Relevant bibliographies by topics / Magnetorheological effect

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Magnetorheological effect'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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Journal articles on the topic "Magnetorheological effect"

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Lokander, M., and B. Stenberg. "Improving the magnetorheological effect in isotropic magnetorheological rubber materials." Polymer Testing 22, no. 6 (2003): 677–80. http://dx.doi.org/10.1016/s0142-9418(02)00175-7.

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Dong, X., N. Ma, J. Ou, and M. Qi. "Predicating magnetorheological effect of magnetorheological elastomers under normal pressure." Journal of Physics: Conference Series 412 (February 15, 2013): 012035. http://dx.doi.org/10.1088/1742-6596/412/1/012035.

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McKee, Michael, Faramarz Gordaninejad, and Xiaojie Wang. "Effects of temperature on performance of compressible magnetorheological fluid suspension systems." Journal of Intelligent Material Systems and Structures 29, no. 1 (2017): 41–51. http://dx.doi.org/10.1177/1045389x17705203.

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The temperature effect on performance of compressible magnetorheological fluid suspension systems is studied. Magnetorheological fluid is a temperature-dependent material where its compressibility and rheological properties change with temperature. Experimental studies were conducted to explore the temperature effects on the properties of the magnetorheological fluid and the compressible magnetorheological fluid suspension systems. The temperature effect on magnetorheological fluid properties included the bulk modulus, shear yield stress, and viscosity. It was found that the shear yield stress of the magnetorheological fluid remains unchanged within the testing range while both the plastic viscosity, using the Bingham plastic model, and the bulk modulus of the magnetorheological fluid decrease as the temperature of the fluid increases. A theoretical model that incorporates the temperature-dependent properties of magnetorheological fluid was developed to predict behavior of a compressible magnetorheological fluid suspension system. An experimental study was conducted using an annular flow compressible magnetorheological fluid suspension system with varying temperatures, motion frequencies, and magnetic fields. The experimental results are used to verify the theoretical model. Moreover, the stiffness and energy dissipation of the compressible magnetorheological fluid suspension system were obtained, experimentally. The effects of the temperature on performance characteristics of the compressible magnetorheological fluid suspension system were analyzed. It was found that both the stiffness and the energy dissipation decrease with an increase in the temperature of magnetorheological fluid.
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Yarra, Siddaiah, Faramarz Gordaninejad, Majid Behrooz, and Gokhan Pekcan. "Performance of natural rubber and silicone-based magnetorheological elastomers under large-strain combined axial and shear loading." Journal of Intelligent Material Systems and Structures 30, no. 2 (2018): 228–42. http://dx.doi.org/10.1177/1045389x18808393.

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This study presents an experimental investigation on large-strain behavior of natural rubber– and silicone-based magnetorheological elastomers within a larger scope of structural vibration mitigation due to wind, traffic and seismic events. Magnetorheological elastomer samples with different weight percentages of iron particles, additives, and elastomer matrix were fabricated. The microstructures of specimens were examined, and their mechanical properties were investigated by a unique electromagnetic double-lap shear experimental setup capable of applying simultaneous compression and shear loads. The experimental results demonstrated that the isotropic natural rubber–based magnetorheological elastomers exhibit about 30% magnetorheological effect under large strains, while they achieve a higher magnetorheological effect under the combined axial and shear loading. The magnetorheological effect was 92% and 33% for 10% and 100% shear strains when 100 psi axial stress was applied. A natural rubber–based magnetorheological elastomer was further investigated applying dynamic cyclic load with and without compression load for different strains, frequencies, and magnetic field intensities. It was observed that for higher frequency, magnetorheological effect was reduced. Magnetorheological effects were 73% and 29% for 0.1 and 10 Hz frequencies, respectively, under 100 psi axial stress at 150% shear strain. The result of this study suggests that isotropic natural rubber–based magnetorheological elastomers may be suitable for high-demand-force applications, and in particular, in civil structures.
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Song, Xincheng, Wenju Wang, Fufeng Yang, Guoping Wang, and Xiaoting Rui. "The study of enhancement of magnetorheological effect based on natural rubber/thermoplastic elastomer SEBS hybrid matrix." Journal of Intelligent Material Systems and Structures 31, no. 3 (2019): 339–48. http://dx.doi.org/10.1177/1045389x19888790.

