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Journal articles on the topic 'MATLAB and ANSYS'

Author: Grafiati
Published: 11 September 2023

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1

Liu, Heng, Wei Ping Xie, and Lei Li. "Vehicle-Bridge Interaction Analysis via ANSYS and MATLAB." Advanced Materials Research 838-841 (November 2013): 1135–39. http://dx.doi.org/10.4028/www.scientific.net/amr.838-841.1135.

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In order to establish and solve vehicle-bridge interaction matrix equations more easily and able to be applied to any vehicle-bridge interaction problems, a procedure has been programmed based on the ANSYS and MATLAB. Its feasibility and accuracy has been verified via comparing the results of a simple example with another verified procedure programed in the same method based on MATLAB. A study of contrasting moving load model and moving sprung mass model has been done with the former procedure. It indicates that the inertia force of the mass has a low effect on the dynamic response of vehicle and bridge when the vertical roughness of the bridge and damping effect are ignored.
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2

Krynkin, Anton. "Book Review: Acoustic Analyses Using MATLAB and ANSYS." Journal of Low Frequency Noise, Vibration and Active Control 34, no. 4 (December 2015): 569–70. http://dx.doi.org/10.1260/0263-0923.34.4.569.

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3

Kuznetsov, I. A., A. N. Gribanov, A. A. Kurushin, G. F. Moseychuk, and A. I. Sinani. "Electrodynamic computations using ANSYS Electronics Desktop software controlled by a program developed in the MATLAB environment." Journal of «Almaz – Antey» Air and Space Defence Corporation, no. 3 (September 30, 2019): 13–18. http://dx.doi.org/10.38013/2542-0542-2019-3-13-18.

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The paper considers methods of controlling the process of electrodynamic structure simulation in the ANSYS Electronics Desktop software (previously known as ANSYS HFSS). The MATLAB software was leading the computation. In order to transmit data to the ANSYS Electronics Desktop software we employed the Microsoft Component Object Model technology, which makes it possible to combine software components into executables. We used simulation of a planar aperture phased antenna array to show the possibilities and limitations in controlling the ANSYS HFSS software subsequently outputting data to a text file and importing the latter into MATLAB for further computation. We present simulation results for a phased antenna array generated by the ANSYS Electronics Desktop software according to the array model compiled in MATLAB
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4

Ghatole, Dhiraj W., Pragati Rathi, Santosh Bhagyawant, and Patil Ganesh. "Finite Element Analysis of Stepped Bar using Matlab and Ansys." International Journal of Research in Advent Technology 7, no. 1 (February 10, 2019): 364–68. http://dx.doi.org/10.32622/ijrat.71201964.

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Chang, Juan, Jian Hua Zhang, Dian Ji Zhang, and Zhi Gang Liu. "Research on Computer Information System of Disaster Warning Based on ANSYS and MATLAB." Applied Mechanics and Materials 484-485 (January 2014): 958–62. http://dx.doi.org/10.4028/www.scientific.net/amm.484-485.958.

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In this paper, we use the software of ANSYS and MATLAB to do research on early computer warning system. ANSYS can check the intensity of early warning system, and MATLAB can realize the visual function of warning system. In this paper we established the process model of ANSYS intensity checking, and designed the calculation process of order flow. We use the disaster warning when opencast mining to underground mining as an example to verify the model and the algorithm. Through the calculation we get the correlation table between calculated and measured value. Finally we get the biggest stress nephogram of chamber center by using ANSYS software, and through the MATLAB software we realized visualization of surrounding rock stress. It provides the theoretical reference for the research on computer warning system in mining process. With the development of computer hardware and software technology, computer information early warning system begins to appear in many engineering fields. This system can carry on security issues of real-time detection and warning in the process of project implementation, and through the visualization software to display this information.
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Xu, Zhao Hua, Zhi Qin Cui, and Xiao Hua Wang. "A New Method Based on Finite Element Analysis for Crankshaft Strength." Applied Mechanics and Materials 241-244 (December 2012): 2125–28. http://dx.doi.org/10.4028/www.scientific.net/amm.241-244.2125.

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This paper presents a new method for the analysis of the crankshaft strength by using the softwares of solidworks, matlab and ansys. Using the powerful modeling function of solidworks, the three-dimensional model of crankshaft was established. Applying the techniques of numerical operation, graph display and GUI of matlab, the simulation calculations of kinematics, dynamics of crankshaft was carried out and the force and torque of crankshaft was obtained. Making full use of finite element analysis function of ansys, the modal analysis and strength analysis of crankshaft were made. The results show that it is valid to take the respective advantages of solidworks, matlab and ansys to establish a simple and effective approach for the analysis of the crankshaft strength, which supplies foundation for the optimization design and dynamic response of crankshaft.
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Cisneros, Roberto Franco, and Freddy Jesús Rojas. "Determination of 12 Combustion Products, Flame Temperature and Laminar Burning Velocity of Saudi LPG Using Numerical Methods Coded in a MATLAB Application." Energies 16, no. 12 (June 13, 2023): 4688. http://dx.doi.org/10.3390/en16124688.

