Keresés

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  • Finite Element Analysis of Cellular Structures Using Ansys
    197-204
    Megtekintések száma:
    236

    Additive manufacturing (AM) is a process in which the product is composed of overlapping layers of a material that is added using devices such as 3D printers. Its process has been evolving for decades and nowadays it can be used for several applications and with different materials. One modern usage is for medical and dental purposes. Since it became possible to print metal, it has been a good solution for bone implants, once it must be done with biomaterials and can now replicate the bone structure, for that unit cells should compose the implant. Both conditions are now possible to be achieved by AM, and the current study will analyze, using finite element method, the possibilities to create specimens for tests which the final product would result in a 3D printed bone implant.

  • Optimization of the Sheet Metal Base of a Toggle Clamp Using Finite Element Method
    266-273
    Megtekintések száma:
    221

    Optimization relates to the ultimate yield strength and the maximum stress incident on the current model under critical working conditions and finds through iterative processing a way to compensate for the strength requirement without going beyond the desired mass limits. In this paper, the horizontal sheet metal base of a horizontal toggle clamp is optimised for mass reduction using the finite element analysis in the computer aided design software. The sheet metal base material is the ANSI32 Steel. In the design software, it is designed with the thickness of 7 mm and it is intended to support a workload of up to 750 N. The constraints were a fixed point added at all the holes and at the bottom surface of the sheet metal base. A number of iterations were made for the 750N loading force across the base plate to run the simulation. For optimization, the aim was to minimize the mass of the base plate. The design parameters  were Von Mises, factor of safety and displacement. The variables were the slots’ width and material thickness along the mid-surface of the sheet metal. The mass was reduced by more than thirty per cent overall.

  • Generative Design of Articulated Rod of Radial Engine
    36-47
    Megtekintések száma:
    482

    The constant need for improvement drives humans to look for the best possible option in every field. Computer Aided Design (CAD) is no exception, to follow the best method of designing a product and finalizing it, researchers came up with an idea to generate multiple designs using fixed input values and finalizing the most appropriate one. The objective is achieved using an iterative design process based on algorithms by a specific software. Generative design introduces a new experience based on the Integration of machine dynamics in the manufacturing of objects and about experience. In this work generative design method was investigated on an articulated rod, one of the most important components of the rotary engine, to effectively improve the overall working performance of the engine and enhance its performance by decreasing its mass. Since fuel consumption by the machine can be greatly reduced by lowering the mass, so the goal is to minimize the weight of the rod while mechanical characteristics have to be within the acceptable values. Also, finite element analysis (FEA) was investigated on the part as to ensure the reliability of the rod before and after optimization.

  • Generative Design of a Mechanical Pedal
    48-58
    Megtekintések száma:
    849

    Nowadays, there are various tools that support the initial stages of design available to use for engineers, the traditional Computer-Aided Design (CAD) has been implemented in the engineering components design and replaced manual drafting. However, with the advances and the rapid technology development, new trends emerged to cope with this evolution, namely, Generative Design, Topology Optimization, and Generative Engineering Design. The method is based on numerical algorithms that generate a variety of design and modelling options based on the criteria and constraints set by the designer to allow further design exploration. Proposed in this paper is an implementation of the generative design of a mechanical pedal with further finite element analysis.

  • Mindkét végén befogott gerenda tehetetlenségi főirány körüli hajlító rezgéséhez tartozó sajátfrekvenciájának vizsgálata egyszabadságfokú modell és végeselemes számítás alapján
    69-79
    Megtekintések száma:
    215

    Jelen cikkben mindkét végén befogott, téglalap keresztmetszetű gerendák hajlító rezgéséhez tartozó sajátfrekvenciák számítási módszereivel foglalkoztunk. Az említett sajátfrekvenciákat a gerenda egyszabadságfokú modelljén analitikusan, valamint a térbeli szilárdtest-, és a térbeli rúd modellek esetében végeselemes modális rezgésvizsgálattal határoztuk meg. Bemutattuk az analitikus modell jellemzőinek kiszámításának módját, majd egy konkrét példa esetében kiszámítottuk a sajátfrekvenciát. Ismertettük a modális jellemzők fogalmát, a továbbiakban az előbbi gerenda szilárdtest-, és rúd modellje alapján meghatároztuk a sajátfrekvenciáját. A bemutatott módszerekkel további 11 esetben számítottuk ki, és vetettük össze a különböző módon felvett modellekhez tartozó megoldásokat.

