Copyright © The 18th International Conference on Electrorheological Fluids and Magnetorheological Suspensions
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Conference Committee
E-mail:ermr2023@cqu.edu.cn
Timezone:Asia/Shanghai
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Poster@Poster2023-06-10 12:00 ~ 16:00 Timetable V3 Updated:2023-06-09 13:28:06 |
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Start | End | Duration | ID | Title |
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12:00 | 12:01 | 1 | 65 |
Control of vibrations of elements of autonomous objects under external dynamic influencesEvguenia Korobko/A. V. Luikov Heat and Mass Transfer Institute of NAS of Belarus
|
12:01 | 12:02 | 1 | 68 |
Effect of electric fields on the rheological properties of fluids based on complex oxide compoundsEvguenia Korobko/A. V. Luikov Heat and Mass Transfer Institute of NAS of Belarus
|
12:02 | 12:03 | 1 | 69 |
Relaxation processes in rheological fluids under the influence of a magnetic fieldEvguenia Korobko/A. V. Luikov Heat and Mass Transfer Institute of NAS of Belarus
|
12:03 | 12:04 | 1 | 106 |
A controllable MR tactile device using magnetic responsive materials for normal force and dynamic motionYu-Jin Park postdoctoral researc/KIURI Center for Hydrogen Based Next Generation Mechanical System, Inha University
|
12:04 | 12:05 | 1 | 8 |
Development of a Three-Dimensional Force Feedback System Using Magnetorheological Fluid Brakes for Welding InstructionRyunosuke Sawahashi/Chuo University
|
12:05 | 12:06 | 1 | 32 |
Development of fail-safe magnetorheological fluid device using electro and permanent magnetRihiro Fukuyama Student/Graduate School of Engineering, Oita University
|
12:06 | 12:07 | 1 | 11 |
Impulse Force Presentation during Ball Kicking by Lower Limb Exoskeleton with MR Fluid BrakeTaiga Shimizu/Chuo University
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12:07 | 12:08 | 1 | 14 |
Verification of Assistive Strategy with Variable Viscosity Using Exoskeleton Device with MR Brake in Seated MotionYusuke Shimoda/Chuo University
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12:08 | 12:09 | 1 | 7 |
Presentation of Sensation of Knee Movement in Water with a Lower Limb Exoskeleton Using Magnetorheological Fluid BrakesRyunosuke Sawahashi/Chuo University
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12:09 | 12:10 | 1 | 75 |
Electrorheological Behavior of Boric Acid Doped Magnetic and Conducting Ni-Ferrite/ Chitosan BiocompositeGokce Calis Ismetoglu Research assistant/Gazi University
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12:10 | 12:11 | 1 | 25 |
Electrorheological Properties of Boron Containing Polyionic LiquidsGokce Calis-Ismetoglu Research assistant/Gazi University
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12:11 | 12:12 | 1 | 53 |
Emergent dynamics and biomimetic 3D structures using magnetorheological materialsGuillermo Camacho/University of Granada
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12:12 | 12:13 | 1 | 99 |
Study on adjustable natural frequency of 3D-printed magnetorheological elastomerRui Wu undergraduate/Northwestern Polytechnical University
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12:13 | 12:14 | 1 | 36 |
Active dispersing simulation of the settled magnetorheological fluid and the experimental verification with concentration sensingMinghui Zhu/Key Laboratory of Optoelectronic Technology and Systems (Chongqing University),Ministry of Education
|
12:14 | 12:15 | 1 | 92 |
High Performance Anisotropic Giant Electrorheological Elastomer and Its Application in Smart Table Tennis RacketDongyang Huang PhD student/Shanghai University
|
12:15 | 12:16 | 1 | 74 |
High-performance giant electrorheological material prepared based on BTRU@CDs nanoparticlesYubing Han PhD Candidate/Shanghai University
|
12:16 | 12:17 | 1 | 149 |
Research on braking torque model of magneto-rheological brake based on temperature effectWanli Song Associate professor/Northeastern University
|
12:17 | 12:18 | 1 | 29 |
Dynamic Viscoelastic and Magnetic Response Property of Tough Nanocomposite HydrogelWen Jiao Han/Nanjing University of Science and Technology
|
12:18 | 12:19 | 1 | 46 |