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The characterization of a specific fuel has always been an important point for developing and designing new components or systems with the maximum efficient possible. Studying the laminar burning velocity can lay a necessary prerequisite for the accurate poststudy of the turbulent range and to understand how the combustion process takes place. The study of the combustion products from a specific reaction is a requisite for any system in order to understand the elements that are taken in the process and if it is possible to improve it. In this study, a new open code methodology was developed for the determination of combustion products, flame temperature and laminar burning velocity using numerical methods (Newton–Raphson, Taylor series and Gaussian elimination) in an application codified in MATLAB. The MATLAB application was applied for the study of Saudi LPG setting parameters such as initial temperature, pressure and equivalence ratio that are meaningful because they have a great effect on the results. In addition, simulation in Ansys Chemkin using San Diego and RedSD mechanisms was carried out. The results from the MATLAB application were compared with other experimental research and Ansys Chemkin simulation. These are presented in different plots and it is shown that: (1) For the laminar burning velocity results, the numerical method agrees with the experimental results for ratios (0.6–1.2) by other authors and the simulation in Ansys Chemkin. (2) For the highest studied equivalence ratios (1.3–1.7) the laminar burning velocity results between all the resources have more difference. (3) The combustion products calculated by the MATLAB application agree with those simulated in Ansys Chemkin except N and NO. (4) The MATLAB application gives a maximum value of 40.35 cm/s, that is greater than 35 ± 0.91, the one determined by Bader A. Alfarraj. (5) The flame temperature calculated by the MATLAB application overestimates that simulated in Ansys Chemkin but has the same behavior for all the calculated ratios. (6) The MATLAB application has also been developed for the study and analysis of other fuels.
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8

Xue, W., J. Wang, and T. Cui. "Modeling and Design of Polymer-Based Tunneling Accelerometers by ANSYS/MATLAB." IEEE/ASME Transactions on Mechatronics 10, no. 4 (August 2005): 468–72. http://dx.doi.org/10.1109/tmech.2005.852451.

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Li, Wei, and Cher Ming Tan. "Enhanced finite element modelling of Cu electromigration using ANSYS and matlab." Microelectronics Reliability 47, no. 9-11 (September 2007): 1497–501. http://dx.doi.org/10.1016/j.microrel.2007.07.058.

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Schemmel, Reinhard, Viktor Krieger, Tobias Hemsel, and Walter Sextro. "Co-simulation of MATLAB and ANSYS for ultrasonic wire bonding process optimization." Microelectronics Reliability 119 (April 2021): 114077. http://dx.doi.org/10.1016/j.microrel.2021.114077.

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Jing, Shuangxi, Zhipeng Luo, Chenxu Luo, Jinle Yuan, and Xiaoyu Yang. "Optimization and Verification of Gear Pump Cover Based On ANSYS and MATLAB." Recent Advances in Electrical & Electronic Engineering (Formerly Recent Patents on Electrical & Electronic Engineering) 11, no. 3 (July 31, 2018): 359–66. http://dx.doi.org/10.2174/2352096511666180116151643.

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Zhao, Kun, Shu Min Wan, and Bin Lin. "Visualization of Random Particle Packing Model for Resin Concrete." Applied Mechanics and Materials 217-219 (November 2012): 1483–86. http://dx.doi.org/10.4028/www.scientific.net/amm.217-219.1483.

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Particle packing model are always utilized to investigate and predict micro structure performance of material. On one hand, considering 3 classical packing methods, it’s found that random packing method for model of resin concrete is the most suitable. 3D Particle packing model on Matlab is realized through compiling programs, then converted into Ansys and study on porosity of it proves the correctness of the packing model. On the other hand, different from others’ applying Walraven J.C Equation with a quite limited applicability to getting slice, this paper proposes that slice directly from the 3D model is more accurate and scientific, which is also managed to realize on both Matlab and Ansys.
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13

Liang, Xiao Dan. "Study on the Information System of Tunnel Stability in Arching Process of Surrounding Rock." Applied Mechanics and Materials 716-717 (December 2014): 256–59. http://dx.doi.org/10.4028/www.scientific.net/amm.716-717.256.

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It studied the early stability model of tunnels and establish the computer information system of early stability by using general software of ANSYS and Matlab in the paper. Firstly,the stress is displayed successfully through the model of stress intensity checking and algorithm. Then,it analyzed the influence of stress on surrounding rock in the arching process by using ANSYS software to calculate stress distribution in surrounding rock.Finally,it obtained the visualization display by using Matlab. Due to the limited conditions of computer, the numerical modeling process can not simulate the real situation of surrounding rock,we can only use approximate models to replace the whole rock system.
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14

Silva, Hugo Miguel, José Filipe Meireles, and Jerzy Wojewoda. "Structural Optimization Coupled with Materials Selection for Stiffness Improvement." Mechanics and Mechanical Engineering 22, no. 4 (September 2, 2020): 831–44. http://dx.doi.org/10.2478/mme-2018-0064.

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AbstractAn application of a Finite Element Model updating is presented in this paper. Two Finite Element models were considered: a reinforced plate and a thin-walled beam. The two parts were numerically calculated in ANSYS Mechanical APDL and MATLAB programs. ANSYS performs Finite Element calculations, and a MATLAB programming code was used to control the optimization procedure. Geometric variables were chosen, to evaluate the value of the defined objective function. The material was picked using available selection charts, to find the most adequate one for the study. It has been concluded that the transveral displacement of the models modified by the optimization process decreased sharply in relation to the original state.
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Cai, Yao Quan, Fan Ming Zeng, and Jin Lin Liu. "Research on the Two-Direction Optimization of Shafting Alignment Using Invasive Weed Optimization." Advanced Materials Research 1055 (November 2014): 322–27. http://dx.doi.org/10.4028/www.scientific.net/amr.1055.322.