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Magnetorheological elastomers are one kind of smart materials which consist of matrix materials and magnetic particles. The mechanical properties of magnetorheological elastomers were controllable under an external magnetic field. Applications of magnetorheological elastomers are limited as a result of their poor magnetorheological effect and mechanical performance, so enhancing the magnetorheological effect of them is critical for their application. Styrene-ethylene-butylene-styrene based thermoplastic elastomer was added to natural rubber to fabricate hybrid matrix–based magnetorheological elastomers. Zero modulus of magnetorheological elastomers increased from 0.50 to 0.64 MPa and magnetorheological effect increased from 28.00% to 43.75% with the addition of styrene-ethylene-butylene-styrene based thermoplastic elastomer. The contact angle of carbonyl iron particles with the matrix showed that styrene-ethylene-butylene-styrene based thermoplastic elastomer can improve the compatibility of carbonyl iron particles with the matrix. Fourier-transform infrared spectroscopy analysis has been carried out to investigate the internal structure of hybrid matrix–based magnetorheological elastomers.
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Yarra, Siddaiah, Faramarz Gordaninejad, Majid Behrooz, Gokhan Pekcan, Ahmad M. Itani, and Nelson Publicover. "Performance of a large-scale magnetorheological elastomer–based vibration isolator for highway bridges." Journal of Intelligent Material Systems and Structures 29, no. 20 (2018): 3890–901. http://dx.doi.org/10.1177/1045389x18799493.

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This study presents an experimental investigation on the magnetorheological effect of a new magnetorheological elastomer–based adaptive bridge isolation bearing system. Two identical magnetorheological elastomer–based adaptive bridge bearings (isolators) were designed and fabricated. Electromagnets were incorporated to create a closed-loop magnetic path in the magnetorheological elastomer layers. A double-lap shear and compression test setup was utilized to characterize the mechanical properties of the system subjected to scaled structural cyclic forces and strains. Experimental results demonstrated that the effective stiffness of adaptive bridge bearings increases with increased applied magnetic field and a compressive force resulted in larger apparent shear stiffness. Also, increasing loading frequency resulted in larger apparent shear stiffness and lower magnetorheological effect and similarly, however, a compressive force resulted in smaller magnetorheological effects.
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Peng, Yongbo, Jinggui Yang, and Jie Li. "Parameter identification of modified Bouc–Wen model and analysis of size effect of magnetorheological dampers." Journal of Intelligent Material Systems and Structures 29, no. 7 (2017): 1464–80. http://dx.doi.org/10.1177/1045389x17740963.

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Magnetorheological damper is one of the most promising smart devices for vibration mitigation of structures subjected to dynamic loads. In order to fulfill the value of magnetorheological damping control, a feasible mechanical model of magnetorheological dampers with simplicity and sufficient accuracy is usually required in practice. It comes up, however, with a challenging issue for the modeling of large-size magnetorheological dampers due to physical constraints on the performance test. The large-size magnetorheological damper is typically modeled in up-scaling parameters associated with models of the small-size magnetorheological damper. This treatment remains open since a size effect hinges upon the intrinsic non-linearity inherent in the device. In this article, a dynamic test of a small-size magnetorheological damper is performed first. The relevance of damper force with the input current and excitation frequency is well revealed. The modified Bouc–Wen model is employed to logically represent the dynamic behaviors of magnetorheological dampers. Identification of model parameters in typical loading cases is then proceeded, of which the functional relationship against input current is established. The size effect of magnetorheological dampers is further addressed through investigating the functional relationship relevant to maximum outputs of 200, 10, and 5 kN. It is indicated that the small-size magnetorheological damper needs more number of control parameters than the large-size magnetorheological damper. Moreover, a linear current relevance of model parameters appears in the small-size magnetorheological damper, while a quadratic current relevance of model parameters appears in the large-size magnetorheological damper. Size effect of magnetorheological dampers arises to be well-marked in the range of low current and becomes unapparent in the range of high current. Besides, the validation of modified Bouc–Wen model is carried out that reveals the applicability of the model with case-optimized parameters.
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Bastola, AK, M. Paudel, and L. Li. "Line-patterned hybrid magnetorheological elastomer developed by 3D printing." Journal of Intelligent Material Systems and Structures 31, no. 3 (2019): 377–88. http://dx.doi.org/10.1177/1045389x19891557.

