The Experts below are selected from a list of 18600 Experts worldwide ranked by ideXlab platform
Lihai Zhang - One of the best experts on this subject based on the ideXlab platform.
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The Schematic Diagram showing the optimization principle in this study.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:The Schematic Diagram showing the optimization principle in this study.
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Schematic Diagram showing stress of soil between piles for a GRPSE system with multi-layers of GR.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:Schematic Diagram showing stress of soil between piles for a GRPSE system with multi-layers of GR.
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Schematic Diagram showing stress of soil between piles for a GRPSE system with single layer of GR.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:Schematic Diagram showing stress of soil between piles for a GRPSE system with single layer of GR.
Zhen Liu - One of the best experts on this subject based on the ideXlab platform.
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The Schematic Diagram showing the optimization principle in this study.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:The Schematic Diagram showing the optimization principle in this study.
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Schematic Diagram showing stress of soil between piles for a GRPSE system with multi-layers of GR.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:Schematic Diagram showing stress of soil between piles for a GRPSE system with multi-layers of GR.
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Schematic Diagram showing stress of soil between piles for a GRPSE system with single layer of GR.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:Schematic Diagram showing stress of soil between piles for a GRPSE system with single layer of GR.
Sergey Mikhailovich Afonin - One of the best experts on this subject based on the ideXlab platform.
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parametric structural Schematic Diagram of electroelastic actuator innanotechnology
Nanotechnology, 2018Co-Authors: Sergey Mikhailovich AfoninAbstract:In this work the parametric structural Schematic Diagram of the electroelastic actuator or the piezoactuator is determined in contrast the electrical equivalent circuit types Cady or Mason for the calculation of the piezoelectric transmitter and receiver, the vibration piezomotor with the mechanical parameters in form the velocity and the pressure. The method of mathematical physics is used. The parametric structural Schematic Diagram of electroelastic actuator is obtained with the mechanical parameters the displacement and the force. The transfer functions of the electroelastic actuator are determined. The generalized parametric structural Schematic Diagram, the generalized matrix equation for the electroelastic actuator nano displacement are obtained. The deformations of the electroelastic actuator for the nanotechnology are described by the matrix equation.
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structural parametric model electromagnetoelastic actuator nanodisplacement for mechatronics
The International Journal of Physics, 2017Co-Authors: Sergey Mikhailovich AfoninAbstract:Electromagnetoelastic actuator have been used successfully to nanodisplacement for mechatronics systems in nanotechnology, electronic engineering, microelectronics, nanobiology, power engineering, astronomy. Linear structural-parametric model, parametric structural Schematic Diagram, transfer functions of the simple electromagnetoelastic actuator nanodisplacement for the mechatronics systems are obtained. For calculation of the mechatronics system with piezoactuator the parametric structural Schematic Diagram and the transfer functions of the piezoactuator are obtained. A generalized parametric structural Schematic Diagram and transfer functions of the piezoactuator are constructed. This work describes the linear structural-parametric model of the simple piezoactuator for the mechatronic in the static and dynamic operation modes in contrast solving its electrical equivalent circuit.
Tewin Tencomnao - One of the best experts on this subject based on the ideXlab platform.
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Schematic Diagram showing the experimental workflow of this study.
2019Co-Authors: Chatravee Pichitpunpong, Surangrat Thongkorn, Songphon Kanlayaprasit, Wasana Yuwattana, Waluga Plaingam, Siriporn Sangsuthum, Wan Mohd Aizat, Syarul Nataqain Baharum, Tewin TencomnaoAbstract:Schematic Diagram showing the experimental workflow of this study.
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Schematic Diagram of the experimental workflow of this study.
2018Co-Authors: Chayanin Tangsuwansri, Thanit Saeliw, Surangrat Thongkorn, Weerasak Chonchaiya, Kanya Suphapeetiporn, Apiwat Mutirangura, Tewin Tencomnao, Tewarit SarachanaAbstract:Schematic Diagram of the experimental workflow of this study.
Cuiying Zhou - One of the best experts on this subject based on the ideXlab platform.
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The Schematic Diagram showing the optimization principle in this study.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:The Schematic Diagram showing the optimization principle in this study.
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Schematic Diagram showing stress of soil between piles for a GRPSE system with multi-layers of GR.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:Schematic Diagram showing stress of soil between piles for a GRPSE system with multi-layers of GR.
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Schematic Diagram showing stress of soil between piles for a GRPSE system with single layer of GR.
'Public Library of Science (PLoS)', 2021Co-Authors: Zhen Liu, Aobo Zhang, Cuiying Zhou, Lihai ZhangAbstract:Schematic Diagram showing stress of soil between piles for a GRPSE system with single layer of GR.