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In view of the present shaft alignment to optimize focused on one-way location optimization, and less the method for shaft alignment optimization. By MATLAB invoking ANSYS, the finite element method is combined with intelligent algorithm, which is used to optimization calculation for shaft test platform. In the calculation, the minimum stern shaft bearing load as the goal, the vertical shaft bearing and axial location is optimized based on a new intelligent optimization algorithm-invasive weed algorithm. Compared with the linear programming and genetic algorithm, the results showed that the invasive weeds algorithm has better global optimization ability. ANSYS simulation combined with MATLAB can provide a new approach for shafting design, shafting alignment and vibration calculation.
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Wang, Wei Xin, and Wei Zhang. "Analyse the Field-Circuit Coupling Model of the Switching Converters." Applied Mechanics and Materials 336-338 (July 2013): 556–60. http://dx.doi.org/10.4028/www.scientific.net/amm.336-338.556.

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Based on the finite element methods of ANSYS software, field-circuit coupling methods are generally used in modeling and analsysing switch converter circuit of Simple step-up Boost circuit. Compare the Simulation results with ANSYS and MATLAB/simulink circumstances, Field-circuit coupling model is correct, through real calculation was tested and verified. Combination with authors preceding paper, there are indications that ANSYS software applies to electromagnetic field analyse electronic device and circuit. Above research works make a foundation for further studying electromagnetic field analyse problem working personnel and scientific research personnel are of application worthiness.
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Wang, Wenjian, Yu Liu, Wenchao Zhang, Fujian Ma, Dapeng Yang, and Shengfang Zhang. "Research on Shape Change of Multimaterial Electrode for EDM." Advances in Materials Science and Engineering 2019 (November 11, 2019): 1–11. http://dx.doi.org/10.1155/2019/9159835.

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The shape change law of a multimaterial electrode in EDM was studied, and a cosimulation between ANSYS and MATLAB of electrode shape change of the multimaterial electrode and workpiece was established. Element birth and death in ANSYS was used to obtain the removal volume in a single-pulse discharge, and the electrode feed strategy, material removal, and renewal strategy are considered to establish the shape simulation strategy. Then, a program based on MATLAB software was compiled to simulate the machining process and predict the shape change of the multimaterial electrode of different combinations. The experiments of different multimaterial electrodes were carried out with the die steel as the workpiece. The simulation results were compared with the experimental results to verify the effectiveness of the simulation model.
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18

Wang, Zhi Ming, Yu Chao Wang, and Dong Mei Tang. "Method Study on Digital-Model Conversion of Magnetic Worm from CAD Software to ANSYS Software." Advanced Materials Research 443-444 (January 2012): 252–57. http://dx.doi.org/10.4028/www.scientific.net/amr.443-444.252.

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In order to solve the model element-missing problem of magnetic worm during the transmission process from Pro/Engineer software to ANSYS software, the paper proposes a novel transmission method. Tooth surface point-data file is established by the MATLAB software. Then the tooth surface curve is generated by the Pro/Engineer software according to the point-data file. The curve is imported into ANSYS software to set up the finite element analysis model. Finally grids are divided by the ANSYS software. After a series of programming and related works, the finite element model of the worm is established in ANSYS software and it indicates that this method is practical and effective and successfully resolved the model element-missing problem of magnetic worm during the transmission process from Pro/Engineer software to ANSYS software.
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19

Kazmierkowski, Marian P. "Renewable Energy Devices and Systems with Simulations in MATLAB and ANSYS [Book News]." IEEE Industrial Electronics Magazine 12, no. 2 (June 2018): 80–83. http://dx.doi.org/10.1109/mie.2018.2827859.

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20

Ng, J. S., T. N. T. Chik, and N. A. Yusoff. "Prediction of Traffic Vibration Effect on Heritage Building at Muar, Johor, Malaysia." IOP Conference Series: Materials Science and Engineering 1200, no. 1 (November 1, 2021): 012021. http://dx.doi.org/10.1088/1757-899x/1200/1/012021.

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Abstract The vibration produced by road traffic can contribute to the long-term adverse effects on heritage structures. The objectives of this study were to analyze the dynamic response of the heritage building under time-dependent loads caused by traffic vibration by carried out the transient analysis in ANSYS and to determine the level of Vibration Criterion of the heritage building due to traffic vibration by using VSATs in MATLAB software. This research was to predict the traffic vibration effect on the old building of Telecom Muar at Johor, Malaysia. A field testing was carried out using a mobile application, iDynamics, to obtain the vibration signal induced by road traffic. The data obtained were analyzed using ANSYS and MATLAB software. Two types of analysis were carried out using ANSYS, which are modal analysis and transient analysis. MATLAB was used to obtain the vibration criteria plot (VC) for the building. The natural frequency of the fundamental mode shape was 2.57Hz. The natural frequency of the building is acceptable as it is below the human sensitivity frequency range. On the other hand, the level of vibration criteria of the building falls on VC-E, which is the lowest level in the Generic Vibration Criteria Plot implemented by Gordon (1991). In conclusion, both natural frequency and the vibration criteria of the selected building is acceptable according to the results obtained from the analysis conducted.
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21

ZAINAL ABIDIN, Nurrul Amilin, Mohd Zairil Hafizi MOHD JAILANI, Ahmad Kamil HUSSAIN, and Jamaluddin MAHMUD. "Experimental-Numerical Analysis of Woven Laminates under Tension." Materials Science 26, no. 4 (August 17, 2020): 505–12. http://dx.doi.org/10.5755/j01.ms.26.4.22898.