Developing a Strain-Sensing String for Self-Sensing Twisted String Actuators Using Conductive Polymer CompositesChanchan xu/University of Science and Technology of China,Hefei Institutes of Physical Science, Chinese Academy of Sciences
|
12:19 | 12:20 | 1 | 43 |
Flexible tactile sensing of magnetic hydrogel composites based on electrical impedance tomographyBin Li/University of Science and Technology of China,Hefei Institutes of Physical Science, Chinese Academy of Sciences
|
12:20 | 12:21 | 1 | 83 |
An electrorheological elastomer based on TiO2 inlaid with nanocarbons and natural rubberZhaohui Qiu Phd student/School of Physics, Sun Yat sen University
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12:21 | 12:22 | 1 | 12 |
Core−Shell Structured Magnetite-Poly(diphenylamine) Microspheres and Their Tunable Dual Response under Magnetic and Electric FieldsYu zhen Dong Lecturer/China,School of Materials Science and Engineering, Harbin Institute of Technology at Weihai, 2 West Wenhua Road, Weihai 264209
|
12:22 | 12:23 | 1 | 39 |
Viscoelastic mechanical modelling for anisotropic magnetorheological elastomer with tilt magnetic chain under shear behaviourLeizhi Wang/Harbin Institute of Technology
|
12:23 | 12:24 | 1 | 118 |
Enhanced electrorheological effect of suspensions based on co-poly(ionic liquid)s neutralized with mixed counterions董 跃振 lecturer/齐鲁工业大学
|
12:24 | 12:25 | 1 | 42 |
Characterization of Magnetic-dependent Mullins Effect and Nonlinear Viscoelasticity of Magnetorheological ElastomerYan li/University of Science and Technology of China
|
12:25 | 12:26 | 1 | 62 | |
12:26 | 12:27 | 1 | 41 |
Magnetorheological elastomer-based composite with mechanically sensitive conductivity and magnetic-mechanical monitoring performanceMin Sang/University of Science and Technology of China
|
12:27 | 12:28 | 1 | 47 |
Novel magnetorheological elastomer integrated multilayered composites towards electrothermal and magneto-actuating applicationsWenwen Li/University of Science and Technology of China
|
12:28 | 12:29 | 1 | 128 |
Development of an anti-vibration aircraft model support system with magnetorheological dampers for wind tunnel testWang Li/Chongqing University
|
12:29 | 12:30 | 1 | 140 |
Attenuation of magneto-induced yield stress by magnetic carrier liquid in magnetorheological fluidsShixu Li/Chongqing University
|
12:30 | 12:31 | 1 | 17 |
Design, modeling and testing of a magnetorheological device with variable damping and variable inertanceJiawei Yin Postgraduate/China Nanhu Academy of Electronics and Information Technology
|
12:31 | 12:32 | 1 | 130 |
Reconstructing the magnetic hysteretic behaviour of dual coil MR actuatorsLei Tang/University of Girona
|
12:32 | 12:33 | 1 | 19 |
The effect of ions doping on the temperature-dependence magnetism of ferrite nanoparticles and ferrofluidsFang Chen/Xihua university
|
12:33 | 12:34 | 1 | 119 |
Experimental Study of Damping Characteristics of Magnetorheological Torsional Vibration Damper Shaft SystemZhicheng Wang Student/Zhejiang University of Technology , Jiaxing University
|
12:34 | 12:35 | 1 | 151 |
BiLSTM-SAM: A deep Learning hybrid model for predicting hysteretic characteristics of magnetorheological elastomer isolatorMi Zhu/Chongqing University of Technology
|
12:35 | 12:36 | 1 | 124 |
Adaptive design of magnetorheological fluid-based upper limb rehabilitation supple jointganglin li student/Zhejiang Sci-Tech University,Jiaxing University, China, Hangzhou
|
12:37 | 12:38 | 1 | 85 |
Algorithms design of gait data-driven magnetorheological bionic buffer collaborative transmission system for exoskeleton robotsHongzhan Lv Dr./ Associate Profe/College of Mechanical Engineering, Donghua University
|
12:36 | 12:37 | 1 | 9 |
A Novel Design of Rotary MR DamperBo-Gyu Kim Ph.D. course/Inha University
|
12:38 | 12:39 | 1 | 153 |
Periodic magnetically oriented gradient structures for improving microwave absorption efficiency Lirui Wang/Chongqing University of science and technology
Chongqing University
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12:39 | 12:40 | 1 | 125 |
Rheological Behavior of Magnetorheological Fluids over a Wide Range of Shear RatesJingcheng Lv Student/Tsinghua University
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