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Journal articles on the topic 'Receptance Coupling'

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Author: Grafiati
Published: 10 March 2023

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1

Tsai, Sung-Han, Huajiang Ouyang, and Jen-Yuan Chang. "A receptance-based method for frequency assignment via coupling of subsystems." Archive of Applied Mechanics 90, no. 2 (November 2, 2019): 449–65. http://dx.doi.org/10.1007/s00419-019-01619-9.

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Abstract This paper presents a theoretical study of the frequency assignment problem of a coupled system via structural modification of one of its subsystems. It deals with the issue in which the available modifications are not simple; for example, they are not point masses, grounded springs, or spring-mass oscillators. The proposed technique is derived based on receptance coupling technique and formulated as an optimization problem. Only a few receptances at the connection ends of each subsystem are required in the structural modification process. The applicability of the technique is demonstrated on a simulated rotor system. The results show that both bending natural frequencies and torsional natural frequencies can be assigned using a modifiable joint, either separately or simultaneously. In addition, an extension is made on a previously proposed torsional receptance measurement technique to estimate the rotational receptance in bending. Numerical simulations suggest that the extended technique is able to produce accurate estimations and thus is appropriate for this frequency assignment problem of concern.
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2

Schmitz, Tony L., and G. Scott Duncan. "Three-Component Receptance Coupling Substructure Analysis for Tool Point Dynamics Prediction." Journal of Manufacturing Science and Engineering 127, no. 4 (February 4, 2005): 781–90. http://dx.doi.org/10.1115/1.2039102.

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In this paper we present the second generation receptance coupling substructure analysis (RCSA) method, which is used to predict the tool point response for high-speed machining applications. This method divides the spindle-holder-tool assembly into three substructures: the spindle-holder base; the extended holder; and the tool. The tool and extended holder receptances are modeled, while the spindle-holder base subassembly receptances are measured using a “standard” test holder and finite difference calculations. To predict the tool point dynamics, RCSA is used to couple the three substructures. Experimental validation is provided.
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3

Park, Simon S., Yusuf Altintas, and Mohammad Movahhedy. "Receptance coupling for end mills." International Journal of Machine Tools and Manufacture 43, no. 9 (July 2003): 889–96. http://dx.doi.org/10.1016/s0890-6955(03)00088-9.

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4

MONTEVECCHI, Filippo, Niccolo GROSSI, Antonio SCIPPA, and Gianni CAMPATELLI. "0602 Efficient receptance coupling approach for tool-tip dynamics identification." Proceedings of International Conference on Leading Edge Manufacturing in 21st century : LEM21 2015.8 (2015): _0602–1_—_0602–6_. http://dx.doi.org/10.1299/jsmelem.2015.8._0602-1_.

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5

Han, Zhen Yu, Xiang Zhang, Hong Ya Fu, and Ya Zhou Sun. "Receptance Coupling for Micro-End-Milling." Advanced Materials Research 472-475 (February 2012): 2391–96. http://dx.doi.org/10.4028/www.scientific.net/amr.472-475.2391.

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Micro-end-milling tools are suitable for machining miniature parts which have complex shape. As the diameters of tools are too small, cannot directly obtain the frequency response functions (FRFs) through impact hammer test at tool tip. This paper employs Receptance Coupling method (RC), couple the tool tip’s FRFs with machine-toolholder system’s FRF, and then get the micro-end-milling tool’s FRF. Establish the coupling model, then finite element and hammer test of the blank gauge tools are used to obtain the coupling transfer functions (TFs). Then analyze the tool tip model by finite element, couple with the machine-toolholder system hammer test result and coupling transfer functions, finally the micro-end-milling tool’s FRFs are obtained. Through the hammer test of blank gauge tool, the effectiveness and feasibility of RC method are verified. The result shows that the RC method is accurate at micro-end-milling tool in steady state milling.
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6

Hung, J. P., W. Z. Lin, K. D. Wu, and W. C. Shih. "Analyzing the Dynamic Characteristics of Milling Tool Using Finite Element Method and Receptance Coupling Method." Engineering, Technology & Applied Science Research 9, no. 2 (April 10, 2019): 3918–23. http://dx.doi.org/10.48084/etasr.2463.