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This article presents the development of line-patterned magnetorheological elastomers via 3D printing and their magnetorheological characterization. Herein, we consider five different patterns of magnetorheological fluid filaments that are printed and encapsulated within the elastomer matrix. The 3D-printed magnetorheological elastomers could represent the conventional isotropic and anisotropic magnetorheological elastomers. First, the effect of patterning the magnetorheological fluid filaments and the effect of change in the direction of the magnetic field is studied for all five patterns. Thereafter, the dynamic properties of 3D-printed magnetorheological elastomers under uniaxial deformation are presented. Magnetorheological effect shown by 3D-printed magnetorheological elastomers was found to be depended on the printed patterns as well as the direction of the applied magnetic field. This result showed that the 3D printing method has the potential to produce anisotropic magnetorheological elastomers or unique configuration of magnetic particles within the elastomer matrix. The dynamic testing showed that the storage modulus of 3D-printed magnetorheological elastomers is increased with increasing frequency and decreased with increasing strain amplitude, which signifies that the 3D-printed hybrid magnetorheological elastomers are also viscoelastic materials and the properties are magnetic field dependent as that of current magnetorheological elastomers.
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PAN, Jisheng. "Cluster Magnetorheological Effect Plane PolishingTechnology." Journal of Mechanical Engineering 50, no. 1 (2014): 205. http://dx.doi.org/10.3901/jme.2014.01.205.

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Guan, Xinchun, Xufeng Dong, and Jinping Ou. "Magnetostrictive effect of magnetorheological elastomer." Journal of Magnetism and Magnetic Materials 320, no. 3-4 (2008): 158–63. http://dx.doi.org/10.1016/j.jmmm.2007.05.043.

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Dissertations / Theses on the topic "Magnetorheological effect"

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Gupta, Rajiv C. (Rajiv Chandra) Carleton University Dissertation Engineering Mechanical and Aerospace. "The Magnetorheological effect and its application to controllable dampers." Ottawa, 1996.

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Goncalves, Fernando D. "Characterizing the Behavior of Magnetorheological Fluids at High Velocities and High Shear Rates." Diss., Virginia Tech, 2005. http://hdl.handle.net/10919/26142.