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Woven composite laminates are rapidly replacing unidirectional composite laminates in terms of structural application. Nevertheless, the deformation theory for woven laminate has not been well established compared to unidirectional laminate. Thus, this paper aims to investigate the deformation behavior of woven laminates under uniaxial tension using both the experimental and numerical approaches. The tensile tests were conducted initially according to ASTM D3039 on samples made of 2×2 twill weave carbon fiber prepeg in order to attain the material constants (E1, E2, G12 and ʋ12) and the deformation behavior from the stress-strain curve. This is important as the material parameters and values should be input correctly to ensure an accurate numerical analysis. The second stage involves the Finite Element Analysis (FEA) using ANSYS and analytical analysis using MATLAB. The results of extension for both numerical approaches have been compared with reference to the experimental results. The results show that the error is less than 30%. The failure analysis also has been performed to determine mode of failure using ANSYS and MATLAB by employing Maximum Stress failure criterion. The displacements during First Ply Failure (FPF) and Last Ply Failure (LPF) between ANSYS and MATLAB showed good correlation where the percentage difference is less than 1%. Therefore, it can be concluded that the current implemented procedure for unidirectional laminates could be a noble alternative approach to simulate woven laminates under tension accurately.
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Wu, Xiao Qing, Xu Li Wang, Ji Ming Xue, and Ying Qiang Zheng. "Simulation Research on Angle Sensor by Ansys Finite Element Analysis." Applied Mechanics and Materials 644-650 (September 2014): 2446–49. http://dx.doi.org/10.4028/www.scientific.net/amm.644-650.2446.

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Based on the ansys finite element method, the ring’s strain of a high precision angle sensor was analysed. The method which translates the rotation of the sensor ring into the rotation of the direction of gravity in ansys was used, and the rotation of the gravity direction was translated into the trigonometric function decomposition of gravity acceleration on the X axis and Z axis directions. The strain was measured at every degree from 0 to 90, and finally the curve graph between angle and strain was draw using matlab software.
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23

Ahmed Awan, Osama Ali, Babar Saeed, Muhammad Arslan Shehzad, and Muhammad Asadullah Khan. "Design and Analysis of Multi-Layered Composite Panels for In-Plane Loadings." Materials Science Forum 1068 (August 19, 2022): 37–46. http://dx.doi.org/10.4028/p-li4tc6.

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Composites have a wide range of applications in the field of robotics, aerospace, aviation, sports, and automotive engineering. They have appealing properties such as high strength to weight ratio, good mechanical and electrical properties, and durability. Multilayered composites are prepared by stacking different layers of composites along different directions. This research focuses on the compression and tension response of multilayered composite panels without interference of bending by using in-plane loading. The aim of this research is to develop a generalized MATLAB code for a number of layers, to solve a model composite through analytical and MATLAB computations, to analyze the stress behavior in ANSYS (ACP) and finally to compare the results. For carrying out the analysis, a multi-layered, symmetric composite panel is modelled under in-plane loading. First, a mathematical model is formulized to solve the multi-layered composite panel under in-plane loading and analytical results are obtained. Next, a generic MATLAB code is developed, followed by simulations and computational study using ANSYS (ACP) module. The results of MATLAB and the solution of the mathematical model are found to be identical. Further, the results obtained from ANSYS (ACP) have shown the stresses in each layer and overall deformation of the composite panel. The overall results from three methods have shown that the stresses produced in a composite panel are symmetric across mirrored layers. However, there is a significant difference between the analytical and ANSYS (ACP) results, this is due to the limitations of the Classical Laminate Theory (CLT) which has been used in the analytical study. CLT does not take into effect the out-of-plane stresses. However, in real life scenarios, out-of-plane stresses exist under the in-plane loadings and have a significant effect around the edges and corners of the panel. If 10 percent of the edges are removed on both sides, the analytical results and simulations are found to be in good agreement. Further, after the ANSYS (ACP) analysis has been obtained for the panel, a sandwiched composite panel has been modelled by adding a core material of foam and polyethylene at the center of the composite. The thickness of the core material is varied to observe the change in the stress behavior. The results have shown that there is an increased stress behavior when a softer core is used or the thickness of the core material is increased.
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Lazarevikj, Marija, Filip Stojkovski, Zoran Markov, Igor Iliev, and Ole G. Dahlhaug. "Parameter based tool for Francis turbine guide vanes design using coupled MATLAB - ANSYS approach." Journal of Sustainable Development of Energy, Water and Environment Systems N/A, N/A (September 2021): 0. http://dx.doi.org/10.13044/j.sdewes.d9.0410.

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Stephen, S. Elizabeth Amudhini, A. Joe Ajay, and D. Christu Nesam David. "Design optimisation of cost of the pressure vessel through MATLAB and simulation through ANSYS." International Journal of Mathematics in Operational Research 14, no. 4 (2019): 473. http://dx.doi.org/10.1504/ijmor.2019.10022357.

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26

Khot, SM, and Nitesh P. Yelve. "Modeling and response analysis of dynamic systems by using ANSYS© and MATLAB©." Journal of Vibration and Control 17, no. 6 (October 11, 2010): 953–58. http://dx.doi.org/10.1177/1077546310377913.

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27

Swadi, Nabil N. "Dynamic Behavior Analysis of the Slider Crank Linkage using ANSYS Workbench and MATLAB Program." Wasit Journal of Engineering Sciences 1, no. 1 (May 7, 2013): 42–25. http://dx.doi.org/10.31185/ejuow.vol1.iss1.3.