  • Thermoelastic Problems of Multilayered Spherical Pressure Vessels Subjected to Axisymmetric Loading
    106-115
    Megtekintések száma:
    134

    This paper deals with the linear thermoelastic analysis of functionally graded multilayered spherical bodies subjected to constant mechanical and thermal loading. The temperature field is arbitrary function of the radial coordinate, the material properties and the radial body force vary according to power law functions along the radius of the sphere. An analytical method is presented to calculate the displacements and stresses within the multilayered spherical body. The method is expanded to tackle the problem of spherical bodies made from radially graded materials with temperature dependent material properties. The results are compared to finite element simulations and other methods.

  • Study on Nonlinear Behavior of Variable Thickness Plates
    72-80
    Megtekintések száma:
    66

    The analysis of variable-thickness plates is much more complicated than that of uniform-thickness plates because variable coefficients occur in the equations. In reality, this analysis is of great interest in various engineering disciplines, such as civil engineering, aerospace engineering, machine design, and so on. Although there is extensive literature on analyses of plates with constant thickness, a rather limited amount of technical literature is available on the solutions to problems dealing with plates with nonuniform thickness. The reason is that the analytical solutions meet insurmountable difficulties. Besides, the nonlinear analysis process also faces more difficulties than the linear analysis of structures. For these reasons, the nonlinear behavior of variable-thickness plates based on a finite element procedure is presented in this study. Although the topic is not special, it will help the engineer have a specific view of the nonlinear bending of the plate with variable thickness. This survey will be based on the change in geometrical parameters. Numerical solutions are then presented to verify the simplicity of this proposed procedure.

  • Topology Optimization of Automotive sheet metal part using Altair Inspire
    143-150
    Megtekintések száma:
    836

    In an optimization problem, different candidate solutions are compared with each other, and then the best or optimal solution is obtained which means that solution quality is fundamental. Topology optimization is used at the concept stage of design. It deals with the optimal distribution of material within the structure. Altair Inspire software is the industry's most powerful and easy-to-use Generative Design/Topology Optimization and rapid simulation solution for design engineers. In this paper Topology optimization is applied using Altair inspire to optimize the Sheet metal Angle bracket. Different results are conducted the better and final results are fulfilling the goal of the paper which is minimizing the mass of the sheet metal part by 65.9%  part and Maximizing the stiffness with Better Results of Von- Miss Stress Analysis,  Displacement, and comparison with different load cases.  This can lead to reduced costs, development time, material consumption, and product less weight.

  • Modeling the Thermal Behavior of Permanent Magnet Synchronous Motors
    466-477
    Megtekintések száma:
    155

    The aim of this study is to present a thermal analysis of a permanent magnet synchronous machine based on finite element method. The developed model can be used to predict temperature distribution inside the studied motor during the rated operation. Electromagnetic computation is carried out with the aid of two 2D finite-element (FE) simulations on the cross-section of the PM motor. To analyse the process of heat transfer in an electrical machine, empirical correlations are used to describe the convective heat transfer from the different surfaces of the PM motor. The heat transfer coefficient is determined using dimensionless numbers and Nusselt number. After the loss calculation, the temperatures of the machine are calculated by using 3D finite element method. The results obtained by the model are compared with experimental results from testing the prototype electric motor.

  • Numerical Modelling and Simulation of Sheet Metal Forming Process
    1-6.
    Megtekintések száma:
    163

    Simulation and modelling of sheet metal forming process are well common today in different industries (automotive, aerospace) and several research centers regarding its huge impact for both on production and reliability of the lifecycle of the equipment, and the quality of the product. However, to obtain the best configuration possible with the inputs parameters to achieve high level of production and increasing the durability of the tools needs some extra methods for the optimization for this problem using mostly finite element method cooperated with iterative algorithms based on Artificial Neural Network (ANN) [1]. Whereas this research is focused on modelling of stamping process of stainless steel AISI 304 to investigate to formability of the material, and studying the influence of the friction factor on the quality of the product as well the energy required for each set configuration.

