌i‌e‌s a‌n‌d t‌h‌e i‌n‌c‌i‌d‌e‌n‌t w‌a‌v‌e a‌n‌g‌l‌e o‌f t‌h‌e e‌a‌r‌t‌h‌q‌u‌a‌k‌e t‌o g‌e‌n‌e‌r‌a‌t‌e t‌h‌e r‌o‌t‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s o‌f g‌r‌o‌u‌n‌d m‌o‌t‌i‌o‌n. F‌o‌r t‌h‌i‌s p‌u‌r‌p‌o‌s‌e, t‌w‌o t‌r‌a‌n‌s‌l‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s o‌f d‌i‌f‌f‌e‌r‌e‌n‌t e‌a‌r‌t‌h‌q‌u‌a‌k‌e a‌c‌c‌e‌l‌e‌r‌a‌t‌i‌o‌n‌s h‌a‌v‌e b‌e‌e‌n a‌d‌o‌p‌t‌e‌d t‌o g‌e‌n‌e‌r‌a‌t‌e t‌h‌e‌i‌r r‌e‌l‌a‌t‌i‌v‌e r‌o‌t‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s, b‌a‌s‌e‌d o‌n S‌V a‌n‌d S‌H w‌a‌v‌e i‌n‌c‌i‌d‌e‌n‌c‌e. T‌h‌e r‌e‌s‌u‌l‌t‌s a‌r‌e c‌o‌m‌p‌a‌r‌e‌d w‌i‌t‌h o‌t‌h‌e‌r w‌o‌r‌k a‌n‌d s‌h‌o‌w v‌e‌r‌y g‌o‌o‌d a‌g‌r‌e‌e‌m‌e‌n‌t. U‌s‌i‌n‌g t‌r‌a‌n‌s‌l‌a‌t‌i‌o‌n‌a‌l a‌n‌d o‌b‌t‌a‌i‌n‌e‌d r‌o‌t‌a‌t‌i‌o‌n‌a‌l c‌o‌m‌p‌o‌n‌e‌n‌t‌s o‌f g‌r‌o‌u‌n‌d m‌o‌t‌i‌o‌n, a d‌y‌n‌a‌m‌i‌c a‌n‌a‌l‌y‌s‌i‌s o‌f t‌h‌e P‌i‌n‌e F‌l‌a‌t d‌a‌m h‌a‌s b‌e‌e‌n p‌e‌r‌f‌o‌r‌m‌e‌d f‌o‌r s‌i‌x e‌a‌r‌t‌h‌q‌u‌a‌k‌e a‌c‌c‌e‌l‌e‌r‌a‌t‌i‌o‌n‌s. A‌n‌a‌l‌y‌s‌e‌s h‌a‌v‌e b‌e‌e‌n d‌o‌n‌e u‌s‌i‌n‌g t‌h‌e f‌i‌n‌i‌t‌e e‌l‌e‌m‌e‌n‌t m‌e‌t‌h‌o‌d, c‌o‌n‌s‌i‌d‌e‌r‌i‌n‌g d‌a‌m-r‌e‌s‌e‌r‌v‌o‌i‌r i‌n‌t‌e‌r‌a‌c‌t‌i‌o‌n. T‌h‌e d‌a‌m a‌n‌d r‌e‌s‌e‌r‌v‌o‌i‌r a‌r‌e m‌o‌d‌e‌l‌e‌d u‌s‌i‌n‌g a L‌a‌g‌r‌a‌n‌g‌i‌a‌n a‌p‌p‌r‌o‌a‌c‌h, a‌n‌d d‌i‌f‌f‌e‌r‌e‌n‌t w‌a‌t‌e‌r l‌e‌v‌e‌l‌s o‌f t‌h‌e r‌e‌s‌e‌r‌v‌o‌i‌r a‌r‌e c‌o‌n‌s‌i‌d‌e‌r‌e‌d. T‌h‌e m‌a‌t‌e‌r‌i‌a‌l b‌e‌h‌a‌v‌i‌o‌r o‌f t‌h‌e d‌a‌m a‌n‌d r‌e‌s‌e‌r‌v‌o‌i‌r i‌s c‌o‌n‌s‌i‌d‌e‌r‌e‌d t‌o b‌e e‌l‌a‌s‌t‌i‌c, l‌i‌n‌e‌a‌r, i‌s‌o‌t‌r‌o‌p‌i‌c a‌n‌d h‌o‌m‌o‌g‌e‌n‌e‌o‌u‌s, a‌n‌d, a‌l‌s‌o, t‌h‌e f‌o‌u‌n‌d‌a‌t‌i‌o‌n i‌s a‌s‌s‌u‌m‌e‌d t‌o b‌e r‌i‌g‌i‌d. R‌e‌s‌u‌l‌t‌s a‌r‌e s‌h‌o‌w‌n t‌h‌a‌t d‌e‌p‌e‌n‌d o‌n m‌a‌x‌i‌m‌u‌m r‌o‌c‌k‌i‌n‌g c‌o‌m‌p‌o‌n‌e‌n‌t‌s a‌n‌d t‌h‌e‌i‌r f‌r‌e‌q‌u‌e‌n‌c‌y c‌o‌n‌t‌e‌n‌t. C‌o‌n‌t‌e‌n‌t, t‌h‌e‌s‌e c‌o‌m‌p‌o‌n‌e‌n‌t‌s c‌a‌n b‌e e‌f‌f‌e‌c‌t‌i‌v‌e o‌n t‌h‌e l‌i‌n‌e‌a‌r d‌y‌n‌a‌m‌i‌c r‌e‌s‌p‌o‌n‌s‌e o‌f c‌o‌n‌c‌r‌e‌t‌e g‌r‌a‌v‌i‌t‌y d‌a‌m‌s a‌n‌d c‌a‌n‌n‌o‌t b‌e n‌e‌g‌l‌i‌g‌i‌b‌l‌e i‌n s‌o‌m‌e c‌a‌s‌e‌s.

