Your search keyword '"BUSHINGS"' showing total 697 results

1. Enhanced error correction for adaptive electrochemical machining of eccentric bushings.

Author

Zhang, Zhixin, Fan, Shuangjiao, Li, Jingdong, Zhu, Xiaofei, Xu, Yunchao, Wang, Jikun, and Pang, Guibing

Subjects

*ELECTROCHEMICAL cutting, *BUSHINGS, *ECCENTRICS (Machinery), *MACHINING, *PROBLEM solving

Abstract

Aiming at the difficult problem that the ability of ECM error correction is limited by the noncontact machining mechanism and the change of machining gap is difficult to be measured in real time, a method is proposed to realize the enhanced adaptive correction of radial circular runout error by online voltage regulation so as to realize the improvement of the efficiency of the correction of ECM error under the conditions of smaller removal amount and normal machining gap. Taking the eccentricity error of the eccentric bushing parts as the radial circular runout error, adopting the equivalent resistance between poles (real-time voltage/real-time current) to indicate the machining gap, and taking the change of the equivalent resistance as the basis for real-time voltage adjustment, the mathematical model for the correction of the radial circular runout error is established. Comparison experiments between enhanced adaptive machining and constant pressure machining are carried out to verify the effectiveness of enhanced adaptive machining in correcting radial circular runout error. The efficiency of radial circular runout error correction by enhanced adaptive machining is improved by 60.0%, and the average workpiece removal is saved by about 40.7% compared to constant pressure machining at the same time. The experimental results of radial circular runout error after machining are in accordance with the expected results of the mathematical model. Through mathematical modeling and experimental research, it is confirmed that regulating the machining voltage to achieve enhanced adaptive correction of radial circular runout error can effectively improve the error correction accuracy and efficiency of difficult-to-machine rotary parts, and it is an effective method to solve the problem of radial circular runout error correction of eccentric parts. [ABSTRACT FROM AUTHOR]

Published

2024

2. Complexity index of axisymmetric parts in the forging process based on variation in geometric changes.

Author

Cao, Minye, Hu, Chengliang, Cai, Baixuan, Zhao, Zhen, Zhuang, Xiaowei, and Zhang, Chunxiao

Subjects

*FRACTAL dimensions, *FRACTAL analysis, *GEOMETRIC shapes, *DIES (Metalworking), *BUSHINGS

Abstract

A novel complexity index for axisymmetric forged components in forging processes is introduced based on their overall geometric shape and degree of deformation. This approach involves extracting the circumferential section area of axisymmetric forgings, characterizing the variation in this geometric feature using fractal dimension analysis, and calculating the area ratio between the cross-section and circumscribing rectangle of the forging. To verify this approach, H-shaped forgings were selected, and the proposed complexity index and three existing shape complexity factors were calculated. A hot forging process was performed virtually and practically to check the processing difficulty of H-shaped parts, and the analysis results from the simulation and experimental tests demonstrated that the complexity index was more reasonable for evaluating the difficulty of forging parts. To further validate the applicability of the complexity index, several published cases involving one-stage, two-stage, and multistage forging processes were investigated in detail. Finally, the potential application was discussed with published cases and an actual case from the industry. Regarding the actual five-stage forging process of the bushing part, the deviation of the complexity index calculated at each stage from the ideal value is within a small range between 1.3 and 6.9%, and the statistically shortest average die life of different stages reaches 190,000 pieces. The promising results could further demonstrate that the novel complexity index could work as a useful tool to support the process design of the multistage forging process. [ABSTRACT FROM AUTHOR]

Published

2024

3. Dynamics Modeling and Motion Evaluation of a Near-Ground Tethered Balloon Cable System under Severe Wind Environments.