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Magnetorheological (MR) fluids offer solutions to many engineering challenges. The success of MR fluid is apparent in many disciplines, ranging from the automotive and civil engineering communities to the biomedical engineering community. This well documented success of MR fluids continues to motivate current and future applications of MR fluid. One such application that has been considered recently is MR fluid devices for use in impact and other high velocity applications. In such applications, the fluid environment within the device may be well beyond the scope of our understanding for these fluids. To date, little has been done to explore the suitability of MR fluids in such high velocity and high shear applications. While future applications may expose the fluid to adverse flow conditions, we must also consider current and existing applications which expose the fluid to extreme flow environments. Consider, for example, an MR damper intended for automotive primary suspensions, in which shear rates may exceed 10^5 s^-1. Flow conditions within these dampers far exceed existing fluid behavior characterization. The aim of the current study is to identify the behavior of the fluid under these extreme operating conditions. Specifically, this study intends to identify the behavior of MR fluid subject to high rates of shear and high flow velocities. A high shear rheometer is built which allows for the high velocity testing of MR fluids. The rheometer is capable of fluid velocities ranging from 1 m/s to 37 m/s, with corresponding shear rates ranging from 0.14x10^5 s^-1 to 2.5x10^5 s^-1. Fluid behavior is characterized in both the off-state and the on-state. The off-state testing was conducted in order to identify the high shear viscosity of the fluid. Because the high shear behavior of MR fluid is largely governed by the behavior of the carrier fluid, the carrier fluid behavior was also identified at high shear. Experiments were conducted using the high shear rheometer and the MR fluid was shown to exhibit nearly Newtonian post-yield behavior. A slight thickening was observed for growing shear rates. This slight thickening can be attributed to the behavior of the carrier fluid, which exhibited considerable thickening at high shear. The purpose of the on-state testing was to characterize the MR effect at high flow velocities. As such, the MR fluid was run through the rheometer at various flow velocities and a number of magnetic field strengths. The term â dwell timeâ is introduced and defined as the amount of time the fluid spends in the presence of a magnetic field. Two active valve lengths were considered, which when coupled to the fluid velocities, generated dwell times ranging from 12 ms to 0.18 ms. The yield stress was found from the experimental measurements and the results indicate that the magnitude of the yield stress is sensitive to fluid dwell time. As fluid dwell times decrease, the yield stress developed in the fluid decreases. The results from the on-state testing clearly demonstrate a need to consider fluid dwell times in high velocity applications. Should the dwell time fall below the response time of the fluid, the yield stress developed in the fluid may only achieve a fraction of the expected value. These results imply that high velocity applications may be subject to diminished controllability for falling dwell times. Results from this study may serve to aid in the design of MR fluid devices intended for high velocity applications. Furthermore, the identified behavior may lead to further developments in MR fluid technology. In particular, the identified behavior may be used to develop or identify an MR fluid well suited for high velocity and high shear applications.<br>Ph. D.
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Lux, Christian. "Modellierung, Simulation und Homogenisierung des magnetomechanischen Feldproblems für magnetorheologische Elastomere." Doctoral thesis, Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2016. http://nbn-resolving.de/urn:nbn:de:bsz:14-qucosa-214175.

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Die aus magnetisierbaren Partikeln und einer elastischen Matrix bestehenden magnetorheologischen Elastomere sind ein Verbundwerkstoff mit magnetisch steuerbaren Eigenschaften. In der vorliegenden Arbeit wird ein kontinuumsmechanisches Modell zur Beschreibung der relevanten physikalischen Phänomene bereitgestellt. Die Lösung zugehöriger Randwertaufgaben basiert auf der erweiterten Finiten Elemente Methode. Zur Verifikation und Validierung des Modells werden analytische Referenzlösungen zweidimensionaler Problemstellungen herangezogen. Die Homogenisierung des magnetomechanischen Feldproblems erfolgt mit kleinen Deformationen. Aus einer Volumenmittelung der lokal inhomogenen Feldverteilungen ergeben sich makroskopische Variablen. Auf Basis dieser Größen lassen sich Aussagen über das effektive Verhalten ableiten. Somit ist neben den rein magnetischen und mechanischen Materialeigenschaften das gekoppelte magnetomechanische Verhalten analysierbar. Darunter sind aktuatorische Spannungen, magnetostriktive Dehnungen und der magnetorheologische Effekt zu verstehen<br>Magnetorheological elastomers are composite materials consisting of magnetizable particles embedded in an elastic matrix. Their properties can be altered by an external magnetic field. In this work a continuum based formulation is applied to model relevant physical phenomena. Boundary value problems are solved by the extended Finite Element Method. For the purposes of verification and validation analytic solutions are provided. The homogenization of the magnetomechanical field problem is limited to small deformations. Macroscopic variables are obtained by volume averaging. In addition to macroscopic magnetic and mechanical properties the effective behavior is analyzed in terms of actuatoric stresses, magnetostrictive strains and the magnetorheological effect
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Dvořáček, Ondřej. "Studium stability bidisperzní MR kapaliny a jejího magnetoreologického efektu." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2018. http://www.nusl.cz/ntk/nusl-377875.