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This study aims to investigate the dynamic characteristics of a milling machine with different head stocks by using finite element (FE) method and receptance coupling analysis (RCA). For this purpose, five full finite element machine models, including vertical column, reformed head stock and feeding mechanism were created. With these models, the tool point frequency response functions were directly predicted. Another approach was the application of the receptance coupling method, in which the frequency response of the assembly milling tool was calculated from the receptance components of the individual substructures through the coupling operation with the interfaces of the feeding mechanism. Results show that a whole machine model with reformed stock has superior dynamic behavior when compared with the original design, by an increment of 10% in the dynamic stiffness. The receptance coupling method was verified to show an accurate prediction of the frequency response functions of the spindle tool when compared with the results obtained from the full FE models. Overall, the proposed methodology can help the designer to efficiently and accurately develop the machine tool structure with excellent mechanical performance.
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7

Kim, Ji-wook, Jae-wook Lee, Kun-woo Kim, Ji-heon Kang, Min-seok Yang, Dong-yul Kim, Seung-yeop Lee, and Jin-seok Jang. "Estimation of the Frequency Response Function of the Rotational Degree of Freedom." Applied Sciences 11, no. 18 (September 14, 2021): 8527. http://dx.doi.org/10.3390/app11188527.

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One of the factors that influence the dynamic characteristics of machining systems is the cutting tool. Cutting tools are very diverse, and receptance coupling substructure analysis (RCSA) is essential for analyzing the dynamic characteristics of each tool. For RCSA, a full receptance matrix of the equipment and tools is essential. In this study, rotational degree-of-freedom receptance was estimated and analyzed using translational receptance. Displacement/moment receptance was analyzed according to the distance of the response point using the first-and second-order finite difference methods. The rotation/moment receptance was estimated according to the distance of the response point. Rotation/moment receptance was analyzed using Schmitz’s method and compensation strategies. The limitations of these strategies were analyzed, and the rotation/moment receptance for the beam under free-free boundary conditions was predicted using the second compensation strategy.
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8

Schmitz, Tony L., Matthew A. Davies, and Michael D. Kennedy. "Tool Point Frequency Response Prediction for High-Speed Machining by RCSA." Journal of Manufacturing Science and Engineering 123, no. 4 (January 1, 2001): 700–707. http://dx.doi.org/10.1115/1.1392994.

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The implementation of high-speed machining for the manufacture of discrete parts requires accurate knowledge of the system dynamics. We describe the application of receptance coupling substructure analysis (RCSA) to the analytic prediction of the tool point dynamic response by combining frequency response measurements of individual components through appropriate connections. Experimental verification of the receptance coupling method for various tool geometries (e.g., diameter and length) and holders (HSK 63A collet and shrink fit) is given. Several experimental results are presented to demonstrate the practical applicability of the proposed method for chatter stability prediction in milling.
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9

Kumar, Uttara V., and Tony L. Schmitz. "Spindle dynamics identification for Receptance Coupling Substructure Analysis." Precision Engineering 36, no. 3 (July 2012): 435–43. http://dx.doi.org/10.1016/j.precisioneng.2012.01.007.

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10

Schmitz, Tony, Andrew Honeycutt, Michael Gomez, Michael Stokes, and Emma Betters. "Multi-point coupling for tool point receptance prediction." Journal of Manufacturing Processes 43 (July 2019): 2–11. http://dx.doi.org/10.1016/j.jmapro.2019.03.043.

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11

Yadav, Ajay, Devangkumar Talaviya, Ankit Bansal, and Mohit Law. "Design of Chatter-Resistant Damped Boring Bars Using a Receptance Coupling Approach." Journal of Manufacturing and Materials Processing 4, no. 2 (June 3, 2020): 53. http://dx.doi.org/10.3390/jmmp4020053.