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This paper is concerned with the study of the kinematic and kinetic analysis of a slider crank linkage using D'Alembert's principle. The links of the considered mechanism are assumed to be rigid. The analytical solution to observe the motion (displacement, velocity, and acceleration), reactions at each joint, torque required to drive the mechanism and the shaking force have been computed by a computer program written in MATLAB language over one complete revolution of the crank shaft. The results are compared with a finite element simulation carried out by using ANSYS Workbench software and are found to be in good agreement. A graphical method (relative velocity and acceleration method) has been also applied for two phases of the crank shaft (q2 = 10° and 130°). The results obtained from this method (graphical) are compared with those obtained from analytical and numerical method and are found very acceptable. To make the analysis linear the friction force on the joints and sliding interface are neglected. All results, in this work, are obtained when the crank shaft turns at a uniform angular velocity (w2 = 188.5 rad/s) and time dependent gas pressure force on the slider crown.
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Sose, Mihirr. "Comparative study of results obtained by analysis of structures using ANSYS, STAAD and MATLAB." IOSR Journal of Mechanical and Civil Engineering 9, no. 1 (2013): 57–78. http://dx.doi.org/10.9790/1684-0915778.

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Sun, Dong, and Yong Wei. "Simulation Research on Air-Coupled Ultrasonic Detection of Layered Composite Interface Defects Using Matlab Computer Software." Science of Advanced Materials 14, no. 6 (June 1, 2022): 1116–23. http://dx.doi.org/10.1166/sam.2022.4320.

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In this paper, a mathematical model and a finite element model are established to describe the dispersion characteristics of acoustic modes in a two-layer medium. Air-coupled ultrasound was used to detect interfacial defects in a laminated composite. An appropriate excitation signal was simulated to locate interface defects by both MATLAB (for the numerical model) and ANSYS (for the finite element model) software tools. The results confirmed that the mode of the excitation wave was consistent with the materials of the layered structure, which ensured propagation of the wave into each layer whereas avoiding the phenomenon of total reflection that prevents complete detection of the interfacial adhesive properties in the layered composite structure. This study demonstrates that the size of an interface defect should be simulated interchangeably using both MATLAB and ANSYS software. As such, it is feasible to detect the interfacial quality of laminated composites by air-coupled ultrasonic waves.
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Yadav, Rahul. "Finite Element Analysis using MATLAB." International Journal for Research in Applied Science and Engineering Technology 10, no. 1 (January 31, 2022): 764–69. http://dx.doi.org/10.22214/ijraset.2022.39902.

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Abstract: Finite Element Analysis or FEA is the simulation of a physical phenomenon using a numerical mathematic technique referred to as the Finite Element Method or FEM. This process is at the core of mechanical engineering, as well as a variety of other disciplines. It also is one of the key principles used in the development of simulation software. Engineers can use these FEM to reduce the number of physical prototypes and run virtual experiments to optimize their designs. Finite Element Analysis is used in various fields like structural, fluid flow, heat transfer to estimate the behavior of a component in real environment. There now exists growing body of knowledge connected with the development of mathematical models and numerical simulations of physical model. There are various software packages like Ansys, OptiStruct, COMSOL, Solidworks and many more which provide a close estimate in simulation models. Apart from these software MATLAB also has a Partial Differential Equation (PDE) toolbox which enables us to perform these simulations using some built-in functions and codes. However, a computational numerical technique is not an end of design rather it just provides a great estimate of the final component for which the results are only as good as the input provided and the final component in most of the cases require a physical testing in environment which it is meant to perform as a validation. Keywords: Brake pedal, MATLAB, Partial differential equation (PDE) toolbox, Tetrahedral mesh.
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Zhou, Ying, Ming Hui Huang, Da Heng Mao, and Tao Liang. "3-D Coupled Fluid-Thermal Finite Element Analysis of 3C-Style Nozzle’s Fluid Field of Al Roll-Casting." Materials Science Forum 546-549 (May 2007): 741–44. http://dx.doi.org/10.4028/www.scientific.net/msf.546-549.741.

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Three-dimensional FEM simulations of fluid-thermal analysis of the fluid fields including the front-box and the 3C-style nozzle of aluminum roll-casting was performed by using FLOTRAN module of ANSYS. The advanced result analysis based on post-processing of ANSYS was conducted by MATLAB. According to the allowable inhomogeneity and its application of velocity and temperature at outlet, the most possible broken regions of aluminum sheets at outlet could be predicted in the case of speed increasing of the drawing-sheet and thickness reducing of the aluminium sheet during roll casting.
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Feng, X. M., Guang Yu Tan, Guan Hui Li, and Yu Hua Zhang. "Design on 3D Complex Groove of Turning Inserts with MATLAB." Advanced Materials Research 69-70 (May 2009): 636–40. http://dx.doi.org/10.4028/www.scientific.net/amr.69-70.636.

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The paper presented a method of designing grooves of turning insert with 3D complex groove; and deduced equation calculating the width of the grooves using condition equation of the chip breaking, the parameters included in the equation was taken place by equivalent ones. And the grooves width is computed by MATLAB, and then the curve of the groove is fitted. The width can be used to create model of the turning inserts with 3D complex groove by Pro/Engineer, and the model can be imported in ANSYS soft to simulate turning process and analysis groove performance. All this work provides a base for the groove design and optimization
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Wan, Peng, Xiaoyan Lei, Weibin Wu, Qiongqing Hu, Ling Wan, and Guilin Li. "Simulation Analysis of Coupled Structural Vibration of Highway Railway Combined Bridge Induced by Overlapping Action of Vehicle and Train." Geofluids 2022 (June 7, 2022): 1–15. http://dx.doi.org/10.1155/2022/1986593.

