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The Abaqus/CAE Plug-in for Premium Threaded connection 3D parameter Finite Element ModelYan, Kaidi 22 June 2017 (has links)
Finite Element Analysis (FEA) is proposed to simulate the connection response of practical in-service conditions and test the performance of Oil Country Tubular Goods (OCTG) premium threaded connections. A plug-in is developed in Abaqus/CAE for creating the 360-degree full 3D parametric finite element model with helical threads as an effective design and analysis tool. All size, position and material data of the model are parameterized. The premium connection plug-in accepts input from the Graphical User Interface (GUI) for further modification. Each premium connection component is programed as a collection of single-purpose independent functions organized as an independent module in order to allow users to modify specific function behavior conveniently. A main program is designed as an Abaqus kernel plug-in to achieve all the functions by calling these independent functions, making the plug-in flexible. Each single script file is not too long to jeopardize readability. The GUI of the plug-in is designed with proper layout arrangement and illustrations to make the plug-in user-friendly and easy to use. The premium connection FE model is used in a virtual test to validate the model against the ISO 13679 test protocol and is used to develop the seal metrics for points on the ISO 13679 sealability envelope. The plug-in can be used to develop and evaluate the design envelope of the premium connection. / Master of Science / Oil Country Tubular Goods (OCTG) refers to a specific kind of steel tube used in the oil and gas industry--following the specifications set by the American Petroleum Institute (API). As the drilling of the modern oil well goes deeper, the extremely high temperatures and pressures require better quality oil tubes and connections. The drill pipe, connected by Premium Connections, are designed and tested carefully in order to avoid any possible environmental pollution or financial loss resulting from technical failures. Physical testing of each design takes time and costs a lot. Finite Element Analysis (FEA) is proposed to simulate the connection response of practical in-service conditions and test the performance of OCTG premium threaded connections. Full 360-degree 3D finite element models are the most complete representation of premium threaded connections. A plug-in is developed in Abaqus/CAE for creating the finite element model with helical threads as an effective design and analysis tool. The plug-in can be used to develop and evaluate the design envelope of the premium connection.
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Increasing Damping Capacity of Shear Walls with Glued-Nail Joints / Ökning av dämpningen hos skjuvväggar med limmade spikförbandKarlsson, Fredrik, Ramic, Zlatan, Tartes, Karl January 2012 (has links)
The purpose of this master thesis has been to investigate the possibility to increase the damping capacity of shear walls with the use of glue in combination with nails. It has been done with experiment and with FE-simulations. The first experimental part is tensile tests of four different glue types which have been analyzed to get material data. The second experimental part is analysis of glued-nail joint in shear test. FE-simulations of glued-nail joints are finally done in Abaqus/CAE. The experiments in shear tests of glued-nail joints showed that two glues failed and could not be used for further analysis. The two other glues had an increase in damping capacity compared with results from nail joint. Further FE-simulations of glued-nailed joints have to be done in order to calibrate the FE-model with the results of glued-nailed joints in shear tests. The uncertainty is found in the material properties of the glue, experimental test data was not adequate. The conclusion is that glued-nail joints can increase the damping capacity in shear walls. / Damping capacity, shear wall, hysteresis, shear test, finite element method, Abaqus/CAE
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Implementering av polymera material : En undersökande materialvalsstudie för sikteshuset Micro-T2Johansson, Kim January 2023 (has links)
Aluminium har flera fördelar inom konstruktion och produktframtagning. Aimpoint AB har resonerat för kostnad samt viktreducering i sikteshuset Micro T-2. Syftet med rapporten var att undersöka möjligheterna att implementera polymera material som tillfredsställer framlagd kravspecifikation för Aimpoint AB. Målet med arbetet var att identifiera lämpligt material i form av polymer, med lämplig tillverkningsmetod som kan appliceras för sikteshuset utan att påverka de mekaniska egenskaperna negativt. Lämpliga material som identifierades under litteraturstudien i arbetet var termoplasterna polyfenylensulfid (PPS) och polyetereterketon (PEEK) med implementerat kolfiber. Valet av polymerbaserade material utgjorde ett mindre omfång av lämpliga tillverkningsmetoder, som med hjälp av leverantörer och kostnadskalkylscenarier i Excel jämfördes. Med hjälp av tredimensionella verktyg utfördes FEM-analyser i ABAQUS CAE® av det exemplifierade sikteshuset. Baserat på simuleringarna i ABAQUS CAE®, presenterar arbetet en jämförelse mellan befintligt sikteshus av Al6082-T6 och sikteshus av polymera material med implementerad förstärkning för modellen Micro T-2. Simuleringarna konstaterade deformation vid det dynamiska