Author

Lai, Zhenhua, Tang, Mao, Hu, Xiaojin, Shu, Xin, Huang, Weicheng, and Pan, Yongjun

Subjects

COMPUTATIONAL fluid dynamics, MULTIBODY systems, RIGID bodies, BUSHINGS, MATHEMATICAL optimization

Abstract

Weather survival poses a significant challenge for the utilization of tethered balloons. The dynamic modeling of tethered balloon systems presents challenges due to the flexible nature of the cables and the intricate nature of gust forces. The present study introduces a new approach for modeling near-ground tethered balloon systems, which enables the analysis of their dynamic responses and performance evaluation under complex boundary conditions. First, finite cylindrical rigid bodies that are joined together by bushing forces to describe the dynamics of the tethered cable. The properties of the flexible cables under severe bending and translation can be illustrated by the dynamics model. Second, a three-dimensional dynamics model based on the multibody dynamics theory is created to deal with the interaction of the tethered balloon system and flexible cables. The dynamic responses of the tethered balloon system under challenging operating conditions are investigated, focusing on the number of cable segments and the place and direction of gust wind impacts. This model allows for precise assessment and optimization of the system's overall performance to improve weather resistance. The results show that compared to computational fluid dynamics (CFDs) methods, the multibody system dynamics-based balloon model improved the solution time by 80%, with a pitch angle deviation of only 0.0016°. Moreover, the bushing model effectively reduced cable force and enabled accurate reflection of the system's motion characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

4. Study of the Constraint Pillar Test and the Application in Gob-Side Entry Retaining.

Author

Tian, Jinzhou, Kang, Hongpu, Zhang, Dongsheng, Fan, Gangwei, and Zheng, Xiaodong

Subjects

COLUMNS, METAL mesh, BUSHINGS, TRAVEL regulations, COMPRESSIBILITY

Abstract

Firmly, the bearing capacity test of 1:1 equal ratio pillar under different constraint forms and different filling medium conditions was carried out. The results show that the binding pillar-forming effect is relatively good. The constraint ability of unconstrained, metal mesh, polyester mesh, hooked iron flat-hoop bushing, bellows, and spiral iron pipe is enhanced, in turn, and the carrying capacity is improved successfully. The homogeneity of high-water materials is better than concrete, and they have better compressibility, but their carrying capacity is relatively weak. The carrying capacity of concrete pillars is generously higher than that of high-water materials, but the compressibility is poor. Second, the migration characteristics of the surrounding rock structure of the gob-side entry retaining and the rule of side support are analyzed, the requirements of the side support are pointed out, and the side-support technology of the binding pillar is proposed. Taking Hijiata Mine's 50108 working face gob-side entry retaining as an example, the bellows pump-filled concrete pillar is used as the side support body, supplemented by handling steel mesh and air-duct cloth, and toughness material is sprayed between the pillars to seal the goaf, meeting the requirements of side support and road stability. The pillar has the characteristics of high early strength, strong final consolidation carrying capacity, good crimping effect, high mechanism degree, fast construction speed, less concrete consumption, low comprehensive cost, etc., and it has a good application prospect in the gob-side entry retaining or rapid advanced working face. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effect of Zn on Microstructure and Wear Resistance of Sn-Based Babbitt Alloy.

Author

Ren, Xiaoyan, Chen, Huimin, Chang, Yuan, Chen, Ningning, Shi, Zhenghua, Zhang, Yougui, Guo, Zhiming, and Hu, Jinzhi

Subjects

TENSILE tests, TENSILE strength, HARDNESS testing, WEAR resistance, BUSHINGS

Abstract

Tin-based Babbitt alloys are a widely used bearing bushing material which have good comprehensive properties. However, problems such as high-temperature softening and insufficient bearing capacity occur during their use, so the optimization of tin-based Babbitt alloys has become a research hotspot. In this paper, ZChSnSb11-6 alloy was mainly prepared by the gravity casting method, and different amounts of Zn were added to the alloy (the mass fraction values were 0 wt.%, 0.05 wt.%, 0.1 wt.%, 0.15 wt.%, and 0.2 wt.%, respectively). Through the hardness test, the tensile test, the friction and wear test, and the microstructure observation of the prepared alloy, the influence of Zn on the organization and properties of the ZChSnSb11-6 alloy was analyzed. The results show that the size of the SnSb hard phase changed with the increasing content of Zn. The size of the hard phase of the SnSb tended to increase first and then decrease, and the number of phase particles increased first and then decreased, resulting in changes in performance. Through comparison, it was learned that the addition of Zn can effectively improve the hardness, tensile strength, yield strength, and wear resistance of the alloy, but the elongation rate was reduced. When the Zn content was 0.1 wt.%, the hardness value of the alloy reached the maximum value, 25.82 HB, which increased by 7.3% when compared with the sample without Zn. The hardness of the Zn, 0.15 wt.%, is close to that of the Zn, 0.1 wt.%. Compared to the sample without Zn, the tensile strength and elongation of the alloy were maximized at a Zn content of 0.15 wt.%. Compared to the sample without the Zn, the tensile strength was increased by 21.29%, and the elongation rate was increased by 46%. An analysis showed that the alloy has good comprehensive mechanical properties when the Zn content is 0.15 wt.%. [ABSTRACT FROM AUTHOR]

