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Quantitative measurement of the charge carrier concentration using dielectric force microscopy
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作者 赖君奇 陈博文 +4 位作者 邢志伟 李雪飞 陆书龙 陈琪 陈立桅 《Chinese Physics B》 SCIE EI CAS CSCD 2023年第3期449-455,共7页
The charge carrier concentration profile is a critical factor that determines semiconducting material properties and device performance.Dielectric force microscopy(DFM)has been previously developed to map charge carri... The charge carrier concentration profile is a critical factor that determines semiconducting material properties and device performance.Dielectric force microscopy(DFM)has been previously developed to map charge carrier concentrations with nanometer-scale spatial resolution.However,it is challenging to quantitatively obtain the charge carrier concentration,since the dielectric force is also affected by the mobility.Here,we quantitative measured the charge carrier concentration at the saturation mobility regime via the rectification effect-dependent gating ratio of DFM.By measuring a series of n-type GaAs and GaN thin films with mobility in the saturation regime,we confirmed the decreased DFM-measured gating ratio with increasing electron concentration.Combined with numerical simulation to calibrate the tip–sample geometry-induced systematic error,the quantitative correlation between the DFM-measured gating ratio and the electron concentration has been established,where the extracted electron concentration presents high accuracy in the range of 4×10^(16)–1×10^(18)cm^(-3).We expect the quantitative DFM to find broad applications in characterizing the charge carrier transport properties of various semiconducting materials and devices. 展开更多
关键词 dielectric force microscopy charge carrier concentration quantitative measurement numerical simulation
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Train wheel-rail force collaborative calibration based on GNN-LSTM
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作者 Changfan Zhang Zihao Yu Lin Jia 《High-Speed Railway》 2024年第2期85-91,共7页
Accurate wheel-rail force data serves as the cornerstone for analyzing the wheel-rail relationship.However,achieving continuous and precise measurement of this force remains a significant challenge in the field.This a... Accurate wheel-rail force data serves as the cornerstone for analyzing the wheel-rail relationship.However,achieving continuous and precise measurement of this force remains a significant challenge in the field.This article introduces a calibration algorithm for the wheel-rail force that leverages graph neural networks and long short-term memory networks.Initially,a comprehensive wheel-rail force detection system for trains was constructed,encompassing two key components:an instrumented wheelset and a ground wheel-rail force measuring system.Subsequently,utilizing this system,two distinct datasets were acquired from the track inspection vehicle:instrumented wheelset data and ground wheel-rail force data,a feedforward neural network was employed to calibrate the instrumented wheelset data,referencing the ground wheel-rail force data.Furthermore,ground wheel-rail force data for the locomotive was obtained for the corresponding road section.This data was then integrated with the calibrated instrumented wheelset data from the track inspection vehicle.Leveraging the GNN-LSTM network,the article establishes a mapping relationship model between the wheel-rail force of the track inspection vehicle and the locomotive wheel-rail force.This model facilitates continuous measurement of locomotive wheel-rail forces across three typical scenarios:straight sections,long and steep downhill sections,and small curve radius sections. 展开更多
关键词 RAILWAY Wheel-rail force Deep learning Instrumented wheelset Ground wheel-rail force measuring system
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Cutting force measurement based on tool embedded Ni-chrome thin-film micro-sensors
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作者 武文革 成云平 杜晓军 《Journal of Measurement Science and Instrumentation》 CAS 2014年第4期16-19,共4页
Cutting force measurement has become a crucial activity for enhancing machining process performance. This paper described the design and fabrication of embedded Ni-chrome thin-film micro-sensors in tool holders to mea... Cutting force measurement has become a crucial activity for enhancing machining process performance. This paper described the design and fabrication of embedded Ni-chrome thin-film micro-sensors in tool holders to measure the cutting force in machining operations. A Ni-chrome thin-film sensor device is embedded within a substrate structure through a dy- namic brazing process, which consists of a Ti6A14V substrate, a nickel-chromium thin-film sensor and an alumina insulating layer. The Wheatstone bridge which consists of four sensors would produce the output voltage when the thin film caused de- formation by the cutting forces. The relationship between input and output voltages was theoretically analyzed. According- ly, an in-process cutting force measurement system is established. The results show that the thin-film sensor had good lineari- ty and less mutual interference, and it is suitable for all kinds of turning forces under the measurement conditions. 展开更多
关键词 thin-film micro-sensor cutting force measurement theoretical analysis