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Deep hole boring using slender bars that have tuned mass dampers integrated within them make the boring process chatter vibration resistant. Dampers are usually designed using classical analytical solutions that presume the (un)damped boring bar which can be approximated by a single degree of freedom system, and the damper is placed at the free end. Since the free end is also the cutting end, analytical models may result in infeasible design solutions. To place optimally tuned dampers within boring bars, but away from the free end, this paper presents a receptance coupling approach in which the substructural receptances of the boring bar modelled as a cantilevered Euler–Bernoulli beam are combined with the substructural receptances of a damper modelled as a rigid mass integrated anywhere within the bar. The assembled and damped system response thus obtained is used to predict the chatter-free machining stability limit. Maximization of this limit is treated as the objective function to find the optimal mass, stiffness and damping of the absorber. Proposed solutions are first verified against other classical solutions for assumed placement of the absorber at the free end. Verified models then guide prototyping of a boring bar integrated with a damper placed away from its free end. Experiments demonstrate a ~100-fold improvement in chatter vibration free machining capability. The generalized methods presented herein can be easily extended to design and develop other damped and chatter-resistant tooling systems.
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12

Guzzomi, A. L., D. C. Hesterman, and B. J. Stone. "Some Effects of Piston Friction and Crank or Gudgeon Pin Offset on Crankshaft Torsional Vibration." Journal of Ship Research 54, no. 01 (March 1, 2010): 41–52. http://dx.doi.org/10.5957/jsr.2010.54.1.41.

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The varying inertia associated with reciprocating mechanisms leads to nonlinear frequency coupling between rotational speed and an engine system's average torsional natural frequencies. This coupling can cause secondary resonance problems. Recent work by the authors has shown that piston-to-cylinder friction and gudgeon pin or crank offset can modify coupling behavior. These effects can be demonstrated by analysis of an engine's receptance function and through time simulations. This paper presents the derivation of a single-cylinder engine receptance in the presence of piston-to-cylinder friction. Simulations are then used to investigate some of the effects of piston-to-cylinder friction, offset, and excitation phase on the frequency content of the crankshaft velocity. Simulations indicate that nonlinear coupling is affected by these variables, which has implications for secondary resonance detection and prevention. The most significant finding is that stronger coupling behavior can occur when piston-to-cylinder lubrication breaks down.
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13

Brecher, C., P. Chavan, M. Fey, and M. Daniels. "A MODAL PARAMETER APPROACH FOR RECEPTANCE COUPLING OF TOOLS." MM Science Journal 2016, no. 04 (September 27, 2016): 1032–34. http://dx.doi.org/10.17973/mmsj.2016_10_201616.

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14

Alzghoul, Mohammad, Ferenc Sarka, and Ferenc J. Szabó. "A Spindle System Analysis Using Systems Receptance Coupling Approach." Design of Machines and Structures 12, no. 2 (2022): 25–32. http://dx.doi.org/10.32972/dms.2022.010.

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The goal of this study is to dynamically simulate a turning-centre main spindle system utilizing the systems receptance coupling technique to determine the spindle system's first three resonant frequencies in the event of transverse vibrations. The findings are then confirmed using the finite element technique using ANSYS software. The significance of analysing the spindle system described in this study is that it can be utilized to optimize the spindle system in terms of resonance frequencies for improved performance in terms of spindle vibration while the turning centre is in operation.
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15

Klemme, Heinrich, Svenja Reimer, and Jonas Uhlmannsiek. "Modellierung der dynamischen Werkzeugnachgiebigkeit mithilfe der Receptance-Coupling-Analyse." Zeitschrift für wirtschaftlichen Fabrikbetrieb 117, no. 11 (November 1, 2022): 758–62. http://dx.doi.org/10.1515/zwf-2022-1156.

