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YAZICI, GÖKHAN

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Dr. Öğr. Üyesi

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YAZICI

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GÖKHAN

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End date: 2022Has files: true

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Now showing 1 - 10 of 14
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    PublicationOpen Access
    Collaboration of Architects and Engineers in Structural System Configuration Through The IDECAD Platform A Case Study
    (2012) TÜRKYILMAZ, EMRAH; YAZICI, GÖKHAN; 113480; 140840
    This paper reports the findings of a multidisciplinary design workshop with the aim of improving the collaboration between architects and civil engineers in choosing an appropriate structural system configuration for a design project. The workshop was conducted with the participation of undergraduate students of architecture and civil engineering at the Istanbul Kultur University who were asked to work together in selecting an appropriate structural system configuration of a simple reinforced concrete residential dwelling. The participants were asked to experiment with various design options and to evaluate the implications of their design decisions on the overall cost and constructability of the design project. IdeCAD Structural for structural design and IdeCAD Architectural for architectural design, were selected as the software for design collaboration due to the ease of exchanging information, the ability of checking designs according to Turkish design codes and the similarities in the user interfaces.
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    PublicationRestricted
    Failure of the Maintenance Gantry of a Metro Crossing Bridge
    (Pergamon-Elsevier Science Ltd., 2020) Vatansever, Cüneyt; YAZICI, GÖKHAN; SEÇKİN, EDİP; Alçiçek, Haluk Emre
    This paper investigates the failure of the underdeck maintenance gantry of the metro crossing bridge in Istanbul, Turkey on January 4, 2014, which resulted in the injury of four workers. First, a brief description of the gantry and the bridge has been provided, which is followed by the findings of the on-site investigation which involved the review of the video record of the incident, interviews with the field staff, overview of the project drawings and the investigation of the parts of the collapsed gantry. Additionally, the finite element model of the part where the collapse initiated was created and loaded in accordance with the operation procedures of the gantry during the incident. Finally, on-site investigation and finite element analysis results revealed that collapse of the gantry occurred by exceeding the shear capacity of the bolts in the connections. Moreover, the exceedance of the shear capacity was the consequence of unexpected operating practices used by the workers during the incident, which caused unforeseen shear stress concentration in the bolts.
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    PublicationOpen Access
    Working with Mathematical Tools for Generating Complex Surfaces
    (2012) Erkan Yazıcı, Yasemin; YAZICI, GÖKHAN; 112309; 140840
    This paper presents the findings of a workshop conducted with the undergraduate students of architecture at the Istanbul Kultur University within the “Form and Geometry”course. The main aim of the workshop was to inform the students on the ways of working with mathematical tools for generating complex surfaces. Matlab was chosen as the mathematical tool for this workshop due to its ease of plotting curved surfaces. After a brief introduction to the user interface and plotting features of Matlab, students were given the task of generating a hyperbolic paraboloid surface. Afterwards, the students were asked to experiment with their model and observe the effect of the change in the parameters on the model geometry. Finally, the students were shown how to export the generated surface to a DXF file and asked to import the surface model to Autocad. The workshop was concluded with a group discussion on the views of participating students on using mathematical tools together with CAD tools to generate complex surfaces and the difficulties they have experienced throughout the exercise.
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    PublicationOpen Access
    Gömülü Betonarme Boruların Analitik ve Sayısal Yöntemler ile Tasarımı
    (Turkish Chamber Civil Engineers, 2022) Demirci, Onur; Kılıç, Havvanur; YAZICI, GÖKHAN
    Gömülü betonarme borular, kentsel altyapının kritik bileşenleridir. Tasarımlarında, boru özellikleri, boruyu çevreleyen dolgu zemin, yataklama koşulları ve etki eden dış yükler dikkate alınarak ampirik veya sayısal yöntemler kullanılır. Bu çalışmada, uygulamada yaygın olarak kabul gören ampirik ve sayısal analiz yöntemleri dikkate alınarak yapılan tasarım hesaplarındaki farklılıklar geri dolgu malzeme türü, dolgu yüksekliği ve boru çapı değişimi dikkate alınarak parametrik analizler ile incelenmiştir. Çalışma sonuçları, sayısal analizlerde zemin-boru etkileşiminin gerçekçi olarak dikkate alınması nedeniyle hesaplanan gerekli donatı alanlarının geleneksel tasarım yöntemlerinden elde edilen değerlere göre daha düşük olduğunu göstermektedir.
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    PublicationOpen Access
    Experimental and numerical study of the sloshing modes of liquid storage tanks with the virtual mass method
    (2019-05) Kılıç, S. Armağan; Çakıroğlu, K.; YAZICI, GÖKHAN
    Accurate prediction of the vibration characteristics of the sloshing motion is essential for the analysis and design of liquid storage tanks subjected to base motion. The virtual mass method is a computationally efficient approach to determine the hydrodynamic forces generated by incompressible and inviscid fluids in accelerated containers since the virtual mass method involves meshing of the fluid boundaries rather than the entire fluid domain. Hydrodynamic actions of the sloshing liquid are taken into consideration by coupling a virtual fluid mass matrix to the structural points on the wetted regions of the tank wall. Analysis of the free surface displacements of the contained liquid can be carried out using the virtual mass method and this paper focuses on the application of the virtual mass method for the analysis of the vibration frequencies and mode shapes of the sloshing modes in rectangular and cylindrical liquid storage tanks. Firstly, the theoretical background for the analytical solution of the mode shapes and modal frequencies is presented for rectangular and cylindrical liquid tanks. This is followed by the description of the procedure used to apply the virtual mass method to obtain the sloshing modes and mode shapes of the contained liquid. The effects of various surface mesh topologies on the predicted vibration characteristics are compared with the analytical solutions as well as the results of an experimental study conducted on scaled rectangular and cylindrical containers mounted on a shake table.