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NEW QUALITY PRODUCTIVE FORCES SPUR GLOBAL DEVELOPMENT
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作者 Yu Yunquan 《China Report ASEAN》 2024年第8期78-80,共3页
The third plenary session of the 20th Central Committee of the Communist Party of China(CPC)in July was in the global spotlight for the reform measures it proposed to advance Chinese modernization.The plenum decided t... The third plenary session of the 20th Central Committee of the Communist Party of China(CPC)in July was in the global spotlight for the reform measures it proposed to advance Chinese modernization.The plenum decided to improve the institutions and mechanisms for fostering new quality productive forces in line with local conditions and pinpointed the key areas. 展开更多
关键词 measures FORCES productive
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Measurement of forces generated during distraction of growing-rods in early onset scoliosis 被引量:1
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作者 Marco Teli Giuseppe Grava +3 位作者 Victor Solomon Giuseppe Andreoletti Emanuele Grismondi Jay Meswania 《World Journal of Orthopedics》 2012年第2期15-19,共5页
AIM: To measure the forces applied during distraction of growing-rods in early onset scoliosis(EOS), aimed at developing a motorized elongation device.METHODS: A consecutive series of measurements were carried out to ... AIM: To measure the forces applied during distraction of growing-rods in early onset scoliosis(EOS), aimed at developing a motorized elongation device.METHODS: A consecutive series of measurements were carried out to analyze the forces applied by the surgeon during distraction of single growing-rods in 10 patients affected by EOS(mean age 8.3 years; range 6 to 10 years) undergoing the first distraction 6 months following implantation of the rods. For each measurement, output from the transducer of a dedicated pair of distraction calipers was recorded at zero load status and at every 1 mm of distraction, up to a maximum of 12 mm for each of the two connected rods.RESULTS: Twenty measurements were obtained showing a linear increase of the load with increasing distraction, with a mean peak force of 485 N at 12 mm distraction and a single reading over 500 N. We did not observe bone fractures or ligament disruptions during or after rod elongations. There was one case of superficial wound infection in the cohort.CONCLUSION: The safe peak force carrying capacity of a motorized device for distraction of growing-rods is 500 N. 展开更多
关键词 Early onset SCOLIOSIS SPINAL DEFORMITY Growing-rods SPINAL elongation Force measurement
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Environmental temperature effect on dimensional measurements of atomic force microscopy 被引量:1
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作者 Chengfu Ma Yuhang Chen Wenhao Huang 《Nanotechnology and Precision Engineering》 CAS CSCD 2021年第2期20-24,共5页
Atomic force microscopy(AFM)is increasingly being used as a fundamental tool for dimensional measurements at the nanoscale in the laboratory and in industry.Since the environmental temperature is not controlled in man... Atomic force microscopy(AFM)is increasingly being used as a fundamental tool for dimensional measurements at the nanoscale in the laboratory and in industry.Since the environmental temperature is not controlled in many measurements,or is even varied on purpose,quantification of its effects on AFM dimensional measurements is needed.In this paper,the influences of the temperature in the entire environment of the AFM(excluding only the controller and computer)and that in the local environment around the tip–sample are investigated.The results show that lateral dimensional measurements are affected mainly by the entire environmental temperature.However,vertical measurements are influenced by the temperature of both the entire environment and the local environment.The effects become significant for temperatures higher than some threshold,here between 35 and 40 XC. 展开更多
关键词 Atomic force microscopy Environmental temperature Dimensional measurement PITCH HEIGHT
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Measurement of Forces and Torques during Non-Homogeneous Material Drilling Operation 被引量:2
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作者 Mohd Hazny Aziz Muhammad Azmi Ayub Roseleena Jaafar 《Journal of Mechanics Engineering and Automation》 2011年第2期139-146,共8页
The purpose of this study is to measure the forces and torques produced in the drilling process of a non-homogenous material (bone). An automated 5 DoF CataLyst-5 robot is used during the drilling process and it is ... The purpose of this study is to measure the forces and torques produced in the drilling process of a non-homogenous material (bone). An automated 5 DoF CataLyst-5 robot is used during the drilling process and it is integrated to a 6 DoF force-torque sensor. A force-torque controller which is built in the Matlab Simulink environment is employed to control the drilling process of the bone. Different feed rate is used during the experimental process of the bone drilling operation. The sensor is calibrated to measure the tri-axial direction of the resultant forces and torques. The profiles of the forces and torques obtained are non-linear due to the diversity of the bone density. The profiles generated also indicated fluctuation in the interface layers of the bone. 展开更多
关键词 Robotic assisted surgery bone drilling tri-axial force and torque measurement.