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Abstract Für die optimale Auslegung von Zerspanprozessen muss das dynamische Verhalten des Gesamtsystems aus Maschine, Werkzeughalter und Werkzeug bekannt sein. Bislang werden dafür für jede Prozesskonfiguration aufwändige experimentelle Modalanalysen durchgeführt. Durch Receptance Coupling kann das dynamische Prozessverhalten modular aus dem dynamischen Verhalten der Einzelkomponenten zusammengesetzt werden, sodass keine Messungen zur Identifikation des Gesamtsystems mehr notwendig sind.
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16

ZHANG, Jun. "Receptance Coupling for Tool Point Dynamics Prediction on Machine Tools." Chinese Journal of Mechanical Engineering 24, no. 03 (2011): 340. http://dx.doi.org/10.3901/cjme.2011.03.340.

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17

Zhai, Li Jun, Xiao Lei Song, and Li Gang Cai. "Identification of Toolholder-Spindle Joint Based on Receptance Coupling Substructure Analysis." Applied Mechanics and Materials 345 (August 2013): 539–42. http://dx.doi.org/10.4028/www.scientific.net/amm.345.539.

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Stiffness identification of toolholder-spindle joint is a basic work for machine tool dynamic research. In this paper, an identification method based on receptance coupling substructure analysis is described. Once the frequency response functions of the toolholder, the spindle and the toolholder-spindle assembly are obtained, the analytical stiffness could be calculated. The method is verified efficiency through dynamic response experiment. Identified stiffness results under different drawbar forces are also discussed.
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18

Mancisidor, Iker, Mikel Zatarain, Jokin Munoa, and Zoltan Dombovari. "Fixed Boundaries Receptance Coupling Substructure Analysis for Tool Point Dynamics Prediction." Advanced Materials Research 223 (April 2011): 622–31. http://dx.doi.org/10.4028/www.scientific.net/amr.223.622.

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In many applications, chatter free machining is limited by the flexibility of the tool. Estimation of that capacity requires to obtain the dynamic transfer function at the tool tip. Experimental calculation of that Frequency Response Function (FRF) is a time consuming process, because it must be done using an impact test for any combination of tool, toolholder and machine. The bibliography proposes the Receptance Coupling Substructure Analysis (RCSA) to reduce the number of experimental test. A new approach consisting of calculating the fixed boundary dynamic behaviour of the tool is proposed in the paper. This way the number of modes that have to be considered is low, just one or two for each bending plane, and it supposes an important improvement in the application of the RCSA to the calculation of stability diagrams. The predictions of this new method have been verified experimentally.
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19

Mehrpouya, Majid, Eldon Graham, and Simon S. Park. "Identification of multiple joint dynamics using the inverse receptance coupling method." Journal of Vibration and Control 21, no. 16 (March 31, 2014): 3431–49. http://dx.doi.org/10.1177/1077546314523306.

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20

Schmitz, Tony L., and G. Scott Duncan. "Receptance coupling for dynamics prediction of assemblies with coincident neutral axes." Journal of Sound and Vibration 289, no. 4-5 (February 2006): 1045–65. http://dx.doi.org/10.1016/j.jsv.2005.03.006.

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21

Shaik, Jakeer Hussain, K. Ramakotaiah, and J. Srinivas. "Frequency Response Studies using Receptance Coupling Approach in High Speed Spindles." Journal of The Institution of Engineers (India): Series C 100, no. 2 (January 16, 2018): 311–22. http://dx.doi.org/10.1007/s40032-017-0438-y.

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22

Mancisidor, Iker, Aitor Urkiola, Rafael Barcena, Jokin Munoa, Zoltan Dombovari, and Mikel Zatarain. "Receptance coupling for tool point dynamic prediction by fixed boundaries approach." International Journal of Machine Tools and Manufacture 78 (March 2014): 18–29. http://dx.doi.org/10.1016/j.ijmachtools.2013.12.002.

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23

Montevecchi, Filippo, Niccolò Grossi, Antonio Scippa, and Gianni Campatelli. "Two-points-based receptance coupling method for tool-tip dynamics prediction." Machining Science and Technology 21, no. 1 (January 2, 2017): 136–56. http://dx.doi.org/10.1080/10910344.2016.1260435.

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24

Park, S. S., and J. Chae. "Joint identification of modular tools using a novel receptance coupling method." International Journal of Advanced Manufacturing Technology 35, no. 11-12 (January 4, 2007): 1251–62. http://dx.doi.org/10.1007/s00170-006-0826-6.