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In order to study the dynamic response of bridge coupling caused by the overlapping of vehicle and railway dynamic loads, by using the time-domain samples of pavement irregularity compiled by MATLAB software and the secondary development function of ANSYS software, the vehicle, bridge, and train models are established in ANSYS software at the same time, and the train supported beam bridge coupling program is compiled with MATLAB software. The model considers the influence of initial conditions and vehicle speed on the system before entering the bridge, the interaction between the coupled large-scale highway and railway bridge system, and the influence of different adverse factors on the system. The influence of a vehicle or train on the bridge structure when the vehicle or train passes through the continuous steel truss bridge under different factors is calculated, respectively, and the displacement and acceleration limits of the bridge are evaluated in combination with the corresponding specifications.
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34

Bi, Ying Hua, En Yuan Dong, Guang Xiao Yin, Jia Yuan Xu, and Mei Wei Liu. "Parameter Design and Dynamic Characteristic Analysis of Magnetic Force Actuator Based on Visual Basic Interface Programming." Applied Mechanics and Materials 492 (January 2014): 227–31. http://dx.doi.org/10.4028/www.scientific.net/amm.492.227.

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In this paper, the magnetic force actuator (MFA), a new type of actuator, is applied for long stroke driving with simple structure and high reliability. Ansys and Matlab are adopted to study its static and dynamic characteristics and conduct parameter design. The static simulation concludes static magnetic field, end shield material, structure size of permanent magnet and processing deviation of the actuator, which will impact the characteristics of the actuator in varying degrees. Then the state equations describing the dynamic characteristics of MFA are solved by four-order Runge-kutta method and finite-element method. Interactive interface of the APDL-file and M-file and Macrosoft Visual Basic (VB) is designed to combine Ansys and Matlab to realize optimization design of structure parameters, which simplifies the operation methods and enhances the efficiency. The dynamic simulation results show its good work performance compared with the experiment characteristics of practical 40.5kV SF6 circuit breaker with the spring mechanism.
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35

Demir, Cihan, and Yunus Alapan. "Modeling and Dynamic Response Analysis of an Point Supported Plate by Using ANSYS and MATLAB." Advanced Materials Research 445 (January 2012): 1088–93. http://dx.doi.org/10.4028/www.scientific.net/amr.445.1088.

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The dynamic behavior of plates with mixed boundary conditions has been the subject of intensive study for many years due to its great importance in many engineering applications. On-trend approach in dynamic response analysis is to combine mathematical model, test results and computer simulation. Classical techniques of mathematical modeling of intricate structural systems for response analysis in frequency or time domain are tiresome and time consuming. In this study, a point supported rectangular plate considered and extraction of its system model from FE model, validated by the test results, by using commercially available computer programs such as Ansys and Matlab is demonstrated. State space mathematical model in principal coordinates obtained in Matlab from the modal analysis results of its FE model. Its modes sorted with respect to peak gain values, and the modes with the less contributions to the response truncated. To validate the accuracy of this method and truncation, transient responses from the full model with no reduction, truncated model, and Ansys are compared and found to be in accord with each other. Its demonstrated by plotting the indicated results of analyses, and emphasized the significant processing times between the conventional approach and stated method. It is concluded obvious that this study will make a good understanding in simplifying the dynamic analysis of vibration problems of plates.
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Rahmati, Seyed Mohammadali, and Alireza Karimi. "A Nonlinear CFD/Multibody Incremental-Dynamic Model for A Constrained Mechanism." Applied Sciences 11, no. 3 (January 26, 2021): 1136. http://dx.doi.org/10.3390/app11031136.

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Numerical analysis of a multibody mechanism moving in the air is a complicated problem in computational fluid dynamics (CFD). Analyzing the motion of a multibody mechanism in a commercial CFD software, i.e., ANSYS Fluent®, is a challenging issue. This is because the components of a mechanism have to be constrained next to each other during the movement in the air to have a reliable numerical aerodynamics simulation. However, such constraints cannot be numerically modeled in a commercial CFD software, and needs to be separately incorporated into models through the programming environment, such as user-defined functions (UDF). This study proposes a nonlinear-incremental dynamic CFD/multibody method to simulate constrained multibody mechanisms in the air using UDF of ANSYS Fluent®. To testify the accuracy of the proposed method, Newton–Euler dynamic equations for a two-link mechanism are solved using Matlab® ordinary differential equations (ODEs), and the numerical results for the constrained mechanisms are compared. The UDF results of ANSYS Fluent® shows good agreement with Matlab®, and can be applied to constrained multibody mechanisms moving in the air. The proposed UDF of ANSYS Fluent® calculates the aerodynamic forces of a flying multibody mechanism in the air for a low simulation cost than the constraint force equation (CFE) method. The results could have implications in designing and analyzing flying robots to help human rescue teams, and nonlinear dynamic analyses of the aerodynamic forces applying on a moving object in the air, such as airplanes, birds, flies, etc.
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Guo, Yan Hua, Fei Fei Liu, Ning Zhang, and Tao Wang. "Joint Optimization Combining Genetic Algorithm and Numerical Algorithm Based on MATLAB." Advanced Materials Research 1065-1069 (December 2014): 3442–45. http://dx.doi.org/10.4028/www.scientific.net/amr.1065-1069.3442.