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An Application of Force Sensor to Impact Measurement
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作者 李邦宜 邓樱 +1 位作者 王莉 申杰 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 1995年第1期19-23,共5页
AnApplicationofForceSensortoImpactMeasurement¥(李邦宜)(邓樱)(王莉)(申杰LIBangyi;DENGYing;WANGLi;SHENJie(MeasurementCe... AnApplicationofForceSensortoImpactMeasurement¥(李邦宜)(邓樱)(王莉)(申杰LIBangyi;DENGYing;WANGLi;SHENJie(MeasurementCenter,HarbinInstit... 展开更多
关键词 ss: PIEZOELECTRIC FORCE TRANSDUCER IMPACT FORCE MEASUREMENT
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Analysis of Photoelectric Hybridization Measurement on Shearing Force for Flat Shearer
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作者 QU Zhi Hao 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 1995年第1期41-46,共6页
This paper introduces a kind of photoelectric hybridization measuring process.Owing to the characteristics of the compact form of shearing equipment to be analyzed and the connecting rod existing in two directional st... This paper introduces a kind of photoelectric hybridization measuring process.Owing to the characteristics of the compact form of shearing equipment to be analyzed and the connecting rod existing in two directional stress state during operation etc.,it is hard to obtain results by means of single electrical testing process.For this reason,this paper derives a group of calculation formulas of hybridization measuring process through comprehensive discussion of photoelectric analysis and electrical testing theories,thus providing an analytical method for actual measurement of complex engineering problems. 展开更多
关键词 shearing force photoelectric hybridization measurement calibration similarity
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FORCE FEEDBACK MODEL OF ELECTRO-HYDRAULIC SERVO TELE-OPERATION ROBOT BASED ON VELOCITY CONTROL
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作者 GONG Mingde ZHAO Dingxuan ZHANG Hongyan JIA Cuiling 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2008年第6期1-5,共5页
The tele-operation robotic system which consists of an excavator as the construction robot, and two joysticks for operating the robot from a safe place are useful for performing restoration in damaged areas. In order ... The tele-operation robotic system which consists of an excavator as the construction robot, and two joysticks for operating the robot from a safe place are useful for performing restoration in damaged areas. In order to accomplish a precise task, the operator needs to feel a realistic sense of task force brought about from a feedback force between the fork glove of slave robot and unfamiliar environment. A novel force feedback model is proposed based on velocity control of cylinder to determine environment force acting on fork glove. Namely, the feedback force is formed by the error of displacement of joystick with velocity and driving force of piston, and the gain is calculated by the driving force and threshold of driving force of hydraulic cylinder. Moreover, the variable gain improved algorithm is developed to overcome the defect for grasping soft object. Experimental results for fork glove freedom of robotic system are provided to demonstrate the developed algorithm is available for grasping soft object. 展开更多
关键词 Construction robot Tele-operation Bilateral electro-hydraulic servo control Velocity control Force feedback model
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An appraisal of techniques and equipment for cutting force measurement
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作者 AUDY J. 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2006年第11期1781-1789,共9页
Current research focussed on the assessment of metal machining process parameters and on the development of adaptive control, shows that machine performance, work-piece and tool material selections, tool life, quality... Current research focussed on the assessment of metal machining process parameters and on the development of adaptive control, shows that machine performance, work-piece and tool material selections, tool life, quality of machined surfaces, the geometry of cutting tool edges, and cutting conditions are closely related to the cutting forces. This information is of great interest to cutting tool manufactures and users alike. Over the years there have been significant developments and improvements in the equipment used to monitor such forces. In 1930 mechanical gauges were replaced by resistance strain gauges, and some 30 years later compact air gauge dynamometers were invented. Since this time intensive research has continued being directed to- wards developing new approaches to cutting force measurement. The Kistler Company, well-known manufacturer of acceleration and piezoelectrical dynamometers, has worked in this field for more than three decades, and developed very sensitive devices. While leading manufacturing research laboratories are often equipped with this technology, classical electrical strain gauges and other dynamometers of individual designs are still commonly used in industry. The present paper presents data obtained using different techniques of force measurement in metal machining processes. In particular, areas of uncertainties, illustrated through results concerning the turning process, are analysed, leading to an appraisal of the current status of these measurements and their significance. 展开更多