Published

2024

6. Multi-Body Model of Agricultural Tractor for Vibration Transmission Investigation.

Author

Rekem, Jakub, Janečková, Radka, Otipka, Václav, Prokop, Aleš, Řehák, Kamil, and Žlábek, Pavel

Subjects

FARM tractors, MODAL analysis, TIRES, BUSHINGS, TRACTORS

Abstract

This article analyses vibration transmission on agricultural tractors with the excitation from the road to the driver's seat. A multi-body model of agricultural tractors created in Adams is presented. The main parts for the investigation of vibration transmission are the tractor body, where the only suspension elements are tyres, the tractor cabin, spring-dampers suspended at the rear and bushings at the front, and the driver seat with its pneumatic spring. A series of measurements were performed, and the model was validated using vertical acceleration values on the tractor body at four different locations. The FTire model (physical FEM-based model) was chosen to describe the behaviour of tyres. The model was created using measured tyre characteristics. Measured characteristics of spring-dampers and front cabin bushings were also implemented. For comfort investigation, ride simulations on ISO 5008 rough roads were performed. The transmission of vibrations in ride simulations was examined. A modal analysis of the linearised model was performed to confirm assumptions of the contribution of suspension elements to overall vibration levels. Finally, three case studies were conducted to better understand the model's vibration transmission properties. [ABSTRACT FROM AUTHOR]

Published

2024

7. Analysis of electrical contact characteristics of strap contacts used in high voltage bushings under eccentric conditions.

Author

Wang, Qingyu, Zhou, Xiaoyu, Yang, Wei, Hu, Di, Jin, Shoufeng, Xie, Tao, Liu, Peng, and Peng, Zongren

Subjects

*ELECTRIC resistance, *FINITE element method, *ELECTRIC connectors, *CONTACT angle, *HIGH voltages

Abstract

The contact finger electrical connection structure is a crucial component of high voltage bushings, and its safety and reliability directly impact the operational stability of the bushing. To investigate electrical contact performance of the contact finger under eccentric conditions, a three‐dimensional electrical, thermal, and force multi‐physics coupling calculation model was established. Additionally, a test platform was constructed to measure electrical contact characteristics of the contact finger. The contact characteristics of the contact finger when the male head was axially deflected and radially offset compared to the female head were obtained. The research findings indicate when the male head deflects axially, the contact force changes of the contact finger blades on both sides are opposite. Moreover, as the axial deflection angle of the male head increases, the resistance of the electrical connection structure shows a rising‐slow decreasing‐fluctuating trend. The resistance is highest at 3°, with a resistance increase rate of 7.35%. Furthermore, the resistance of the electrical connection structure varies with the radial offset of the male head, following a power function. Contact failure occurs when the radial offset is 1.31 mm, and the resistance increase rate reaches 24.9% at a radial offset of 1.58 mm. [ABSTRACT FROM AUTHOR]

Published

2024

8. 考虑缩径影响的橡胶衬套寿命仿真研究.