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The mathematic model of a two-bar truss is built in MATLAB and the analysis is carried out by the genetic algorithm toolbox. The parametric model of the planar truss is established by the ANSYS Parametric Design Language. Solutions are obtained using the first-order method native. Genetic algorithms don’t always display better properties than others. Finally, a joint optimization method is proposed, which combines MATLAB genetic algorithm toolbox and the numerical algorithm based on the quasi-Newton method. The method is identified through the numerical example of the two-bar truss. The results indicate the joint optimization method can always converge to the global optimal solution.
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Yang, Hui Yong, Xin Gui Zhou, Jin Shan Yu, and Zheng Luo. "Entity Simulation of Rectangle Preform for 3D Braided Composite Based on ANSYS." Advanced Materials Research 800 (September 2013): 336–40. http://dx.doi.org/10.4028/www.scientific.net/amr.800.336.

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According to the movement law of yarn carriers in the four-step braiding technique and the fixed grid method, a script file that calculates the space shape and location data of 3D braided rectangle preform is developed by the software matlab. Via the script file, a space grid diagram of yarns and a APDL file can be got. By calling the APDL file, the entity simulation diagram of 3D braided rectangle preform can be directly produced in the software ANSYS.
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39

Suo, Haoliang, Guanfeng Li, Aizhong Qin, and Zhuoyuan Chen. "Simulation Analysis of Rubber Material Constitutive Model based on Ansys." Journal of Physics: Conference Series 2541, no. 1 (July 1, 2023): 012007. http://dx.doi.org/10.1088/1742-6596/2541/1/012007.

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Abstract Rubber material has a wide range of applications in engineering design because of its unique polymer material properties. Under the action of load, the corresponding relationship between stress and strain is nonlinear, so it is very difficult to make mechanical analysis and material selection in engineering applications. This paper takes butyl rubber as the research object, which obtains stress-strain data through uniaxial compression tests at different strain rates, fits material parameters through MATLAB according to three commonly used hyper-elastic constitutive models, and carries out static finite element simulation analysis based on Ansys. The analysis results are compared with the test results, to verify the practicability and accuracy of the constitutive model and provide a reference for engineering applications.
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40

Zhang, Guo Zhi, and Ning Zhou. "The Development of Computing System with Equivalent Beam Element Based on Matlab Software." Advanced Materials Research 479-481 (February 2012): 1161–64. http://dx.doi.org/10.4028/www.scientific.net/amr.479-481.1161.

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The computing method of series traction mechanism of heavy machinery was studied. The scheme of its computing system with equivalent beam element was proposed. Based on this scheme, combining with secondary development of language of Matlab, the computing system was developed. Through comparing with the reslut of enity element with ANSYS, the computing system was verified. Beacause of the computing system developed, the computating efficiency is improved and the accuracy is ensured.
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41

Zhang, Shu. "Based on Artificial Neural Network Simulation of Alloy Finite Element." Advanced Materials Research 710 (June 2013): 739–42. http://dx.doi.org/10.4028/www.scientific.net/amr.710.739.

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Artificial neural networks are composed of interconnecting artificial neurons (programming constructs that mimic the properties of biological neurons). Artificial neural networks may either be used to gain an understanding of biological neural networks, or for solving artificial intelligence problems without necessarily creating a model of a real biological system. First modal analyses of microstructure defects are performed in ANSYS. Second the genetic algorithm is implemented in MATLAB to Calculate the Value of b and p. The last, The FEM analysis results are imported in ANSYS about the Stress distribution. The result presented in this paper is obtained using the Genetic Algorithm Optimization Toolbox.
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42

Demir, Cihan, and Yunus Alapan. "Modeling and Dynamic Response Analysis of an Point Supported Plate by Using ANSYS and MATLAB." Advanced Materials Research 445 (January 2012): 1088–93. http://dx.doi.org/10.4028/scientific5/amr.445.1088.

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43

Poński, Mariusz. "RELIABILITY ANALYSIS OF CURVED ON PLANE HOIST BEAM USING COUPLING OF ANSYS APDL AND MATLAB." Zeszyty Naukowe Politechniki Częstochowskiej. Budownictwo 174, no. 24 (January 2019): 285–90. http://dx.doi.org/10.17512/znb.2018.1.45.

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44

Zaman, I., S. A. M. Rozlan, N. A. Azmir, M. Ismon, M. A. Madlan, M. N. Yahya, M. H. Zainulabidin, M. S. M. Sani, and M. F. M. Noh. "Modelling of Rigid Walled Enclosure Couple to a Flexible Wall using Matlab and Ansys APDL." Journal of Physics: Conference Series 914 (October 2017): 012038. http://dx.doi.org/10.1088/1742-6596/914/1/012038.

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45

Skačkauskas, Paulius, Vaidas Vadluga, and Vidas Žuraulis. "MATHEMATICAL MODEL OF A SHIM VALVE OF A MONOTUBE SHOCK ABSORBER / VIENVAMZDŽIO AMORTIZATORIAUS PLOKŠTELINIO VOŽTUVO MATEMATINIS MODELIS." Mokslas – Lietuvos ateitis 8, no. 5 (December 30, 2016): 553–39. http://dx.doi.org/10.3846/mla.2016.963.