explicita fallet mot en konstruerad laminatskiva enligt standarden MIL-STD-810G. För att bekräfta material och tillverkningsmetod krävs vidare undersökning. Detta för att med säkerhet besvara arbetets frågeställningar då FEM - analyser är en approximativ lösning. / SvenskaAluminum has several advantages in construction and product development. Aimpoint AB requires to reduce both the costs and the weight of their aluminum reflex sight of model Micro T-2. The aim with the report was to investigate the possibility to implement polymeric materials as a substitute to aluminum that fulfills the requirements specification set by the manufacturer Aimpoint AB. In addition to that, the aim was also to find suitable polymeric materials with an alternative production technique that is applicable for the reflex sight without compromising the mechanical integrity. Suitable materials identified during the literature part of this report were two types of thermoplastic materials, polyphenylene sulfide (PPS) and polyetheretherketone (PEEK), both with addition of carbon fiber. The selection process of the polymeric materials was based on several factors and together with contractors, different cost estimation scenarios were compared in Excel. By help from three dimensional tools, FEM-analysis of the sight were performed in ABAQUS CAE®. Based on the results from the simulations performed in ABAQUS CAE®, the report presents a comparison between the original aluminum sight with the two types of carbon fiber reinforced thermoplastic sights. During the dynamic explicit case the simulation was performed as a drop test against a laminate board according to standard MIL-STD-810G. The results of the simulation presented a deformation of the tested sight. To confirm the material and manufacturing method, further investigation is required. This is necessary to address the questions posed in the current project since the FEM - analysis is an approximate solution. / <p>2023-06-28</p>
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Bearing Capacity of I-JoistsIslam, Amjad, Nwokoli, Stephen U., Debebe, Tatek January 2011 (has links)
This work deals with the bearing capacity of wood based I-joists Finite element models were analyzed to determine the bearing capacity of I-joists, using the finite element software Abaqus CAE. The purpose of this study is to compare the results from the developed FE-models with experimental results, and with a previously proposed design formula. To perform the analyses finite element models were created. The model consists of three parts:, the web (made of shell element), the flanges and steel plates used at the supports and loading points (made of solid elements) To determine the bearing capacity of the I-joist two types of analyses were performed, a linear buckling analysis to check the risk of web buckling and a static (stress) analysis to check the risk of splitting of the flanges. This study shows that the steel plate length, in some cases, has little or no impact on primarily the splitting load. Furthermore, the buckling load decreases as the depth of the beam increases, the influence of the depth being proportional to 1/h2. The depth of the beam has no impact on the risk of splitting of the flange.
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Analyzing an Equivalent Single Layer Shim Model to be used for Brake Squeal ReductionÖzdemir, Hulya, Abbas, Azad January 2011 (has links)
The goal in this thesis was to reduce a multilayer shim model, which was modeled from steel and polymer (isotropic materials), into an equivalent single layer shim model. The procedure was to use mathematical formulations to convert a multilayer shim into an ESL (equivalent single layer) shim. Here, a transverse isotropic model is used to prepare for future orthotropic layers. The results show that the ESL model behaves isotropically. In the 2 layer model there was no squeal noise whereas in the ESL models there is.
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Study of Forming of Composite Materials with Abaqus CAE and The Preferred Fiber Orientation (PFO) ModelLi, Yumeng January 2017 (has links)
No description available.
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Simulation of distributed windings using the insert techniqueHoang, Hue, Widerström, Matilda January 2019 (has links)
During the insert process when the windings of an electric motor are pushed into the stator slots, some detrimental phenomena can occur that affect the efficiency and life of the motor. To detect these phenomena and optimize the process, a simulation would be useful. An investigation of the possibility to perform a simulation, using an appropriate numerical method for the insert process of distributed windings in a permanent magnet synchronous motor, was performed. During the project, a literature study was carried out to investigate existing methods and key-parameters for the simulation of the process. Explicit finite element method has been shown to be a suitable numerical method for simulating another winding process. An explicit finite element analysis was performed with a simplified model of the stator, the wires, the transmission tool and the needles by using the software Abaqus/CAE. In order to reduce the computational time, beam elements were used to model the wires and the other parts as rigid bodies. The model accounted for example contact and provided numerical results. The result was a suitable model. However, it needs to be developed further.
