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Behrouz Bagheri,Mahmoud Abbasi,Farzaneh Sharif,Amin Abdollahzadeh 대한금속·재료학회 2022 METALS AND MATERIALS International Vol.28 No.9
A developed version of friction stir brazing (FSB) entitled friction stir vibration brazing (FSVB) was presented to fabricatelow carbon steel joint using %67wt Sn-%33wt Pb alloy as a braze metal. This attempt aims to analyze the role of mechanicalvibration and rotational speed on microstructure and mechanical behaviors of the brazed samples. Furthermore, the thermalanalysis, the thickness of intermetallic compounds (IMCs) layers, and void volume percentage at the joint interface werestudied. It was concluded that the temperature during the joining process increased and the coherency of the joint interfaceenhanced while FSVB was applied instead of FSB. In addition, the grains in the joint zone under the FSVB process weresmaller than those produced under the conventional FSB process. The results also showed that the mechanical performance,namely hardness, and shear strength increased and the thickness of the IMCs layer along with the void volume percentagein the brazed sample decreased as rotational speed increased from 850 to 1150 rpm. The results indicated that rotationalspeeds over 1150 rpm had detrimental effects on mechanical properties. This is related to the effect of high heat input andinduced temperature on brazing flow and filler-base metal interaction.
177Lu-EDTMP radiation absorbed dose evaluation in man based on biodistribution data in Wistar rats
Bagheri Reza 한국원자력학회 2023 Nuclear Engineering and Technology Vol.55 No.1
Skeletal metastases are common in patients suffering from various primary cancers. Radiopharmaceuticals are an effective option for bone pain palliation. In this work, the radiation absorbed dose of 177Lu- EDTMP radiopharmaceutical was estimated for adult man based on biodistribution data in Wistar rats. The MIRD dose calculation method and the Sparks and Aydogan methodology were applied. The results shows that about 46% of injected activity is cumulated on the surface of the trabecular and cortical bones. Radiation absorbed doses of red bone marrow and osteogenic cells were estimated to about 1.1 and 6.2 mGy/MBq, respectively. The maximum administrated activity was obtained 27 MBq/kg of body weight with an effective dose of 0.23 mSv/MBq. The results were compared with other available data from literature. This study indicated that 177Lu-EDTMP provides therapeutic efficacy for achieving bone pain palliation with low undesired dose to other normal organs.
Bagheri Ahmad 한국화학공학회 2023 Korean Journal of Chemical Engineering Vol.40 No.8
The mixed micellar properties of double-chained surface active ionic liquid (1, 3-didecyl-2-methylimidazolium chloride or TEGO) with two conventional cationic surfactants, dodecyltrimethylammonium bromide (DOTAB) and cetyltrimethylammonium bromide (CTAB) were investigated by using surface tension and conductivity experiments in aqueous solution at 303.15 K. TEGO is a special surface active agent with two specific critical micelle concentrations (CMC). To consider the effect of hydrophobic groups in synergism between components (surfactant and TEGO) in the mixed micelle, two cationic surfactants were selected that differed only in the length of the hydrocarbon chain (DOTAB: C12 and CTAB: C16). The experimental critical micelle concentration (CMCexp), degree of micellar dissociation (g), the ideal critical micelle concentration (CMCid), micellar mole fractions (Xm1 and Xm2) and the interaction parameter (βm) were determined by using Rubingh’s model. The achieved βm of the studied system is negative in the whole compositions denoting the synergistic interaction between components and their values increase with increasing chain lengths of surfactant from DOTAB to CTAB. The activity coefficients (fm1 and fm2) are always less than unity in all mole fractions signifying non-ideality in the mixtures. Thermodynamic functions for mixed systems were estimated. The standard Gibbs energy of micellization (ΔG0mic ) associated with transfer of surfactant monomers from the bulk phase to micelle phase was evaluated according to Zana’s model in different situations and discussed with logical points in the new approach. The results show that the effect of hydrophobicity can regulate the synergism between cationic surfactants in the same electrical charges of head groups.