关键词 Cutting force measurement Frequency analysis Piezocrystals Strain gauges Error sources
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Wheel/rail-force–based maintenance interval extension of the C80 series wagon
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作者 Qi Xiao Weidong Yu +1 位作者 Guangrong Tian Fangxuan Li 《Railway Sciences》 2023年第4期514-524,共11页
Purpose–This study aims to introduce the achievements and benefits of applying wheel/rail-force–based maintenance interval extension of the C80 series wagon in China.Design/methodology/approach–Chinese wagons’exis... Purpose–This study aims to introduce the achievements and benefits of applying wheel/rail-force–based maintenance interval extension of the C80 series wagon in China.Design/methodology/approach–Chinese wagons’existing maintenance strategy had left a certain safety margin for the characteristics of widely running range,unstable service environment and submission to transportation organization requirements.To reduce maintenance costs,China railway(CR)has attempted to extend the maintenance interval since 2020.The maintenance cycle of C80 series heavy haul wagons is extended by three months(no stable routing)or 50,000 km(regular routing).However,in the meantime,the alarming rate of the running state,a key index to reflect the severe degree of hunting stability,by the train performance detection system(TPDS)for the C80 series heavy haul wagons has increased significantly.Findings–The present paper addresses a big data statistical way to evaluate the risk of allowing the C80 series heavy haul wagons to remain in operation longer than stipulated by the maintenance interval initial set.Through the maintenance and wayside-detectordata,whichis divided intothreestages,the extension period(three months),the current maintenance period and the previous maintenance period,this method reveals the alarming rate of hunting was correlated with maintenance interval.The maintainability of wagons will be achieved by utilizing wagon performance degradation modeling with the state of the wheelset and the often-contact side bearing.This paper also proposes a statistical model to return to the average safety level of the previous maintenance period’s baseline through correct alarming thresholds for unplanned corrective maintenance.Originality/value–The paper proposes an approach to reduce safety risk due to maintenance interval extension by effective maintenance program.The results are expected to help the railway company make the optimal solution to balance safety and the economy. 展开更多
关键词 Full-continuous wheel–rail force measurement TPDS Shattered rim HUNTING C80 series heavy haul wagons Maintainability
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An experimental study:Integration device of Fiber Bragg grating and reinforced concrete beam for measuring debris flow impact force 被引量:5
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作者 ZHANG Shao-jie CHEN Jiang 《Journal of Mountain Science》 SCIE CSCD 2017年第8期1526-1536,共11页
The impact effect of boulder within debris flow is the key factor contributing to peak impact as well as to the failure of debris flow control work. So accurate measuring and calculating the impact force of debris flo... The impact effect of boulder within debris flow is the key factor contributing to peak impact as well as to the failure of debris flow control work. So accurate measuring and calculating the impact force of debris flow can ensure the engineering design strength. However, limited to the existing laboratory conditions and piezoelectric sensor performance, it is impossible, based on the conventional measurements, to devise a computing method for expressing a reliable boulder impact force. This paper has therefore designed a new measurement device according to the method of integrating Fiber Bragg grating(FBG) and reinforced concrete composite beam(RCB) for measuring the impact force of debris flows, i.e. mounting FBG on the axially stressed steel bar in the composite beam at regular intervals to monitor the steel strain. RCB plays the role of contacting debris flow and protecting FBG sensors. Taking this new device as the experimental object, drop testing is designed for simulating and reflecting the boulder impact force. In a series of impacting tests, the relationship between the peak dynamic strain value of the steel bar and the impact force is analyzed, and based on which, an inversion model that uses the steel bar strain as the independent variable is established for calculating the boulder impact force.The experimental results show that this new inversion model can determine the impact force value and its acting position with a system error of 18.1%, which can provide an experimental foundation for measuring the impact force of boulders within the debris flow by the new FBG-based device. 展开更多
关键词 Fiber BRAGG GRATING Measurementdevice DEBRIS flow BOULDER Impact force
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Wireless measurement of orthodontic forces in invisible aligners