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25

Clarkson, B. L. "Estimation of the Coupling Loss Factor of Structural Joints." Proceedings of the Institution of Mechanical Engineers, Part C: Mechanical Engineering Science 205, no. 1 (January 1991): 17–22. http://dx.doi.org/10.1243/pime_proc_1991_205_085_02.

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This paper shows how Bishop's receptance method can be used to derive the transmission of vibrational energy across a structural joint. The results are averaged over frequency bands and on the assumption of light damping an approximate formula for the coupling loss factor is obtained. This is an important parameter in the statistical energy analysis method of estimating the response of structures to broad-band random forces. The results compare well with those obtained by the travelling wave method.
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26

Zhao, Zhimei, Meiping Sheng, and Yang Yang. "Vibration Transmission of a Cylindrical Shell with an Interior Rectangular Plate with the Receptance Method." Advances in Acoustics and Vibration 2012 (September 17, 2012): 1–9. http://dx.doi.org/10.1155/2012/581769.

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Vibration transmission characteristics of a cylindrical shell with a rectangular plate are discussed in this paper by the substructure receptance method. The system is divided into two substructures: the plate and the shell. After finding the theoretical receptance function of each substructure, the coupling equation of the combined system is solved by considering the continuity conditions at the joint between the plate and the shell. The numerical results are compared with the experimental ones to show the validity of the formulation. After that, effects of the plate's parameters on vibration transmission characteristics are discussed. The parameter study shows that it is important to avoid impedance matching for the plate and the shell in the design of suitable structures with low vibration and noise radiation characteristics.
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27

Kato, Makoto, Daisuke Kono, and Yasuhiro Kakinuma. "Dynamical characteristic validation of motorized CFRP spindle unit based on receptance coupling." Mechanical Systems and Signal Processing 173 (July 2022): 109028. http://dx.doi.org/10.1016/j.ymssp.2022.109028.

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28

Mehrpouya, M., and S. S. Park. "Prediction of atomic force microscope probe dynamics through the receptance coupling method." Review of Scientific Instruments 82, no. 12 (December 2011): 125001. http://dx.doi.org/10.1063/1.3664787.

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29

Grossi, Niccolò, Lorenzo Sallese, Filippo Montevecchi, Antonio Scippa, and Gianni Campatelli. "Speed-varying Machine Tool Dynamics Identification Through Chatter Detection and Receptance Coupling." Procedia CIRP 55 (2016): 77–82. http://dx.doi.org/10.1016/j.procir.2016.08.022.

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30

Özşahin, Orkun, Mathieu Ritou, Erhan Budak, Clément Rabréau, and Sébastien Le Loch. "Identification of spindle dynamics by receptance coupling for non-contact excitation system." Procedia CIRP 82 (2019): 273–78. http://dx.doi.org/10.1016/j.procir.2019.04.038.

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31

Honeycutt, Andrew, and Tony Schmitz. "Receptance coupling model for variable dynamics in fixed-free thin rib machining." Procedia Manufacturing 26 (2018): 173–80. http://dx.doi.org/10.1016/j.promfg.2018.07.024.

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32

Ji, Yulei, Qingzhen Bi, Shaokun Zhang, and Yuhan Wang. "A new receptance coupling substructure analysis methodology to predict tool tip dynamics." International Journal of Machine Tools and Manufacture 126 (March 2018): 18–26. http://dx.doi.org/10.1016/j.ijmachtools.2017.12.002.

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33

Yang, Xinwen, Xiaoshan Liu, Shunhua Zhou, Xiaoyun Ma, Jiangang Shen, and Jingchao Zang. "Vertical Random Vibration Analysis of Track-Subgrade Coupled System in High Speed Railway with Pseudoexcitation Method." Shock and Vibration 2016 (2016): 1–12. http://dx.doi.org/10.1155/2016/7064297.