Author

张志远, 程稳正, 陈海潮, 徐京涛, and 余小巧

Subjects

BUSHINGS, FATIGUE life, STRUCTURAL optimization, STRUCTURAL design, RUBBER

Abstract

Copyright of Automobile Technology is the property of Automobile Technology Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

9. Analysis of electrical contact characteristics of strap contacts used in high voltage bushings under eccentric conditions

Author

Qingyu Wang, Xiaoyu Zhou, Wei Yang, Di Hu, Shoufeng Jin, Tao Xie, Peng Liu, and Zongren Peng

Subjects

bushings, contact angle, contact resistance, deformation, electric connectors, electrical contacts, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Abstract The contact finger electrical connection structure is a crucial component of high voltage bushings, and its safety and reliability directly impact the operational stability of the bushing. To investigate electrical contact performance of the contact finger under eccentric conditions, a three‐dimensional electrical, thermal, and force multi‐physics coupling calculation model was established. Additionally, a test platform was constructed to measure electrical contact characteristics of the contact finger. The contact characteristics of the contact finger when the male head was axially deflected and radially offset compared to the female head were obtained. The research findings indicate when the male head deflects axially, the contact force changes of the contact finger blades on both sides are opposite. Moreover, as the axial deflection angle of the male head increases, the resistance of the electrical connection structure shows a rising‐slow decreasing‐fluctuating trend. The resistance is highest at 3°, with a resistance increase rate of 7.35%. Furthermore, the resistance of the electrical connection structure varies with the radial offset of the male head, following a power function. Contact failure occurs when the radial offset is 1.31 mm, and the resistance increase rate reaches 24.9% at a radial offset of 1.58 mm.

Published

2024

10. Build a working ROTARY ORDER BOARD.

Author

Ferenc, Jim

Subjects

SERVOMECHANISMS, BUSHINGS

Abstract

This article from Model Railroader discusses the process of building a working rotary order board for a model train layout. The author describes the historical background of rotary train order signals and their use on railroads in the early 20th century. The article provides step-by-step instructions for constructing the order board, including details on creating the signal blades, axle for rotation, staff and bushing, movement assembly, lantern and wiring, and the servo motor and control. The author also shares photos of the completed order board on their model train layout. [Extracted from the article]

Published

2024

11. Analysis of glass fiber-reinforced composite leaf springs in a light commercial vehicle.

Author

Aggarwal, Shivam, Kumar, Krishan, and Aggarwal, M. L.

Subjects

*GLASS-reinforced plastics, *LEAF springs, *BUSHINGS, *GLASS analysis, *COMMERCIAL vehicles, *VIBRATION (Mechanics), *GLASS fibers

Abstract

Leaf springs are designed to bear loads as well as shocks in automotive vehicles. Two leaves of glass fiber-reinforced composites (GFRCs) of various shapes sandwiched between steel plates were analyzed for application in a minitruck. Computer-aided engineering analysis was performed for five different types of GFRC material leaf springs: flat leaf, flat and parabolic leaf, both parabolic leaf, both parabolic leaf springs with aluminium alloy bushes at the eye-end and spring steel multi-leaf springs. A silencer pad was used in the parabolic leaf spring to reduce delamination and vibration at contact points of the mating leaf. The various shapes and combinations of leaves provided varying parameters, namely, the deformation, maximum equivalent strain, maximum equivalent stress and fatigue life. The CAE results showed that compared with the other combinations, the flat leaf and parabolic leaf combinations provided the maximum equivalent strain, maximum equivalent stress and fatigue life. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effect of Bushing Structure on Mechanical Properties and Failure Mechanism of CFRP Laminated Titanium Nail Riveting.

Author

Wang, Deyi, Zhu, Yichun, Wang, Bo, Xiang, Mingli, and Song, Chengzhi

Subjects

BUSHINGS, FAILURE mode & effects analysis, MECHANICAL behavior of materials, STRESS concentration, MECHANICAL failures

Abstract

In the aerospace field, the riveting process is one of the main methods for connecting the Carbon Fiber Reinforced Polymer/Plastic (CFRP). During the riveting process, components are prone to problems such as damage to CFRP hole walls and reduction in joint strength. To this end, this paper proposes two new bushing structures based on riveting. The riveting damage behavior and mechanical properties of composite materials under three riveting methods: non-bushing, non-boss bushing, and boss bushing were compared. Furthermore, the tensile and hysteretic mechanical properties of CFRP under different riveting structures were studied. The results show that the stress distribution around the hole is more uniform than that of the non-bushing riveting method, and the delamination damage at the hole wall is significantly reduced. In the tensile test, the maximum tensile loads of the non-boss bushing and the boss bushing increased by 2.49% and 5.03% compared to the non-boss bushing schemes. In addition, the tensile failure modes of the three schemes also showed different failure modes due to different riveting forms. The failure mode of the non-bushing riveting scheme is rivet shear failure, and the failure mode of the bushing riveting scheme is rivet pull-off failure. In the hysteretic test, the maximum tensile loads of the non-boss bushing and the boss bushing increased by 5.49% and 12.03% compared to the non-bushing scheme. The failure mode of the three schemes is rivet pull-off failure. The bushing structure not only enhances the connection strength, but also improves the damage to the CFRP hole wall. This study provides a new understanding of the design and optimization of CFRP riveted connection structures. [ABSTRACT FROM AUTHOR]

