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Study on the Electric Actuation of Liquid Metal Column in Confining System
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作者 Shuting Liang Zengwei Wang +2 位作者 Fengjiao Li Mengjun Huang Ge Ding 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2022年第3期207-210,共4页
Research on micro-machines is becoming popular.In this paper,the electric driving behavior of liquid metal columns in confining channel was studied.When the electric field was applied,the liquid metal near the negativ... Research on micro-machines is becoming popular.In this paper,the electric driving behavior of liquid metal columns in confining channel was studied.When the electric field was applied,the liquid metal near the negative electrode became flat,longer.The NaOH electrolyte(1.0 mol/L)could flow from the positive electrode to the negative electrode from a small space above the liquid metal column.Besides,the length and volume of the liquid metal would affect its motion and deformation behavior.Both cylindrical liquid column(R=5 mm,L=5 cm)and linear liquid column(R=5 mm,L=40 cm)exhibit deformable movements,which are similar to the bionic movements of earthworms.The electrically driven liquid metal in closed systems could provide a theoretical basis for droplet actuation in microtubes.It has a very wide application prospect in the field of micro-drive machines. 展开更多
关键词 Liquid metal electric actuation BIOMIMETIC MICROMACHINES Motion
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All-Electric Subsea Control Systems and the Effects on Subsea Manifold Valves 被引量:1
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作者 Karan Sotoodeh 《Journal of Marine Science and Application》 CSCD 2020年第3期465-472,共8页
Subsea development is moving constantly toward simplification,digitalization,and cost-out strategies because the exploration and production of hydrocarbons are moving toward deeper and remote sea water areas.Usage of ... Subsea development is moving constantly toward simplification,digitalization,and cost-out strategies because the exploration and production of hydrocarbons are moving toward deeper and remote sea water areas.Usage of all-electric subsea technology instead of hydraulic technology is growing and will be the future of subsea systems due to the former’s environmental and functional advantages and reduced costs.The benefits of all-electric subsea systems are health,safety,and environment(HSE)and improved reliability,flexibility,and functionality compared with traditional hydraulic-electrical systems.Existing electrohydraulic technology for a typical subsea system,hydraulic and electric actuators,and subsea manifold valves including valve types and selection philosophy have been reviewed in this paper.Some major worldwide oil companies such as Equinor and Schlumberger have successful experiences with subsea electric actuators.Considering the benefits of all-electric technology especially in terms of cost and HSE,as well as successful experiences of two major oil companies,further research in this area is warranted.One of the gaps in existing reviewed literature is the effect of using all-electric actuators for manifold valves.Thus,three main questions related to electric actuator selection,requirement of safety integrity level(SIL),and effect of using electric actuators on manifold valve selection have been addressed and answered.Forty hydraulic actuated manifold valves from nine past subsea projects in different parts of the world,mainly Africa and Australia,have been selected for the analysis of all-electric actuators.Results show that 93%of the valves require spring-return electric actuators,whereas 7%can be operated with conventional electric actuators without any spring.The manifold valves do not require SIL certification because they are not connected to an emergency shut down system.Introducing the electric actuators to the manifold valve will not change the valve selection philosophy. 展开更多
关键词 Subsea oil and gas Production MANIFOLD Industrial valves electric actuators Oil and gas OFFSHORE Marine environment
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Explosive Electric Actuator and Control for Legged Robots 被引量:3
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作者 Fei Meng Qiang Huang +4 位作者 Zhangguo Yu Xuechao Chen Xuxiao Fan Wu Zhang Aiguo Ming 《Engineering》 SCIE EI CAS 2022年第5期39-47,共9页