Analysis of genetic diversity in a collection of Plantago species: application of ISSR markers
Bagheri Motahareh,Heidari Bahram,Dadkhodaie Ali,Heidari Zahra,Daneshnia Negar,Richards Christopher M. 한국작물학회 2022 Journal of crop science and biotechnology Vol.25 No.1
The analysis of genetic diversity in medicinal plant species can greatly facilitate germplasm conservation and selection for use in breeding schemes. The aim of the present study was to assess the genetic diversity and diferentiation of eight Plantago species using inter simple sequence repeat (ISSR) markers. Thirty-one Plantago accessions belonging to eight species were collected from Iran environments. Polymorphisms in the DNA of Plantago accessions were analyzed using 25 ISSR primers. The data for 286 polymorphic bands indicated that the ISSR primers each amplifed 5–21 polymorphic amplicons that were 100–3000 bp in size. The mean polymorphism was 83.83% and fve primers showed higher polymorphism. The polymorphism information content (PIC) ranged from 0.1103 to 0.3829 with a mean of 0.2727. Accessions in P. amplexicaulis and P. pysillum represented the highest Nei’s and Shannon’s genetic diversity, while the lowest was obtained for P. lagopus. The phenetic network generated by the Neighbor-Net algorithm showed moderate confict and splitting of the eight species. Principal coordinate analysis (PCoA) results showed the separation of accessions of the eight species. The results suggest that ISSR markers can diferentiate Plantago species and that information on genetic diversity may assist in pre-breeding evaluations and Plantago germplasm conservation.
Structural damage identification of plates based on modal data using 2D discrete wavelet transform
Bagheri, A.,Ghodrati Amiri, G.,Khorasani, M.,Bakhshi, H. Techno-Press 2011 Structural Engineering and Mechanics, An Int'l Jou Vol.40 No.1
An effective method for detection linear flaws in plate structures via two-dimensional discrete wavelet transform is proposed in this study. The proposed method was applied to a four-fixed supported rectangular plate containing damage with arbitrary length, depth and location. Numerical results identifying the damage location are compared with the actual results to demonstrate the effectiveness of the proposed method. Also, a wavelet-based method presented for de-noising of mode shape of plate. Finally, the performance of the proposed method for de-noising and damage identification was verified using experimental data. Comparison between the location detected by the proposed method, and the plate's actual damage location revealed that the methodology can be used as an accessible and effective technique for damage identification of actual plate structures.
Investigation of the load-bearing capacity of suction caissons used for offshore wind turbines
Bagheri, Pouyan,Son, Su Won,Kim, Jin Man Elsevier 2017 Applied ocean research Vol.67 No.-
<P><B>Abstract</B></P> <P>This paper presents the results of three-dimensional finite element analyses of the suction bucket foundation used for offshore wind turbines. The behavior of the bucket and the response of soil supporting the bucket in dense and medium dense sandy soils subjected to static horizontal load are investigated. Field tests results and a centrifuge model test are used to validate the numerical model. Dimensionless horizontal load-displacement and overturning moment-rotation relationships are derived utilizing the Power law and Buckingham’s theorem. The results show good agreement between the numerical analysis results and the straight lines obtained from the Power law until a specific value of horizontal load and overturning moment. Regarding stress behavior of soil supporting the bucket, due to soil densification and bucket movement, maximum stresses are seen near the bucket tip at the right inside of the bucket. The major part of the applied load is transferred by the bucket skirt. Numerical analysis modeling results show that the bucket rotation and displacement are highly dependent on the bucket geometry and soil properties in addition to loading conditions. Normalized equations and figures for the ultimate horizontal load and overturning-moment capacities are presented and can be used for the preliminary design of the bucket foundations in sandy soils.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Preliminary design equations and figures for bucket foundations are proposed. </LI> <LI> Presenting normalized equations and figures for bucket foundations using Power law. </LI> <LI> Bucket rotation and displacement are highly dependent on the bucket geometry. </LI> <LI> Maximum stresses are seen near the bucket tip at the right inside of the bucket. </LI> <LI> The largest soil displacement occurs near the lid inside of the bucket. </LI> </UL> </P>