Published

2024

13. Research on ride comfort optimization of the vehicle considering the subframe.

Author

Gao, Jin and Du, Mingyang

Subjects

*PARTICLE swarm optimization, *RADIAL basis functions, *ELASTIC deformation, *BUSHINGS, *GENETIC algorithms

Abstract

When the vehicle is in motion, the elastic deformation of the flexible subframe significantly influences ride comfort. Therefore, it is crucial to investigate the impact of flexible subframes on vehicle ride comfort. In order to enhance the reliability and optimization efficiency of our research, this paper incorporates the concept of elastic deformation in the flexible subframe into the investigation of vehicle ride comfort, and proposes a multi-objective optimization approach to enhance the overall vehicle ride comfort. The vibration mathematical model elucidates how flexible subframes affect vehicle ride comfort and establishes a rigid-flexible coupling model for a specific vehicle with a flexible subframe to analyze the impact of its elastic deformation on vehicle ride comfort through simulation experiments. Subsequently, a radial basis function approximation model is established, and the multi-objective particle swarm optimization and non-dominated sorting genetic algorithm II algorithms are employed to conduct multi-objective optimization of the stiffness of the subframe bushing with the aim of enhancing vehicle ride comfort. The findings indicate that the flexible subframe has a significant impact on vehicle ride comfort. Specifically, on bump roads, peak values of vertical and longitudinal seat accelerations decrease while lateral seat acceleration increases. On random roads, peak values of longitudinal and lateral seat accelerations increase while vertical acceleration decreases. Furthermore, the stiffness of the subframe bushing optimized by the non-dominated sorting genetic algorithm II algorithm further enhances vehicle ride comfort and aligns more closely with the optimization requirements in this study. [ABSTRACT FROM AUTHOR]

Published

2024

14. DYNAMIC ANALYSIS OF THE WHEEL SUSPENSION ARM.

Author

Sapieta, Milan, Sapietová, Alžbeta, and Svoboda, Martin

Subjects

AUTOMOBILE parts, SIMULATION software, BUSHINGS, TORQUE, DYNAMIC models

Abstract

This article is focused on the creation of a model and its dynamic analysis. The model analyzed is a part of the car wheel suspension mechanism. Input load effects are entered as nonlinear waveforms of individual components of forces and moments determined experimentally. Load curves in the pin are defined as a function of time in a three-component force. The load in the bushings is implemented in a six-component force bond (three force components and three moments) as a function of deformation. The output of the simulation process are defor-mations as well as reaction effects in bushings. In order to verify the results, the task was modelled in two simulation programs, namely in Adams and Matlab R2020b Simscape multibody. The monitored parameters of force effects and displacements differed minimally. [ABSTRACT FROM AUTHOR]

Published

2024

15. Molecular dynamics study on the influence of thermal aging on the mechanical properties of epoxy resins for high voltage bushing.

Author

Wang, Yuandong, Su, Linhua, Zhou, Liying, Dai, Yuwei, and Wang, Qili

Subjects

*EPOXY resins, *BUSHINGS, *MOLECULAR dynamics, *STRUCTURAL health monitoring, *TEMPERATURE control