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In order to reduce the ground-borne vibration caused by wheel/rail interaction in the ballastless track of high speed railways, viscoelastic asphalt concrete materials are filled between the track and the subgrade to attenuate wheel/rail force. A high speed train-track-subgrade vertical coupled dynamic model is developed in the frequency domain. In this model, coupling effects between the vehicle and the track and between the track and the subgrade are considered. The full vehicle is represented by some rigid body models of one body, two bogies, and four wheelsets connected to each other with springs and dampers. The track and subgrade system is considered as a multilayer beam model in which layers are connected to each other with springs and damping elements. The vertical receptance of the rail is discussed and the receptance contribution of the wheel/rail interaction is investigated. Combined with the pseudoexcitation method, a solution of the random dynamic response is presented. The random vibration responses and transfer characteristics of the ballastless track and subgrade system are obtained under track random irregularity when a high speed vehicle runs through. The influences of asphalt concrete layer’s stiffness and vehicle speed on track and subgrade coupling vibration are analyzed.
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34

Kiran, Kadir. "A receptance coupling procedure considering frequency-dependent behavior of holder-tool contact dynamics." Journal of Manufacturing Processes 80 (August 2022): 624–41. http://dx.doi.org/10.1016/j.jmapro.2022.06.007.

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35

Ferreira, J. V., and D. J. Ewins. "Experimental Vibration Characteristics of a Beam with Nonlinear Support Using Receptance Coupling Analysis." Journal of the Brazilian Society of Mechanical Sciences 24, no. 2 (May 2002): 105–10. http://dx.doi.org/10.1590/s0100-73862002000200004.

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36

Schmitz, Tony, Emma Betters, Erhan Budak, Esra Yüksel, Simon Park, and Yusuf Altintas. "Review and status of tool tip frequency response function prediction using receptance coupling." Precision Engineering 79 (January 2023): 60–77. http://dx.doi.org/10.1016/j.precisioneng.2022.09.008.

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37

Mehrpouya, M., M. Sanati, and S. S. Park. "Identification of joint dynamics in 3D structures through the inverse receptance coupling method." International Journal of Mechanical Sciences 105 (January 2016): 135–45. http://dx.doi.org/10.1016/j.ijmecsci.2015.11.007.

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38

Wang, Erhua, Bo Wu, Youmin Hu, Shuzi Yang, and Yao Cheng. "Dynamic Parameter Identification of Tool-Spindle Interface Based on RCSA and Particle Swarm Optimization." Shock and Vibration 20, no. 1 (2013): 69–78. http://dx.doi.org/10.1155/2013/634528.

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In order to ensure the stability of machining processes, the tool point frequency response functions (FRFs) should be obtained initially. By the receptance coupling substructure analysis (RCSA), the tool point FRFs can be generated quickly for any combination of holder and tool without the need of repeated measurements. A major difficulty in the sub-structuring analysis is to determine the connection parameters at the tool-holder interface. This study proposed an identification method to recognize the connection parameters at the tool-holder interface by using RCSA and particle swarm optimization (PSO). In this paper, the XHK machining center is divided into two components, which are the tool and the spindle assembly firstly. After that, the end point FRFs of the tool are achieved by mode superposition method. The end receptances of the spindle assembly with complicated structure are obtained by impacting test method. Through translational and rotational springs and dampers, the tool point FRF of the machining center is obtained by coupling the two components. Finally, PSO is adopted to identify the connection parameters at the tool-holder interface by minimizing the difference between the predicted and the measured tool point FRFs. Comparison results between the predicted and measured tool point FRFs show a good agreement and demonstrate that the identification method is valid in the identification of connection parameters at the tool-holder interface.
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39

Wen, Kun Long, and Hou Jun Qi. "Predicting Tool Point FRF by RCSA in High Speed Milling." Advanced Materials Research 1006-1007 (August 2014): 398–402. http://dx.doi.org/10.4028/www.scientific.net/amr.1006-1007.398.