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In the work, a mathematical model of a shim valve, used in monotube shock absorbers, designed to determine the deformations of the shims which form during the exploitation of the shock absorbers, is presented. The characteristic of the damping force formed by the shock absorber depends on the deformations. In the designed model, the amount, geometric dimensions, arrangement and the material properties of the shims are evaluated, and the contact forces, which form between the shims, are determined. The described model of the shim valve is presented in the environment of the software package MATLAB/Simulink, the analysis of the designed model is done using the software package ANSYS 15.0. Straipsnyje pateikiamas vienvamzdžiuose amortizatoriuose naudojamo plokštelinio vožtuvo matematinis modelis, skirtas vožtuvo plokštelių deformacijoms, susidarančioms eksploatuojant amortizatorių, nustatyti. Nuo deformacijų priklauso amortizatoriaus sukuriama slopinimo jėgos charakteristika. Sudarytame modelyje įvertinamas vožtuvo plokštelių skaičius, geometriniai matmenys, išdėstymas ir medžiagos sa-vybės, nustatomos kontaktinės jėgos, susidarančios tarp vožtuvo plokštelių. Aprašomasis plokštelinio vožtuvo modelis pateikiamas prog-raminio paketo MATLAB/Simulink aplinkoje, atliekama sudaryto modelio analizė naudojantis programiniu paketu ANSYS 15.0.
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46

DEMİR, Musa, and Faruk GÜNER. "Generating a Matlab Code with Parameter Optimization in Gearbox." Karadeniz Fen Bilimleri Dergisi 12, no. 2 (December 15, 2022): 1098–107. http://dx.doi.org/10.31466/kfbd.1140880.

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One of the most important engineering problems today is the optimization of systems and process parameters. Optimization is one of the longest and most costly steps to conclude for many multidisciplinary studies. Numerical analysis has been a widely applied approach to reduce this cost of time and money. In this study, first of all, a gearbox with geometric dimensions is modeled using Matlab commercial package software. The created model was then subjected to finite element analysis via student version of Ansys commercial package. The strength of the system was examined over the stress and deformation values obtained in those analysis. Considering the equivalent von Mises stress values obtained in the study, a maximum 200 MPa design on the gear wheels and a two-fold safe design according to the yield limit was revealed. In addition, a Matlab software that reveals the welding path for the reducer outer sleeve and jib crane has also been produced in this study.
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Qi, Bin, Su Jun Dong, and Jun Wang. "Optimization of Loss Models for Centrifugal Compressor Performance Prediction Based on Numerical Analysis Results." Applied Mechanics and Materials 300-301 (February 2013): 225–31. http://dx.doi.org/10.4028/www.scientific.net/amm.300-301.225.

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An optimization of loss models for performance prediction of centrifugal compressors has been conducted in this paper. A centrifugal compressor with vaneless diffuser (VLD) and vaned diffuser (VD) is selected for the present study. The study begins with a numerical analysis, using commercial software ANSYS CFX. The numerical result is used to modify mean streamline analysis loss models. Matlab optimization toolbox is used for this purpose. Also, a matlab program is compiled to calculate the off-design performance of the centrifugal compressor. The results show that after optimizating the loss models, mean streamline analysis has a better accuracy than before.
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48

Li, Jie, Li Li Hu, Li Qin, Jun Liu, Rui Ping Tao, and Xi Ning Yu. "Dynamic Analysis of Piezoelectric Smart Structures." Advanced Materials Research 295-297 (July 2011): 1353–56. http://dx.doi.org/10.4028/www.scientific.net/amr.295-297.1353.

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In order to solve the active vibration control of piezoelectric smart structures, focus problems on the structural analysis of the dynamic characteristics. To piezoelectric smart structure for the research object, finite element modal analysis, solving the natural frequency and response characteristics. Firstly, analyzed the problems of structural eigenvalues ​​and eigenvectors problems, then prepared dynamic response analysis program of FEM based on MATLAB, and complete the theoretical model calculations. At the same time, using ANSYS software to simulate and analyze, theresults show that, ANSYS simulation result is consistent with the theoretical value, so as to study the piezoelectric active vibration control of smart structures and lay a good foundation.
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Ali, Hayder Abdul Khaliq, and Adil Abed Nayeeif. "Review on static-dynamic analysis of Laminated Composite and Piezoelectric Lamina Material using Matlab." Al-Qadisiyah Journal for Engineering Sciences 14, no. 1 (April 30, 2021): 014–20. http://dx.doi.org/10.30772/qjes.v14i1.730.

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The current review covers numerical analysis using Matlab program for multi-layer composite materials. Which involves studies are related to the intersection with fibers, between layers and piezoelectric layer or patch. It has been reported that using Matlab program has a great flexibility in analysis due to its library which includes various numerical methods. In addition to the ability of programming and developing the finite element technology to calculate the stress and strain in each layer based on different deformation methods such as (FSDT and HSDT), to obtain mechanical properties. It has been claimed that there is a deviation in results between Matlab and Ansys for the same 20-layer composite material. Using Matlab in dynamic analysis in various methods such as Newmark, Rayleigh damping, Timoshenko, and Euler-Bernoulli exhibit good agreement with natural frequencies and mode shapes. Moreover, Matlab is useful for the real-time process of data acquisition to deliver a digital model of a composite material coated with a piezoelectric plate and is an ideal material for sensing, detecting, and controlling vibration inhibition.
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Li, Yan Qi, Ming Tao Liu, and Guang Cai Tian. "Finite Element Analysis of Ring-Plate Indexing Cam Mechanism Contact Stress Based on MATLAB and ANSYS." Advanced Materials Research 383-390 (November 2011): 2862–67. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.2862.

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This paper is aimed to analyse contact stress of ring-plate indexing cam mechanism which is a new type of indexing cam mechanism. A contact finite element model of the cam and the pin gear is established with the commercial software of MATLAB and ANSYS. With the finite element analysis, the contact stress of the cam and the pin gear is predicted in one motion cycle. On the basis of the finite element analysis, the force and the position of maximum stress are obtained. The conclusion proposed here is reliable to instruct the design of ring-plate indexing cam mechanism.
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