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    PublicationEmbargo
    An Evaluation of the Academic Performance of Students Enrolled in the Double Major Programmes of Architecture and Civil Engineering
    (2012-04) Erkan Yazıcı, Yasemin; YAZICI, GÖKHAN; 112309; 140840
    Double major programs allow students to simultaneously obtain diplomas in two related academic programs by satisfying their graduation requirements. Students of architecture and civil engineering at the Istanbul Kultur University can apply for the double major program between the third and fifth semesters of their undergraduate education providing their GPAs are at least 3.00 out of 4.00 and they need to maintain their GPAs above 3.00 to continue the double major program. Although all double major programs are demanding and require keen interest of the students, the double major program is particularly challenging due to the differences in educational models used in engineering and architecture. Engineering education largely depends on classroom teaching and laboratory work whereas the architectural education is centered on the design studios. This paper attempts to evaluate the academic performance of civil engineering and architecture students enrolled in the double major program at the Istanbul Kultur University and outline the challenges of a double major program of engineering and architecture.
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    PublicationOpen Access
    Calculation of Pile Capacity in Cohesionless Soil by CPT Considering Spatial Variability
    (Çukurova Üniversitesi Mühendislik Fakültesi, 2021) MERT, AHMET CAN; YAZICI, GÖKHAN
    The study aims to construct a framework for CPT based ultimate pile capacity calculation for cohesionless soils with random field theory. Cone tip resistance (qc) was taken as the spatially varying parameter with a constant mean and changing coefficients of variation. CPT profiles were simulated with random field generations, and the ultimate capacity of a single pile (Qu) was calculated with these simulations. The influence of spatial variation of qc on the variation of Qu was investigated. The proposed framework was finally verified by comparing the results of an actual CPT database and the simulated CPT profiles in the study. The results showed that the critical vertical scale of fluctuation for CPT-based pile capacity calculations was equal to one diameter of pile (dv=1D), and that the method effectively predicted the ultimate pile capacity through simulated CPT profiles with random field. The proposed method is especially recommended for cases where the uncertainty consideration is necessary, yet the site-specific data is limited. The study aims to contribute a simple framework to the methods of CPTbased pile capacity with unceratinty consideration. The propesed method aims to facilitate the pile design framework with limited available data.
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    PublicationEmbargo
    A Learning by Doing Approach in the Delivery of Structural Engineering Courses of Architecture
    (2013-04) Erkan Yazıcı, Yasemin; YAZICI, GÖKHAN; 140840; 112309
    A through understanding of the principles of structural system design is particularly important for architects practising in Turkey where over 90 percent of the population reside in seismically active regions and the structures built must withstand the damaging effects of severe earthquakes. However there are problems incorporating the classroom based structural engineering courses into architectural design curriculums which are largely centered on the architectural design studio. The students of architecture are accustomed to the “learning by doing” approach used in the design studio and have a hard time adjusting to the classroom delivery of structural engineering lectures which largely use mathematical abstraction to communicate concepts of physics. This paper presents the findings of a study conducted at the Faculty of Architecture of Istanbul Kultur University to investigate the use of a “learning by doing” approach at the Building Mechanics course to increase the motivation and the academic performance of students.
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    PublicationEmbargo
    Analysis of Seismic Sloshing Displacements in Rectangular Liquid Storage Tanks with SPH Method
    (2018) Güray, Ersan; Aksel, Murat; YAZICI, GÖKHAN; 140840; 135845; 291826
    In this study, Smoothed Particle Hydrodynamics (SPH) method was used to model sloshing response of a rectangular tank subjected to horizontal earthquake base excitation. An experiment and a numerical study with ANSYS Fluent flow modeling software are performed to verify the outputs of the SPH model. The sloshing displacement profiles obtained from the SPH model closely matched the free surface displacements obtained from the experiment and the flow modeling software. The SPH model described in this study was highly efficient at capturing discontinuities and working with moving boundaries without having to re-mesh the model at each time step.
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    PublicationEmbargo
    The use of finite element analysis applications in architectural education
    (2019) Erkan Yazıcı, Yasemin; YAZICI, GÖKHAN
    Architectural design is a complex process and architects are continuously required to draw and analyze resources from various disciplines in their design decision making processes. Architects commonly refer to “rules of thumb”, originating from previous design experiences to deal with design issues involving engineering analysis, since the formulation and analysis of the engineering problem is usually quite rigorous. The problem with this approach is that these rules of thumb may not be appropriate to the design problem at hand. Recent advancements in computer aided design, finite element analysis software and building information modeling paved the way for “integrated design”, where architects and engineers work simultaneously throughout the design process. This paper reports two case studies which use finite element analysis software (ANSYS) to enhance the architectural design process. This paper also investigates the ways this approach can be applied more extensively in architectural design education.