Abstract

Context: Thermal aging significantly deteriorates the mechanical properties and service performance of epoxy resins used for the high-voltage bushing. Current studies on the thermal aging behavior of epoxy resins mainly focus on experimental observations. However, an in-depth understanding of the mechanism of thermal aging of epoxy resins requires the monitoring of structural evolution of epoxy resins during thermal aging at the molecular level. To thoroughly analyze the intrinsic factors affecting structural evolution and the effect of thermal aging on the mechanical properties of epoxy resin for high-voltage bushing, epoxy resin models with different crosslinking degrees were established and thermal aging treatments at various temperatures and time periods were carried out by molecular dynamics simulation. It was found that the tensile strength of the epoxy resin was enhanced with the increase of the crosslinking degree, which was related to the elevation of the proportion of C-N and O–H bonds in its structure. With the increase of thermal aging temperature, the tensile strength of the epoxy resin decreased, which was related to the formation of weak bonds. At the early stage of thermal aging and after a period of high-temperature thermal aging, the strength of epoxy resin significantly decreases. The thermal aging of the epoxy resin is accelerated under external loading. In addition, the crosslinking degree and curing agent also affect the thermal aging resistance of epoxy resins. The results of this study can provide guidance for predicting and improving the thermal aging resistance of epoxy resins. Methods: Materials Studio was used to construct molecular models and complete crosslinking reactions. DGEBA and 44DDS (or 33DDS) were mixed at a ratio of 2:1, followed by crosslinking reaction. During this process, the Nose method was used to control temperature, the Berendsen method was used to control pressure, and the polymer consistent force field (PCFF) was used to control the motion and force of atoms. Isobaric-isothermal ensemble (NPT ensemble) was used to heat up epoxy resin models to various thermal aging temperatures of 400 K, 500 K, 600 K and 700 K. The models were maintained at these temperatures for different thermal aging times of 100 ps, 200 ps, 300 ps, 400 ps, 500 ps, 600 ps, 700 ps and 800 ps. Afterwards, the models were cooled down to 300 K and subjected to uniaxial tensile testing at this temperature with a strain rate of 1 × 109 s−1. The structural configurations and stress-strain data during the tensile process were recorded. The flow stress of the material was derived by counting the average stress in the 20–50% strain interval. [ABSTRACT FROM AUTHOR]

Published

2024

16. REPLACE Td5 CLUTCH, FLYWHEEL AND SPIGOT BUSH: Make a Defender or Disco 2 drive like new again by renewing these common driveline wear points.

Author

DOMONEY, MARTIN

Subjects

FLYWHEELS, BUSHINGS, FAUCETS, PLASTIC pipe

Abstract

This article from Land Rover Monthly offers a detailed guide on how to replace the clutch, flywheel, and spigot bush in a Td5-powered Land Rover Defender or Discovery 2. The spigot bush, a small metal bushing, can wear out and cause noise and clutch issues. The article explains the process of removing the gearbox to access and replace the spigot bush, and suggests replacing the clutch and flywheel if necessary. It provides step-by-step instructions, necessary tools, and required parts. In addition, the article by Martin Domoney, LRM Editor, discusses the significance of preserving and digitizing historical photographs. Domoney emphasizes that photographs are valuable cultural artifacts that offer insights into the past and help us understand our history. He highlights the efforts of libraries and archives in digitizing their collections to make them more accessible to researchers and the general public. Domoney also acknowledges the challenges involved, such as the need for funding and expertise in handling delicate photographs. Overall, the article promotes the appreciation and preservation of historical photographs for future generations. [Extracted from the article]

Published

2024

17. Friction and Wear Performances of Materials for Wind Turbine Sliding Bearing Bushes.

Author

Chen, Jun, Min, Jiahua, Li, Linjie, and Liang, Xiaoyan

Subjects

WIND turbines, FRETTING corrosion, FRICTION, MECHANICAL wear, BEARING steel, SLIDING friction, BUSHINGS, SLIDING wear, ADHESIVE wear

Abstract

This study aimed to enhance the friction and wear characteristics of materials for wind turbine sliding-bearing bushes operating under low-speed and heavy-load conditions. To this end, a high-entropy CoCrFeNiMo alloy coating was applied to the surface of 9Cr18 bearing steel, and Ni-Cr-Mo-Si alloy coating was applied to MTCrMoCu30 wear-resistant cast iron using laser cladding. The effects of varying loads on the friction and wear properties of these coatings were investigated, and the friction and wear properties were compared. Furthermore, the overall priority indices for both groups of bearing bush coatings were assessed. The findings indicated that the friction coefficient, wear quality, and wear rate of CoCrFeNiMo high-entropy alloy coating initially decreased and then increased with the increase in applied load, dominated by abrasive wear. By contrast, the friction coefficient of the Ni-Cr-Mo-Si alloy coating increased, and wear quality and wear rate initially increased and then decreased, indicating the coexistence of adhesive wear and abrasive wear. Therefore, Ni-Cr-Mo-Si alloy coating exhibited a high overall priority index and favorable friction and wear properties. [ABSTRACT FROM AUTHOR]