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作者 Siyu Wang Bingxin Xu +7 位作者 Xiaokang Wang Xinfang Li Bangzheng Pu Gui Chen Jianmin Han Shengzhao Xiao Yubo Fan Jiebo Li 《Medicine in Novel Technology and Devices》 2024年第1期64-70,共7页
Invisible orthodontic treatment is an effective form of malocclusion treatment favored in recent years.The magnitude of its orthodontic force has a crucial impact on the outcome of the treatment and has gained a high ... Invisible orthodontic treatment is an effective form of malocclusion treatment favored in recent years.The magnitude of its orthodontic force has a crucial impact on the outcome of the treatment and has gained a high level of clinical interest.However,there are very few explorations of in vivo measurements of orthodontic force,and existing studies are limited to a large number of couplings,which are inconvenient for clinical use.In this work,we developed a wireless flexible measurement system that allows quantitative measurement of the orthodontic force of an invisible aligner on a dental model.The system is wireless,tiny,flexible,fast responding,and has a range suitable for the range of orthodontic forces.We show the difference in the orthodontic force applied to different tooth positions and the difference in the orthodontic force applied to different positions of the same tooth.In addition,the system can evaluate the mechanical differences between aligners of different brands and materials as well as the deviation of fabrication results.This system provides a test tool and evaluation method for future real-time assessment of clinical orthodontic forces. 展开更多
关键词 Orthodontic forces Wireless measurement systems Flexible sensors Invisible orthodontics Performance evaluation Quantitative measurements
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Enhancing force sensing in a squeezed optomechanical system with quantum nondemolition measurement
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作者 Shi-Lei Chao Zi-Hao Li Xin-You Lü 《Communications in Theoretical Physics》 SCIE CAS CSCD 2024年第1期49-60,共12页
A theoretical scheme is proposed to enhance the sensitivity of force sensors with quantum nondemolition measurement(QND)in an optomechanical setup assisted by four-tone optical driving and an optical parametric amplif... A theoretical scheme is proposed to enhance the sensitivity of force sensors with quantum nondemolition measurement(QND)in an optomechanical setup assisted by four-tone optical driving and an optical parametric amplifier(OPA).With the help of special drive,the system can be simplified as the typical type of QND for force sensing,so that the backaction noise can be evaded to surpass the standard quantum limit.Besides,the added noise can be suppressed owing to the modified optical susceptibility resulting from the OPA.By introducing two oscillators coupling with two charged bodies respectively,the signal can be enhanced with the nonlinearity caused by Coulomb interaction,while the noise presents an exponential decrease.Moreover,considering the homodyne detection effect,the range of system parameters and frequency bands will be broadened.The present investigation may provide a route toward simultaneously evading backaction noise,reducing the mechanical thermal noise,and enhancing the external signal,which can be an alternative design for sensitive devices. 展开更多
关键词 force sensing optical parametric amplifier quantum non-demolition measurement optomechanical system
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Numerical simulation and parameter optimization of Coriolis force scale measurement process based on DEM
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作者 Haiting Liu Yong Yang +2 位作者 Xiangliang Wang Jiewen Deng Bingbing Wang 《Particuology》 SCIE EI CAS CSCD 2024年第7期128-139,共12页
The Coriolis force method is a recently developed and highly regarded direct measurement technique that enables high-precision measurement of bulk materials.The operational parameters and variations thereof directly i... The Coriolis force method is a recently developed and highly regarded direct measurement technique that enables high-precision measurement of bulk materials.The operational parameters and variations thereof directly influence the measurement accuracy of the equipment.In this study,a measurement correction coefficient is introduced to improve the calculation method for mass flow rate of the materials.The DEM is employed to simulate the motion of particle groups within the Coriolis force scale under different parameters,and the effects of various structural and operational parameters on the measurement results are compared.The research findings indicate that a lower rotational speed leads to more stable instantaneous measurement results,although the measurement error is relatively large.When the rotational speed exceeds 300 rpm,the measurement error remains within 15%.For materials with a radius of 1–2 mm,the variation range of precision error is approximately 0.4%.Among the structural parameters,the radius of the measurement wheel has the most significant impact on the measurement results,wherein a larger measurement wheel radius corresponds to a smaller measurement error.The horizontal angle of the blades follows as the next influential parameter,with a clockwise rotation and a horizontal angle of 30°resulting in a measurement error below 2%. 展开更多