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Modelos computacionais para análise da influência de parâmetros estatísticos de textura superficial no contato dentário humanoOliveira, Evelyn Aparecida de 01 April 2016 (has links)
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Previous issue date: 2016-04-01 / O desgaste do dente, que se manifesta com uma grande variedade de graus ou níveis, é uma das anomalias dentárias comumente encontradas em diversas populações. A modelagem computacional do problema de contato oclusal pode ajudar na compreensão das interações entre os dentes, que gera concentrações de tensões. A abordagem utilizada para simular o contato entre as superfícies ásperas, dadas as funções de densidade de probabilidade das alturas das asperezas, consiste em discretizá-las em vários intervalos, de modo que cada um deles represente uma aspereza principal. As deformações das asperezas principais são analisadas e, utilizando técnicas de homogeneização, é possível estabelecer a relação entre as respostas que ocorrem em microescala e as respostas esperadas na macroescala. Neste trabalho, foi criada uma rotina para geração numérica de superfícies, um script acoplado ao programa de elementos finitos, Abaqus, para análise dos microcontatos, e, finalmente,
um código para o procedimento de homogeneização e análise paramétrica das medidas de rugosidade. Na estimativa da dureza superficial, verificou-se que a curvatura média das asperezas exerce maior influência. Os parâmetros que mais influenciam nas forças e áreas de contato são o coeficiente de achatamento (kurtosis), cujo aumento leva ao decaimento dessas grandezas, seguido da rugosidade média quadrática, que, por sua vez, tem uma relação diretamente proporcional com a carga e consequentemente com a área de contato. / Tooth wear, which manifests with a great variety of degrees or levels, is one of the dental abnormalities commonly found in different populations. The computational modelling of the occlusal contact problem can help the comprehension of any interaction between teeth generating stress concentration. The approach used in this work to simulate contact between rough surfaces, given the probability density functions of asperities, consists in discretizing them in several intervals, so that each one represents a main asperity. The deformations of the main asperities are analyzed and, using homogenization techniques, it is possible to developed the relationship among the responses occurred in micro-scale and the predicted responses in macro-scale. In this work a routine has been established for numerical generation of surfaces, a script as well as has been coupled to the finite element program Abaqus, for analysis of the micro-contacts, and, finally, a code for homogenization and parametric analysis of the roughness measure. In the estimate of the surface hardness it was found that the mean curvature of the asperities exerts the largest influence. The parameters that influence the forces and contact areas are the flattening coefficient (kurtosis), which when increases leads to decay of these greatness, followed by the mean square roughness, which, in turn, has a direct proportional relationship with the strength and consequently with the contact area.
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Development and simulation of a safety bracket for a safety systemAndersson, Robin, Timalm, Robert January 2020 (has links)
This thesis report aims to help the client developing their new product. The new product to be developed is a safety bracket for a safety system. The safety bracket connects different parts which create the safety system and it should be able to withstand impacts from moving objects. The client has a set of requirements that needs to be addressed during the product development process. One of the most important requirements that must be fulfilled is the given impact energy that the safety bracket must withstand. The methodology used during this thesis work is the product development processes (PDP). The product development process is used to find concepts that have the potential to answer the research questions and to fulfil the requirements. Some methods used in the product development process are brainstorming, brainwriting and combining working principles. The concepts were evaluated with a combination of Pugh´s matrix and weighting matrix. The three best concepts were selected for further development and tested with FEA simulation with Abaqus CAE. The impact simulation gave indications if the concepts could handle the impact energy and if they could fulfil the requirements. All three concepts could withstand the impact energy based on the simulations and most of the requirements could be fulfilled. The concepts with thinner profile walls had a reduction in stress and an increase in impact duration, where the kinetic energy is distributed throughout the impact. A protective shell helps with the reduction of stress and the energy absorption during the impact simulation.
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