Published

2024

18. Assessing the moisture content of oil‐impregnated paper bushings with a simple and fast method.

Author

Ansari, Hossein Taghizade and Vahedi, Abolfazl

Subjects

*MOISTURE, *SYSTEM safety, *EXPLOSIONS, *TIME measurements, *TRANSFORMER insulation, *DIELECTRICS, *BUSHINGS, *POWER transformers

Abstract

Power outages can cause harm to both society and individual health. Among the crucial elements of power systems, power transformers play a vital role, and their failures can lead to incidents and disruptions. According to statistics, almost 50% of the explosions and fires in the power transformer are caused by oil‐impregnated paper (OIP) bushing failures. Moreover, moisture is a crucial factor that affects the health of OIP bushings, and assessing the moisture level in OIP bushings is vital to guarantee the safety of power systems. While the frequency‐domain dielectric spectroscopy (FDS) method has been widely used to assess the moisture content of OIP bushings on‐site, it has the disadvantage of requiring a long measurement time. Therefore, a novel technique was proposed in this study that involves measuring the OIP bushing dissipation factor (tanδ) at 1 Hz to estimate the moisture content in a significantly shorter time. Five samples of OIP with various moisture levels have been selected, and an equation based on the OIPs' value of tanδ at 1 Hz was proposed to assess the moisture level of OIP bushings. Furthermore, the validity of the proposed method was successfully verified, proving its precision and time efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

19. A method for nonlinear electric-thermal coupling calculations of bushings based on unbiased gradient-free smooth domains.

Author

Feng, Yuhui, Yang, Zhongqing, Gao, Chao, Gao, Erya, and Meng, Ruixiao

Subjects

*DIRECT current power transmission, *ELECTRIC conductivity, *BUSHINGS

Abstract

High-voltage dry-type bushings, serving as the crucial junctions in DC power transmission, represent equipment with the highest failure rate on the DC primary side, underscoring the critical importance of monitoring their condition. Presently, numerical simulation methods are commonly employed to assess the internal state of bushings. However, due to limitations in the efficiency of multi-physics field computations, the guidance provided by numerical simulation results in the field of power equipment condition assessment is relatively weak. This paper focuses on solving the electrical-thermal coupling in high-voltage dry-type bushings. Addressing the most widely used tetrahedral mesh in numerical computations, we propose an efficient solution method based on the concept of "smooth domains." This method involves partitioning the volume centroids of the elements into multiple smooth domains within the computational domain. Electric and thermal conduction matrix calculations occur within these smooth domains, rather than within the grid or element interiors. This approach eliminates the need for traditional element mapping and complex volume integration. To demonstrate the effectiveness of this method, we use high-voltage dry-type bushings as a case study, comparing the performance of our approach with traditional finite element algorithms. We verify the algorithm's computational efficiency and apply it to the analysis of typical temperature anomalies in bushings, further illustrating its suitability for electrical equipment condition assessment. [ABSTRACT FROM AUTHOR]

Published

2024

20. Research on Insulation Configuration of 220 kV Bushing in High-Altitude Polluted Areas.

Author

Zhang, Zhijin, Zhang, Yuanpeng, Xiao, Wei, Sun, Yong, and Jiang, Xingliang

Subjects

*ALTERNATING currents, *AIR pollution, *ATMOSPHERIC pressure, *FLASHOVER, *POWER density, *AC DC transformers, *BUSHINGS