关键词 Parameter optimization Discrete element method Coriolis force scale Measurement error Numerical simulation
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AN OPTICAL FIBRE SENSOR BASED CUTTING FORCE MEASURING DEVICE
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作者 Jin Wenling Wang Xin(Department of Mdchanical Engineering,NUAA29 Yudao Street,Nanjing 210016,P.R.China) 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI 1994年第1期114-117,共4页
A cutting force measuring device is developed which is composed of a common tool shank and an optical fibre sensor. The sensor is mounted at the rear of the shank and the deformation of the shank caused by cutting for... A cutting force measuring device is developed which is composed of a common tool shank and an optical fibre sensor. The sensor is mounted at the rear of the shank and the deformation of the shank caused by cutting force is detected as the measurement of cutting force. The device possesses good adaptability to workshop conditions as well as satisfying static and dynamic performances. 展开更多
关键词 OPTICAL fibres SENSORS CUTTING FORCE MEASUREMENT
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Research and test of the measurement sensing device for the downforce of no-till planter row unit gauge wheels
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作者 Jiajie Shang Liyi Liu +4 位作者 Ruifeng Zhang Hongcheng Li Shouyin Hou Hongxin Liu Haitao Chen 《International Journal of Agricultural and Biological Engineering》 SCIE 2024年第2期250-259,共10页
To effectively obtain the downforce of the gauge wheels in real time,mechanical models of the interaction among the ground,gauge wheels,gauge wheel arms,and depth adjustment lever were constructed.A measuring method w... To effectively obtain the downforce of the gauge wheels in real time,mechanical models of the interaction among the ground,gauge wheels,gauge wheel arms,and depth adjustment lever were constructed.A measuring method was proposed for monitoring the downforce through a two-dimensional radial sensing device,and a corresponding prototype was designed.Through simulation analysis of the sensing device with ANSYS,a 45°angle was determined to exist between the strain gauge axis and the sensing device axis,and the Wheatstone bridging circuit of R1+R3−R5−R7(R stands for resistance strain gauge,different figures represent the strain gauge number)and R2+R4−R6−R8 was adopted.According to performance and calibration tests for the sensing device,the maximum interaction effect between the X and Y axes was 2.52%,and the output signal was stable and consistent.The standard error of the slope of the fitting equation of the downforce calculation model is 0.008.According to the field test,the average downforce of the gauge wheels was 1148,1017,843,and 713 N,at different sowing speeds of 6,8,10,and 12 km/h,respectively.The coefficients of variation were 0.40,0.41,0.62,and 0.71,respectively.The results indicate that the downforce fluctuation of the gauge wheels became more severe with increasing planting speed.Both the strain simulation analysis and field test verified that the measurement method is accurate and reliable,the performance of the sensing device is stable,the measurement method and sensing device meet the application requirements and lay a foundation for the research of accurate and stable control of downforce of no-till planter. 展开更多
关键词 no-till planter gauge wheel downforce two-dimensional radial force sensing device strain analysis measurement mode and method
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A New Study to Compensate Dynamic Measuring Error of Serial Multiple Degree of Freedom(DOF) Strain Gauge Force Sensor
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作者 才海男 蒋作民 +1 位作者 强锡富 陈军 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 1995年第4期13-17,共5页
ANewStudytoCompensateDynamicMeasuringErrorofSerialMultipleDegreeofFreedom(DOF)StrainGaugeForceSensorCAIHaina... ANewStudytoCompensateDynamicMeasuringErrorofSerialMultipleDegreeofFreedom(DOF)StrainGaugeForceSensorCAIHainan;JIANGZuomin;QIA... 展开更多
关键词 ss: SENSOR measurement DYNAMIC FORCE ERROR compensation
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Design and research of measuring system of clamping force of hemostats
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作者 Huifang Wang Shuyi Wang +1 位作者 Ying Zhou Jie Tan 《Journal of Biomedical Science and Engineering》 2010年第9期927-930,共4页
Reliability of medical instruments such as hemostats is extremely important because these instruments are used in patients who are in critical condition. Clamping force of hemostats, as an important parameter of hemos... Reliability of medical instruments such as hemostats is extremely important because these instruments are used in patients who are in critical condition. Clamping force of hemostats, as an important parameter of hemostats, should be detected. However, it could not be tested directly. In order to test it, a testing system has been put forward. The system is comprised of sensor, acquisition card, and three-way tap and so on. This system is controlled by a computer. The testing system has been proved to be effective in testing the clamping force of hemostats. 展开更多
关键词 HEMOSTAT CLAMPING FORCE MEASURING SYSTEM
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