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The diploma thesis deals with the study of the behaviour of bidisperse MR fluids. The introduction gives brief research and analysis of previously published studies. In the main part of this thesis, the sedimentation properties of monodispersions and bidispersions are investigated influencing on the primary and secondary particles size, the ratio between the fractions, the total concentration of the particles dispersed in the MR fluid and the carrier fluid viscosity. The initialization sedimentation rate is used to assess sediment stability. Subsequently, MR samples are tested on a slit-flow rheometer, and flow curves are measured at different temperatures and in the presence of various magnetic fields intensities. The MR effect is evaluated by the yield stress. The study contains results describing the behaviour of investigated MR fluid samples.
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Larrecq, Geoffroy. "Heating effects on magnetorheological dampers." Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/60775.

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Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering, 2010.<br>Cataloged from PDF version of thesis.<br>Includes bibliographical references (p. 50-51).<br>Over the past decades, scientists and engineers have tried to develop and improve various devices and control systems in order to mitigate and prevent civil structures against external dynamic forces such as strong wind and earthquakes. Indeed, damping devices absorb and dissipate the energy input during an earthquake, for instance and thus make structures safer and stable. Many types of devices are currently used such as viscous, friction or tuned mass dampers; however, one of the most recent promising systems proposed is the Magnetorheological damper (MR damper). Because of their ability to be controlled and to adapt their mechanical properties by varying a magnetic field, their high damping force (200kN), their low energy input required and their simple use and implementation in buildings, MR dampers seem to be suitable and realistic for civil engineering application. However, when they are subjected to external dynamic forces, the temperature increase in the damper device may significantly alter their performances and behaviors. This thesis first presents an overview of different technology control systems and MR damper device properties. Then, several mathematical models are developed and applied to explain the behavior of this class of damper. Finally, a study of the heating effects on MR damper performances incorporated in a real structure (3DOF) will be simulated.<br>by Geoffroy Larrecq.<br>M.Eng.
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Nika, Grigor. "Multiscale analysis of emulsions and suspensions with surface effects." Digital WPI, 2016. https://digitalcommons.wpi.edu/etd-dissertations/146.

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The better understanding of the behavior of emulsions and suspensions is important in many applications. In general, emulsions allow the delivery of insoluble agents to be uniformly distributed in a more efficient way. At the same time suspensions of rigid particles are used as “smart materialsâ€� as their properties can be changed by the interaction with a magnetic or electric field. In the first part of the talk we consider a periodic emulsion formed by two Newtonian fluids in which one fluid is dispersed under the form of droplets of arbitrary shape, in the presence of surface tension. We assume the droplets have fixed centers of mass and are only allowed to rotate. We are interested in the time-dependent, dilute case when the characteristic size of the droplets aε, of arbitrary shape, is much smaller than the period length ε. We obtain a Brinkman type of fluid flow for the critical size aε = O(ε3) as a replacement of the Stokes flow of the emulsion. Additionally, using Mosco convergence and semigroup theory we extend the convergence to the parabolic case. For the case when the droplets convect with the flow, it can be shown again using Mosco-convergence that, as the size of the droplets converges to zero faster than the distance between the droplets, the emulsion behaves in the limit like the continuous phase and no “strangeâ€� term appears. Moreover, we determine the rate of convergence of the velocity field for the emulsion to that of the velocity for the one fluid problem in both the H1 and L2 norms. Additionally, a second order approximation is determined in terms of the bulk and surface polarization tensors for the cases of uniform and non-uniform surface tension. The second part of the talk is devoted to the study of MR fluids. We consider a suspension of rigid magnetizable particles in a non-conducting, viscous fluid with an applied external magnetic field. Thus, we use the quasi-static Maxwell equations coupled with the Stokes equations to capture the magnetorheological effect. We upscale using two scale asymptotic expansions to obtain the effective equations consisting of a coupled nonlinear system in a connected phase domain as well as the new constitutive laws. The proposed model generalizes the model of Rosenweig by coupling the velocity of the fluid and the magnetic field intensity. Using the finite element method we compute the effective coefficients for the MR fluid. We analyze the resulting MR model for Poiseuille and Couette flows and compare with experimental data for validation.
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Liu, Guang-Yu, and 劉光宇. "MEMS Structure With Tunable Stiffness Using Magnetorheological Effect." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/66328187975686404189.