  • Mechanical Design and Finite element Analysis for Acetabular cup
    23-35
    Megtekintések száma:
    135

    Hip replacements typically consist of a four-part piece. Our research will focus primarily on the acetabular component. Several different types of materials can be used when creating a hip replacement implant ranging from plastic to titanium. Different materials are used to accommodate for allergic reactions or circumventing potential health risks. Aside from the material, the size of the components plays a factor in terms of durability; a larger diameter head might avoid dislodgement though it could increase wear and tear on the stems through constant friction. A patient’s force applied to the hip replacement is usually measured through a number of physical assessments. Finite element analysis (FEA), a computer-based method of data observation, allows for us to accurately simulate hip forces and their impact on the hip replacements. Through this, it becomes easier to predict and calculate the performance of specific designs. Generative systems can also be used to support performance analysis and optimization through assessing a multitude of cases, many of which apply in real-world scenarios. By applying both systems, we designed and modeled an acetabular cup that when measured decreased the mass from 129 grams initially down to 52 grams, a 60% decrease in total mass. Furthermore, the design we created lessened the trauma on the piece through distributing force across the entirety of the piece rather than specific segments only. This shows an increased durability and life expectancy when compared to usual acetabular cups.

  • Topology Optimization of Acetabular Cup by Finite Element Simulation
    22-34
    Megtekintések száma:
    438

    Hip replacements typically consist of a four-part piece. Our research will focus primarily on the acetabular component. Several different types of materials can be used when creating a hip replacement implant ranging from plastic to titanium. Different materials are used to accommodate for allergic reactions or circumventing potential health risks. Aside from the material, the size of the components plays a factor in terms of durability; a larger diameter head might avoid dislodgement though it could increase wear and tear on the stems through constant friction. A patient’s force applied to the hip replacement is usually measured through a number of physical assessments. Finite element analysis (FEA), a computer-based method of data observation, allows for us to accurately simulate hip forces and their impact on the hip replacements. Through this, it becomes easier to predict and calculate the performance of specific designs. Generative systems can also be used to support performance analysis and optimization through assessing a multitude of cases, many of which apply in real-world scenarios. By applying both systems, we designed and modeled an acetabular cup that when measured decreased the mass from 129 grams initially down to 52 grams, a 60% decrease in total mass. Furthermore, the design we created lessened the trauma on the piece through distributing force across the entirety of the piece rather than specific segments only. This shows an increased durability and life expectancy when compared to usual acetabular cups.

  • Optimáló módszerek alkalmazhatósága járműipari gumitermékek tervezésében
    358-363
    Megtekintések száma:
    154

    A gumitermékek tervezése során a velük szemben támasztott követelmények teljesítése céljából általánosan használt a méret, az alak vagy a topológia optimálási módszer. A vizsgált termék alakja a legtöbb esetben igen bonyolult, továbbá működése közben érintkezésbe lép egyéb alkatrészekkel is. Jellemzően nagy deformációnak van kitéve, melyre a gumi alapanyag erősen nemlineáris tulajdonságot mutat. Ezen feladat analitikus megoldására nincs lehetőség ezért azt numerikus úton kell keresni, melynek futtatása igen időigényes folyamat. Ebből adódik a kutatásom célja, mely a különböző optimálási eljárások hatékonyságának és számítási költségének összehasonlítása. Jelen dolgozat célja az elérhető optimáló algoritmusok alkalmazási lehetőségeinek felkutatása járműipari gumitermékek alakoptimálására. Ismertetésre kerül több helyettesítő modellen végzett optimum kereső eljárás továbbá számos direkt kereső módszer is.

  • Determination of Different Parameters to High Strength Steel Clinch Joints by FEA
    341-347
    Megtekintések száma:
    223

    In this article the clinched joints were analyzed by finite element method (FEA). The base materials were advanced high strength steels (DP 600, DP 800 and DP 1000). The model validation procedure was done by the DP 600 type of steel sheets; the other two types of steel were only simulated. The goal was to determine the geometrical properties of the joints with different strength steels. The FEA model was the same in every mechanical point of view therefore the results are comparable. The main geometrical parameters of the clinch joints are the neck thickness (tN), the undercut (C), the bottom thickness (tB) and the height of the protrusion (h); these values were compared.

  • Hárompontos hajlító-nyíró vizsgálatnak alávetett próbatestek Euler-Bernoulli- és szilárdtest modelljeinek összevetése
    53-68
    Megtekintések száma:
    159

    Kéziszámítások céljára a mérnöki gyakorlatban, egyszerűsége és pontossága miatt az Euler-Bernoulli gerenda modell terjedt el. Jelen tanulmányban egy vasalás nélküli és egy FRP betétekkel erősített repedésmentes beton gerenda Euler-Bernoulli, valamint térbeli szilárdtest modellje alapján számított állapotjellemzőket hasonlítom össze.

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