Unmanned systems such as legged robots require fast-motion responses for operation in complex envi-ronments.These systems therefore require explosive actuators that can provide high peak speed or high peak torque at s... Unmanned systems such as legged robots require fast-motion responses for operation in complex envi-ronments.These systems therefore require explosive actuators that can provide high peak speed or high peak torque at specific moments during dynamic motion.Although hydraulic actuators can provide a large force,they are relatively inefficient,large,and heavy.Industrial electric actuators are incapable of providing instant high power.In addition,the constant reduction ratio of the reducer makes it difficult to eliminate the tradeoff between high speed and high torque in a given system.This study proposes an explosive electric actuator and an associated control method for legged robots.First,a high-power-density variable transmission is designed to enable continuous adjustment of the output speed to torque ratio.A heat-dissipating structure based on a composite phase-change material(PCM)is used.An integral torque control method is used to achieve periodic and controllable explosive power output.Jumping experiments are conducted with typical legged robots to verify the effectiveness of the proposed actuator and control method.Single-legged,quadruped,and humanoid robots jumped to heights of 1.5,0.8,and 0.5 m,respectively.These are the highest values reported to date for legged robots powered by electric actuators. 展开更多
关键词 electric actuator Variable transmission Integral torque control Legged robot
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Review on signal-by-wire and power-by-wire actuation for more electric aircraft 被引量:25
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作者 Jean-Charles MAR Jian FU 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2017年第3期857-870,共14页
The huge and rapid progress in electric drives offers new opportunities to improve the performances of aircraft at all levels:fuel burn,environmental footprint,safety,integration and production,serviceability,and mai... The huge and rapid progress in electric drives offers new opportunities to improve the performances of aircraft at all levels:fuel burn,environmental footprint,safety,integration and production,serviceability,and maintainability.Actuation for safety-critical applications like flight-controls,landing gears,and even engines is one of the major consumers of non-propulsive power.Conventional actuation with centralized hydraulic power generation and distribution and control of power by throttling has been well established for decades,but offers a limited potential of evolution.In this context,electric drives become more and more attractive to remove the natural drawbacks of conventional actuation and to offer new opportunities for improving performance.This paper takes the stock,at both the signal and power levels,of the evolution of actuation for safety-critical applications in aerospace.It focuses on the recent advances and the remaining challenges to be taken toward full electrical actuation for commercial and military aircraft,helicopters,and launchers.It logically starts by emphasizing the specificity of safety-critical actuation for aerospace.The following section addresses in details the evolution of aerospace actuation from mechanically-signaled and hydraulically-supplied to all electric,with special emphasis on research and development programs and on solutions entered into service.Finally,the last section reviews the challenges to be taken to generalize the use of all-electric actuators for future aircraft programs. 展开更多
关键词 Actuator Aerospace Electrohydrostatic Electromechanical Hydraulic More electric aircraft Power-by-wire Signal-by-wire
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Electrical actuation and shape recovery control of shape-memory polymer nanocomposites
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作者 Fei Liang Robert Sivilli +2 位作者 Jihua Gou Yunjun Xu Bob Mabbott 《International Journal of Smart and Nano Materials》 SCIE EI 2013年第3期167-178,共12页
Shape-memory polymers(SMPs)are one of the most popular smart materials due to their light weight and high elastic deformation capability.The synergistic effect of carbon nanofiber(CNF)and carbon nanofiber paper(CNFP)o... Shape-memory polymers(SMPs)are one of the most popular smart materials due to their light weight and high elastic deformation capability.The synergistic effect of carbon nanofiber(CNF)and carbon nanofiber paper(CNFP)on the electro-actuation of SMP nanocomposites was studied.The electrical conductivity of SMPs was significantly improved by incorporating CNF and CNFP into them.The dynamic mechanical analysis result reveals good thermal stability of SMP nanocomposites even after they were mixed with CNFs.A vision-based control system is designed to precisely control the shape recovery of SMP composites.Any quasi-state shape between the permanent shape and a temporary shape can be achieved by adjusting the electrical energy input.Experimental results demonstrated that(1)compared with the baseline material,the full recovery time of the SMP nanocomposites was decreased by 1000%to less than 80 s;(2)a good repeatability was shown in the developed vision system in 10 experimental trials and the accuracy of the controlled deflection angle of SMPs was within a 5%error bound. 展开更多
关键词 shape control electrical actuation shape-memory polymer carbon nanofiber paper
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A high precision profilometer based on vertical scanning microscopic interferometry
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作者 戴蓉 谢铁邦 +1 位作者 龚文 常素萍 《Journal of Shanghai University(English Edition)》 CAS 2008年第3期255-260,共6页