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Kao, Tzu-Chieh, and 高子傑. "Magnetorheological Fluid Damper Design and the Analysis of the Vibration Suppression Effect on Deep Hole Drill Shaft." Thesis, 2008. http://ndltd.ncl.edu.tw/handle/04530108146675889779.

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碩士<br>國立交通大學<br>機械工程系所<br>97<br>Deep hole drilling is a high-value-added hole making technology. It’s essential to the aviation, automobile and defense industries. Deep hole drilling’s manufacture quality is higher than conventional metal processing. Past researches revealed that the dynamic stiffness of the long shaft of deep hole drilling is lower. This study will conduct suppression of shaft vibration with an aim of further improving hole making quality. A magnetorheological fluid damper will be designed and installed to suppress the vibration in the drilling process.
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Book chapters on the topic "Magnetorheological effect"

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Hapipi, N. M., Saiful Amri Mazlan, Siti Aishah Abdul Aziz, et al. "Frequency-Dependent on the Magnetorheological Effect of Magnetorheological Plastomer." In Proceedings of the 6th International Conference and Exhibition on Sustainable Energy and Advanced Materials. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4481-1_29.

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Roupec, J., and I. Mazůrek. "Stability of Magnetorheological Effect during Long Term Operation." In Mechatronics. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-23244-2_68.

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Hadzir, Mohd Nor Hazwan, Muhamad Husaini Abu Bakar, and Ishak Abdul Azid. "Effect of the Magnetic Field on Magnetic Particles in Magnetorheological Elastomer Layers." In Advanced Structured Materials. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-05621-6_11.

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Jamari, S. K. Mohd, U. Ubaidillah, Siti Aishah Abdul Aziz, Nur Azmah Nordin, A. Fajrin, and Saiful Amri Mazlan. "Mini Review on Effect of Coatings on the Performance of Magnetorheological Materials." In Proceedings of the 6th International Conference and Exhibition on Sustainable Energy and Advanced Materials. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4481-1_19.

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Lu, Jia Bin, Juan Yu, Qiu Sheng Yan, Wei Qiang Gao, and Liang Chi Zhang. "A Novel Superfine Machining Technology Based on the Magnetorheological Effect of Abrasive Slurry." In Materials Science Forum. Trans Tech Publications Ltd., 2006. http://dx.doi.org/10.4028/0-87849-421-9.145.

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Burhannuddin, Nurul Liyana, Nur Nabila Balqis Zolkifli, Nur Azmah Nordin, Siti Aishah Abdul Aziz, Saiful Amri Mazlan, and Hafizal Yahaya. "Effect of Corroded Plate-Like Iron Particles on the Rheological Properties of Magnetorheological Elastomer." In Proceedings of the 6th International Conference and Exhibition on Sustainable Energy and Advanced Materials. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4481-1_21.

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Haddar, Maroua, Riadh Chaari, S. Caglar Baslamisli, Fakher Chaari, and Mohamed Haddar. "Comparison Between the Effect of Magnetorheological Damper Force and a System Equipped with ADRC." In Lecture Notes in Mechanical Engineering. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-24247-3_18.

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Muhazeli, Noor Sahirah, Siti Maisarah Abd Aziz, Nur Azmah Nordin, Saiful Amri Mazlan, Siti Aishah Abdul Aziz, and Hafizal Yahaya. "Effect of Different Curing Conditions on the Morphological and Rheological Properties of Rigid Magnetorheological Foam." In Proceedings of the 6th International Conference and Exhibition on Sustainable Energy and Advanced Materials. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4481-1_18.

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Mikhasev, Gennadi, Ihnat Mlechka, and Svetlana Maevskaya. "Effect of Magnetic Field on Free and Forced Vibrations of Laminated Cylindrical Shells Containing Magnetorheological Elastomers." In Analysis and Modelling of Advanced Structures and Smart Systems. Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-6895-9_7.