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Tool point frequency response function (FRF) is the key parameters to predict the milling stability in high-speed milling. Receptance coupling substructure analysis (RCSA) is described to predict the tool point FRF. The major difficulties in RCSA are the identification of joint connection parameters and the obtaining of FRFs of substructure. This paper separation of the milling system into three substructures: the machine-spindle-holder taper, the extended holder-tool shank, and the tool extended portion. Develop the connection model compose of linear and rotational springs and dampers. Determine the substructure FRF by measurement and Euler-Bernoulli beam model. Tool point FRF is obtained by coupling the substructure FRFs through the connection model by RCSA.
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40

Drew, S. J., and B. J. Stone. "Torsional damping of a back-to-back gearbox rig: Experimental measurements and frequency domain modelling." Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics 216, no. 2 (June 1, 2002): 157–68. http://dx.doi.org/10.1243/14644190260070394.

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This paper is concerned with the experimental measurement and modelling of the torsional damping levels of a back-to-back gearbox rig. The aims of the investigation were to experimentally measure and analyse modal damping levels for the first nine torsional natural frequencies; to optimize damping parameters for modelling and to assess any limitations of the models for future work. Standard signal processing methods were used to determine modal damping levels from measured torsional frequency responses, with good confidence in the results. A damping sensitivity analysis for the two frequency domain receptance (FDR) models was used to determine optimum damping parameter values. Damping levels for six of nine natural frequencies were well matched with the experimental data. Discrepancies at other frequencies were attributed mainly to torsional-transverse coupling, present in the rig but not the model. Analysis of results for the ninth natural frequency determined a very low level of damping for the gearbox. It was also concluded that the model parameters may be used with confidence in a time domain receptance model for future investigations related to the test gearbox damping.
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41

Albertelli, P., M. Goletti, and M. Monno. "An Improved Receptance Coupling Substructure Analysis to Predict Chatter Free High Speed Cutting Conditions." Procedia CIRP 12 (2013): 19–24. http://dx.doi.org/10.1016/j.procir.2013.09.005.

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42

Liao, Jingping, Dingwen Yu, Jianfu Zhang, Pingfa Feng, and Zhijun Wu. "An efficient experimental approach to identify tool point FRF by improved receptance coupling technique." International Journal of Advanced Manufacturing Technology 94, no. 1-4 (August 29, 2017): 1451–60. http://dx.doi.org/10.1007/s00170-017-0957-y.

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43

Albertelli, P., M. Goletti, and M. Monno. "A new receptance coupling substructure analysis methodology to improve chatter free cutting conditions prediction." International Journal of Machine Tools and Manufacture 72 (September 2013): 16–24. http://dx.doi.org/10.1016/j.ijmachtools.2013.05.003.

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44

Matthias, W., O. Özşahin, Y. Altintas, and B. Denkena. "Receptance coupling based algorithm for the identification of contact parameters at holder–tool interface." CIRP Journal of Manufacturing Science and Technology 13 (May 2016): 37–45. http://dx.doi.org/10.1016/j.cirpj.2016.02.005.

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45

Astarloa, A., M. H. Fernandes, I. Mancisidor, J. Munoa, and Z. Dombovari. "Prediction of the dynamic stiffness of boring bars." IOP Conference Series: Materials Science and Engineering 1193, no. 1 (October 1, 2021): 012007. http://dx.doi.org/10.1088/1757-899x/1193/1/012007.

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Abstract The productivity of boring operations is limited by chatter vibrations, as an effect of the low dynamic stiffness and damping of these cantilevered structures. The origin of the beforementioned self-excited vibration is mainly related to the dynamic stiffness of the boring bar’s bending mode, which is influenced by the stiffness and damping of the machine tool interface. In this paper a dynamic model is presented, which uses Timoshenko beam theory for the boring bar itself, while the effect of the clamping is experimentally determined applying Receptance Coupling Substructure Analysis (RCSA). The important effect of the boring head at the tool tip is considered on the coupling as well. This way, once the machine interface is characterized, the Frequency Response Functions (FRF) of different boring bars can be predicted.
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46

Rezaei, Mohammad Mahdi, Mohammad R. Movahhedy, Hamed Moradi, and Mohammad T. Ahmadian. "Extending the inverse receptance coupling method for prediction of tool-holder joint dynamics in milling." Journal of Manufacturing Processes 14, no. 3 (August 2012): 199–207. http://dx.doi.org/10.1016/j.jmapro.2011.11.003.