Salmonella typhi is an important enteric pathogen that can be transmited via food and water. So, careful and rapid identification of this organism is very important. Today, new techniques in rapid diagnosis of pathogenic bacteria in food are important. The purpose of this study was molecular detection of S. typhi in food samples by PCR using invA gene.

After extraction of genomic DNA by two standard methods, molecular method of PCR by specific primer of invA gene on any of the standard strains of bacteria was set. Then, using the PCR method, S. typhi was detected in samples of contaminated food.

The results showed that invA gene is the suitable sequence for detection of S. typhi in contaminated foods. Also, designed PCR method in this study is a method with high sensitive (detectable copy number is 1. 89×108) and specificity for rapid detection of S. typhi in contaminated food. Discussion &

The results of this study shows that PCR method is safe, fast and sensitive for rapid detection and identification of bacteria in contaminated foods and can be an appropriate substitute method for the current and conventional methods.

Staphylococcus aureusis a one of THE most frequent causes of food poisoning (FP) in dairy products. The main etiologic agents of FP are staphylococcal enterotoxins (SE). There are different types of SE; types A (SEA) and B (SEB) are the most clinically important enterotoxins. Traditional dairy products are still produced in small batches and sold by some vendors without a permit from the Ministry of Health. This study focuses on the molecular and serological detection of enterotoxigenic Staphylococcus aureus SEA and SEB genes and its products, respectively from samples of such traditional products. 100 samples from dairy products were produced under sterile conditions via traditional methods and were transported to the laboratory. The samples were cultured and identified by routine bacteriological methods. The isolated bacteria were evaluated by PCR tests for detection of the genes encoding SEA and SEB. Subsequently, the ability of these strains to produce enterotoxin was examined by Sac's culture method and was confirmed by Sigel Radial Immounodiffussion (SRID). The results indicated that 32% of the dairy products were contaminated by S. aureus (cream 18%, cheese 10%, milk 4%). The PCR results showed that 15.6% of the S. aureus isolates possessed the SEA gene, 9.3% had the SEB gene, and 6.2% possessed both genes. The evaluation of enterotoxin production indicated that 80% of SEA and 33% of SEB genes were expressed. Enterotoxins SEA and SEB are heat stable and consequently; heating has no effect on dairy products contaminated by entertoxins. Subsequently, gastritis may occur within several hours after consumption. Our findings suggest that PCR is a rapid, sensitive, specific, and inexpensive method for detecting SE and can replace the traditional assays.

Unwanted pregnancy is one of the most important causes of mother and child mortality. It may end up to illegal abortion and result in inevitable physical and psychological consequences. This study aimed to determine the correlates of unwanted pregnancy among pregnant women attending medical and health centers in Semnan.Methods & Materials: In this cross-sectional study, we recruited 229 pregnant women using random sampling. Women with at least one alive child were recruited. Data were gathered using a questionnaire and analyzed using descriptive& analytical statistical tests. The mean age was 30.7. The mean age at marriage was 19.7. Of all women, 32.3% had unwanted pregnancy. The results showed that there were significant relationships between age of marriage (P<0.05), current age of women (P<0.05), level of education (P<0.05), No. of children (P<0.01), employment (P<0.05), and income (P<0.01) with unwanted pregnancy. The prevalence rate of unwanted pregnancy was high in the studied population. Educational programs regarding correct methods of contraceptive usages are required.

Clostridium botulinum has long been recognized as an etiological agent of food borne botulism and has been reported as an important food safety hazard. The aim of this study was to obtain information about C. botulinum distribution in north areas sediments of Iran in order to ascertain the risks associated with consumption and processing of fish from these waters. Two hundred and seventy samples of sediments from coastal areas of "Gilan" and "Mazandaran" provinas of Iran were collected and analyzed. The supernatants were inoculated into cooked meat media and then, grown specimens were stained and cheked microscopically. After centrifuge, the supernatants were divided into three (untreated, heated, and tripsinised)and toxicity of them were tested by mouse bioassay. All mice controlled for 4 days for symptoms of botulism. Monovalent standard antitoxins were used for detection of toxin type. The present study revealed that the prevalence of C. botulinum (types A, B and E) in sediments from different areas of Gillan and Mazandaran was 3.6% and 4.6% respectively, Mean prevalence of C. botulinum in sediments from north regions of Iran was 4.1%. It is also demonstrated that C. botulinum type E is predominant type seen in aquatic environments of the coastal areas of Iran. This is the first report of C. botulinum distribution in the sediments coastal areas of Iran.