A profilometer used for 3 dimension measurement of micro-surface topography is presented. The instrument is based on the vertical scanning microscopic interferometry (VSMI). A Linnik type interference microscope is ... A profilometer used for 3 dimension measurement of micro-surface topography is presented. The instrument is based on the vertical scanning microscopic interferometry (VSMI). A Linnik type interference microscope is used and the interferograms which present changes of surface profile are recorded with a CCD camera. A developed nano-positioning work stage with an integrated optical grating displacement measuring system realizes the precise vertical scanning motion during profile measurement. By a white-light phase shifting algorithm of arbitrary step, frames of interferograms are processed by a computer to rebuild and evaluate the measured profile. Because of the specialty of VSMI, the profilometer is suitable for both smooth and rough surface measurement. It can also be used to measure curved surfaces, dimension of micro electro mechanical systems (MEMS), etc. The vertical resolution of the profilometer is 0.5 nm, and lateral resolution 0.5 μm. 展开更多
关键词 PROFILOMETER vertical scanning microscopic interferometry (VSMI) interference microscope work stage piezo- electric (PZT) actuator flexural hinge
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Electrically driven chip cooling device using hybrid coolants of liquid metal and aqueous solution 被引量:8
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作者 TAN SiCong ZHOU YiXin +1 位作者 WANG Lei LIU Jing 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2016年第2期301-308,共8页
Heat dissipation of electronic devices keeps as a tough issue for decades. As the most classical coolant in a convective heat transfer process, water has been widely adopted which however inherits with limited thermal... Heat dissipation of electronic devices keeps as a tough issue for decades. As the most classical coolant in a convective heat transfer process, water has been widely adopted which however inherits with limited thermal conductivity and relies heavily on mechanical pump. As an alternative, the room temperature liquid metal was increasingly emerging as an important coolant to realize much stronger enhanced heat transfer. However, its thermal capacity is somewhat lower than that of water, which may restrict the overall cooling performance. In addition, the high cost by taking too much amount of liquid metal into the device also turns out to be a big concern for practical purpose. Here, through combining the individual merits from both the liquid metal with high conductivity and water with large heat capacity, we proposed and demonstrated a new conceptual cooling de- vice that integrated hybrid coolants, radiator and annular channel together for chip thermal management. Particularly, the elec- trically induced actuation effect of liquid metal was introduced as the only flow driving strategy, which significantly simplified the whole system design. This enables the liquid metal sphere and its surrounding aqueous solution to be quickly accelerated to a large speed under only a very low electric voltage. Further experiments demonstrated that the cooling device could effective- ly maintain the temperature of a hotpot (3.15 W/cm2) below 55℃ with an extremely small power consumption rate (0.8 W). Sev- eral situations to simulate the practical working of the device were experimentally explored and a theoretical thermal resistance model was established to evaluate its heat transfer performance. The present work suggests an important way to make highly compact chip cooling device, which can be flexibly extended into a wide variety of engineering areas. 展开更多
关键词 chip cooling liquid metal hybrid coolants electrically induced actuation thermal management aqueous solution
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Lateral stability region conservativeness estimation and torque distribution for FWIA electric vehicle steering 被引量:5
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作者 YIN Guo Dong JIN Xian Jian +1 位作者 QING Zhi Yong BIAN Chen Tong 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2015年第4期669-676,共8页
Estimation of the lateral stability region and torque distribution on steering is very important to improve stability in lateral handling for all wheel drive electric vehicles.Based on the built-nonlinear vehicle dyna... Estimation of the lateral stability region and torque distribution on steering is very important to improve stability in lateral handling for all wheel drive electric vehicles.Based on the built-nonlinear vehicle dynamic model,the lateral stability region of the vehicle related to steering is estimated using Lyapunov function.We obtained stable equilibrium points of non-straight driving according to the estimated lateral stability region and also reconstructed the Lyapunov function matrix,which proved that the closed-loop system composed of yaw rate and lateral velocity is satisfied with negative definite property.In addition,the designed controller dynamically allocates the drive torque in terms of the vertical load and slip rate of the four wheels.The simulation results show that the estimated lateral stability region and the designed controller are satisfactory in handling stability performance against different roads and vehicle parameters. 展开更多