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47

Rempel, J., P. Jacobi, J. Friedrich, A. Prof Verl, P. Prof Wiederkehr, and D. Prof Biermann. "Simulationsbasierte Fräsprozessauslegung*/Simulation-based design of milling-processes - Sensitivity analysis of stability lobe diagrams for automotive large-scale production." wt Werkstattstechnik online 107, no. 11-12 (2017): 841–46. http://dx.doi.org/10.37544/1436-4980-2017-11-12-65.

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In diesem Fachartikel werden die Einflüsse von Unsicherheiten in den Modellparameterwerten auf die Stabilitätsgrenze einer Stabilitätskarte aufgezeigt. Dazu wird an einem Beispielsystem eine Sensitivitätsanalyse für ein Verfahren zur Erzeugung von Stabilitätskarten durchgeführt. Zur Bestimmung des dynamischen Verhaltens der Werkzeugmaschine kommt eine Methode der Frequenzgang-Kopplung zum Einsatz.   To estimate the effect of uncertainties on the prediction of stability limits, a sensitivity analysis was conducted for a procedure to determine stability lobe diagrams for an example system. Thereby, a method of receptance coupling to identify the dynamic behavior of the tool center point was applied.
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48

Xuan, X. J., Z. H. Haung, K. D. Wu, and J. P. Hung. "Prediction of the Frequency Response Function of a Tool Holder-Tool Assembly Based on Receptance Coupling Method." Engineering, Technology & Applied Science Research 8, no. 6 (December 22, 2018): 3556–60. http://dx.doi.org/10.48084/etasr.2372.

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Regenerative chatter has a fatal influence on machine performance in high-speed milling process. Basically, machine condition without chattering can be selected from the stability lobes diagram, which is estimated from the tool point frequency response function (FRF). However, measurements of the tool point FRF would be a complicated and time-consuming task with less efficiency. Therefore prediction of the tool point FRF is of importance for further calculation of the machining stability. This study employed the receptance coupling analysis method to predict the FRF of a tool holder-tool module, which is normally composed of substructures, tool holder and cutter with different length. In this study, the angular components of FRFs of the substructures required for coupling operation were predicted by finite element analysis, apart from the translational components measured by vibration experiments. Using this method, the effects of the overhang length of the cutter on the dynamic characteristics have been proven and successfully verified by the experimental measurements. The proposed method can be an effective way to accurately predict the dynamic behavior of the spindle tool system with different tool holder-tool modules.
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Bansal, A., and M. Law. "A Receptance Coupling Approach to Optimally Tune and Place Absorbers on Boring Bars for Chatter Suppression." Procedia CIRP 77 (2018): 167–70. http://dx.doi.org/10.1016/j.procir.2018.08.267.

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Zhao, Yong Sheng, Ri Qing Dong, Zhi Feng Liu, and Tie Neng Guo. "Identification of Dynamical Contact Parameters for Spindle-Tool Holder Interface Based on the Receptance Coupling Substructure Approach." Advanced Materials Research 287-290 (July 2011): 2185–90. http://dx.doi.org/10.4028/www.scientific.net/amr.287-290.2185.

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It is very crucial to accurately identify the parameters of contact dynamics in predicting the chatter stability of spindle–tool holder assemblies in machining centers. Fast and accurate identification of contact dynamics in spindle–tool holder assembly has become an important issue in the recent years. In this paper, the receptance coupling substructure approach is employed for identification the stiffness and damping of the interface in a simple manner, in which the frequency response function of the tool holder is derived from the Timoshenko beam finite elements model. A BT 50 type tool holder is adopted as an application example of the method. Although this study focuses on the contact dynamics at the spindle–tool holder interfaces of the assembly, the approach might be used for identifying the dynamical parameters of other critical interface.
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