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Yu, Juan, Qiu Sheng Yan, Jia Bin Lu, and Wei Qiang Gao. "Research on Material Removal of a New Micro Machining Technology Based on the Magnetorheological Effect of Abrasive Slurry." In Optics Design and Precision Manufacturing Technologies. Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-458-8.914.

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Conference papers on the topic "Magnetorheological effect"

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Hsu, Fu-Ming, Rongshun Chen, and Weileun Fang. "Novel tunable optical modulation lens using magnetorheological effect." In 2014 IEEE 27th International Conference on Micro Electro Mechanical Systems (MEMS). IEEE, 2014. http://dx.doi.org/10.1109/memsys.2014.6765862.

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WANG, Hong-xiang, Xian-hua CHEN, Jie LI, Bo ZHONG, Wen-hui DENG, and Jing Hou. "Effect of magnetorheological processing parameters on polishing spots." In Optical Precision Manufacturing, Testing, and Applications, edited by John McBride, JiuBin Tan, Sen Han, and Xuejun Zhang. SPIE, 2018. http://dx.doi.org/10.1117/12.2505428.

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Wan, Yan-Xiang, Ye-Ping Xiong, and Shen-Ming Zhang. "Temperature Effect on Dynamic Properties of Magnetorheological Elastomers." In 3rd Annual International Conference on Advanced Material Engineering (AME 2017). Atlantis Press, 2017. http://dx.doi.org/10.2991/ame-17.2017.68.

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Kikuchi, Takehito, Takaya Kumagae, Isao Abe, and Akio Inoue. "Particle sedimentation in magnetorheological fluid and its effect." In 2017 IEEE International Conference on Advanced Intelligent Mechatronics (AIM). IEEE, 2017. http://dx.doi.org/10.1109/aim.2017.8014110.

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Wang, Jia, Yongjian Wan, and Chunyan Shi. "Rigidity controllable polishing tool based on magnetorheological effect." In 6th International Symposium on Advanced Optical Manufacturing and Testing Technologies (AOMATT 2012), edited by Li Yang, Eric Ruch, and Shengyi Li. SPIE, 2012. http://dx.doi.org/10.1117/12.974283.

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Zhou, Yuan, and Yongliang Zhang. "Research on Turning Vibration Suppression Based on Magnetorheological Effect." In 2012 Spring Congress on Engineering and Technology (S-CET). IEEE, 2012. http://dx.doi.org/10.1109/scet.2012.6342063.

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Hsu, Fu-Ming, Guang-Yu Liu, and Weileun Fang. "MEMS structure with tunable stiffness using the magnetorheological effect." In 2013 IEEE 26th International Conference on Micro Electro Mechanical Systems (MEMS). IEEE, 2013. http://dx.doi.org/10.1109/memsys.2013.6474163.

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KORDONSKI, WILLIAM, and DON GOLINI. "MULTIPLE APPLICATION OF MAGNETORHEOLOGICAL EFFECT IN HIGH PRECISION FINISHING." In Proceedings of the Eighth International Conference. WORLD SCIENTIFIC, 2002. http://dx.doi.org/10.1142/9789812777546_0001.

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SEDLACIK, M., V. PAVLINEK, P. SAHA, P. SVRCINOVA, and P. FILIP. "THE ROLE OF PARTICLES ANNEALING TEMPERATURE ON MAGNETORHEOLOGICAL EFFECT." In Proceedings of the 12th International Conference. WORLD SCIENTIFIC, 2011. http://dx.doi.org/10.1142/9789814340236_0050.

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FANG, S., X. L. GONG, X. Z. ZHANG, and P. Q. ZHANG. "EFFECT OF PRE-CONFIGURATION ON PERFORMANCE OF MAGNETORHEOLOGICAL ELASTOMERS." In Proceedings of the Ninth International Conference. WORLD SCIENTIFIC, 2005. http://dx.doi.org/10.1142/9789812702197_0021.

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