关键词 four-wheel independently actuated electric vehicle torque distribution vehicle steering stability region estimation
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Electrically Actuated Shape Recovery of NiTi Components Processed by Laser Powder Bed Fusion after Regulating the Dimensional Accuracy and Phase Transformation Behavior 被引量:1
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作者 Luhao Yuan Dongdong Gu +6 位作者 Kaijie Lin He Liu Jianfeng Sun Jiankai Yang Xin Liu Wei Chen Yingjie Song 《Chinese Journal of Mechanical Engineering(Additive Manufacturing Frontiers)》 2022年第4期100-111,共12页
To develop self-recovery intelligent components based on resistance heating and obtain satisfactory performance in practical applications,this study optimized the forming quality,dimensional accuracy,and phase transfo... To develop self-recovery intelligent components based on resistance heating and obtain satisfactory performance in practical applications,this study optimized the forming quality,dimensional accuracy,and phase transformation temperatures of Nickel-titanium(NiTi)alloys by controlling the process parameters.The tensile properties and shape-memory effects of the NiTi alloys prepared using the optimized process were clarified.The relationship between the change in temperature and the shape recovery process of the deformed structure under electrical excitation was investigated.The results show that the suitable processing window for ensuring the forming quality without noticeable distortion and macro cracks depends on the laser parameters.In both the X and Y directions,the measured dimensions increased with an increase in laser power and first decreased and then stabilized with an increase in scanning speed.The XRD results showed that all the as-built samples consisted of B2 austenite and B19’martensite phases and Ni3Ti.Mechanical tests suggested that excellent tensile properties with a tensile strength of 753.28 MPa and elongation of 6.81%could be obtained under the optimal parameters of 250 W and 1200 mm/s.An excellent shape-recovery rate of 88.23%was achieved under the optimal parameters.Subsequently,chiral lattice structures were successfully fabricated by laser powder bed fusion(LPBF)under the optimal parameters,and a shape-recovery rate of 96.7%was achieved under electrical actuation for a structure with a pre-compressed strain of 20%.This study also found that the temperatures at the grasp regions were always higher than those at other positions because of the generation of contact resistance at the grasp regions.This facilitates the rapid recovery of the structure at the grasp regions,which has important implications for the design iteration of NiTi smart components. 展开更多
关键词 Additive manufacturing(AM) Laser powder bed fusion(LPBF) NiTi alloys Processing window Shape-memory effects electrical actuation
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Simultaneously improved actuated performance and mechanical strength of silicone elastomer by reduced graphene oxide encapsulated silicon dioxide 被引量:2
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作者 Nanying Ning Minglu Wang +2 位作者 Jing Zhang Liqun Zhang Ming Tian 《International Journal of Smart and Nano Materials》 SCIE EI 2015年第4期251-267,共17页
Herein,graphene oxide(GO)-encapsulated silica(SiO 2)hybrids(GO@SiO 2)were prepared via electrostatic self-assembly of the 3-aminopropyltriethoxysilane(APS)-modified SiO_(2) and GO.The as-prepared GO@SiO 2 was introduc... Herein,graphene oxide(GO)-encapsulated silica(SiO 2)hybrids(GO@SiO 2)were prepared via electrostatic self-assembly of the 3-aminopropyltriethoxysilane(APS)-modified SiO_(2) and GO.The as-prepared GO@SiO 2 was introduced into polydimethyl-siloxane(PDMS)elastomer to simultaneously increase the dielectric constant(k)and mechanical properties of PDMS.Then,the in situ thermal reduction of GO@SiO_(2)/PDMS composites was conducted at 180℃ for 2 h to increase the interfacial polariz-ability of GO@SiO_(2).As a result,the values of k at 1000 Hz are largely improved from 3.2 for PDMS to 13.3 for the reduced GO@SiO_(2)(RGO@SiO_(2))/PDMS elastomer.Meanwhile,the dielectric loss of the composites remains low(<0.2 at 1000 Hz).More importantly,the actuated strain at low electric field(5 kV/mm)obviously increases from 0.3%for pure PDMS to 2.59%for the composites with 60 phr of RGO@SiO_(2),an eightfold increase in the actuated strain.In addition,both the tensile strength and elastic modulus are obviously improved by adding 60 phr of RGO@SiO_(2),indicating a good reinforcing effect of RGO@SiO_(2) on PDMS.Our goal is to develop a simple and effective way to improve the actuated performance and mechanical strength of the PDMS dielectric elastomer for its wider application. 展开更多
关键词 graphene oxide(GO)-encapsulated silica(SiO_(2))hybrids electrostatic self-assembly polydimethylsiloxane(PDMS)elastomer dielectric constant(k)and mechanical properties actuated strain at low electric field
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