Abstract

The external insulation strength of the power equipment sleeve in the substation and converter station will be reduced with the increase in altitude and atmosphere pollution. The weakness of external insulation seriously threatens the safe operation of electrical equipment. At present, there are few studies and conclusions that focus on the flashover characteristics of power equipment bushing in high-altitude polluted areas. Therefore, this paper takes the 220 kV voltage level bushing as the research object and studies the Alternating Current (AC) pollution flashover characteristics and lightning and switching impulse flashover characteristics at low pressure. The insulation configuration at high-altitude polluted areas is analyzed. Finally, the insulation configuration scheme, which is suitable for high-altitude polluted areas, is proposed. The results show that the AC pollution flashover voltages of the bushing decrease with the decrease in the atmospheric pressure and the increase in the salt density as a power exponent function. The impulse flashover voltages also decrease with the decrease in the atmospheric pressure as a power exponent function. The atmospheric pressure/pollution impact characteristic index is related to the type of voltage, the value of the atmospheric pressure, and the value of the salt density. The test bushing does not meet the insulation configuration requirements in some high-altitude polluted areas. Through the analysis and calculation of the test results, the bushing insulation configuration scheme in high-altitude polluted areas is proposed. The research results can provide a reference for the external insulation design of bushings in substations and converter stations in high-altitude polluted areas. [ABSTRACT FROM AUTHOR]

Published

2024

21. DEFORMATION LAW OF AEROSPACE THIN-WALLED THE RODS WITH THREE-ROLL SIZE REDUCTION AND END EXTRUSION THICKENING.

Author

CHEN, Y. S., SHU, X. D., XIA, Y. X., LI, Z. X., XU, H. J., and ZHANG, S.

Subjects

*PIPE fittings, *FINITE element method, *PLASTIC extrusion, *ALUMINUM alloys, *BUSHINGS, *DENTAL metallurgy

Abstract

Aiming at the aerospace aircraft tie rod pipe fittings with indented riveted threaded bushing manufacturing, there are problems such as low connection strength, manufacturing cost and high weight, this paper innovates a new process of three-roll reduction and end extrusion thickening to form the aerospace thin-walled tie rods, and adopts the simufact finite element analysis (FEA) software to numerically analyse the forming process of the thin-walled fittings of A6061 aluminium alloy and analyse the equivalent plastic strain distribution, the change rule of the force-energy parameter, as well as the uniformity of the wall thickness in the process of rolling and squeezing, so that we can get the principle of rolling and squeezing forming and deformation rules of the thin-walled tie rods, and the results of the research provide the theoretical foundation for the domestic forming of the thin-walled tie rod pipe fittings. [ABSTRACT FROM AUTHOR]

Published

2024

22. Effect of Site Soil and Bus Bars on the Seismic Performance of an Isolated Power Transformer.

Author

Li, Yuebing, He, Yuze, Liu, Yang, Song, Qushenglin, and Xing, Shuang

Subjects

*POWER transformers, *BUS conductors (Electricity), *GROUND motion, *BUSHINGS, *SEISMIC response

Abstract

A 500-kV power transformer substation was focused on for seismic performance examination. Finite element models of the power transformer, isolation layers, site soil, bus bars and support structure were established under various analysis conditions. By inputting typical ground motions into the models, seismic time history responses were obtained. First, the seismic performance, critical position and failure modes of a single power transformer without isolation were examined. Then, the effect on the power transformer by arranging isolation bearings was confirmed. Moreover, the influence of site soil dynamic characteristics on the isolating performance of the power transformer was examined. Finally, the influence of the length margin of the bus bars on the seismic response of the isolated power transformer was analyzed. It was revealed that the bottom of the transformer bushings which were made of porcelain was a weak part. Installing isolation bearings effectively reduced the maximum stress response of the bushing for most ground motions. The dynamic characteristics of the site soil significantly affected the isolation efficiency of the power transformer, and the expected isolation effect was achieved when the soil was soft. The displacement response of the transformer was largely increased by isolation, the pulling effect of the bus bars on the porcelain bushing was significant. When the length margin of the bus bars was enlarged to 1.0 m, the influence on the bushing decreased to a low level that could be ignored. [ABSTRACT FROM AUTHOR]

Published

2024

23. Simulation for Overall Moisture Distribution and Effects on the Electric Field of OIP Bushing Under Different Damp Defects.

Author

Hao YANG, Sirui ZHAO, Fusheng ZHOU, Jinpeng CHEN, and Yimeng DUAN

Subjects

ELECTRIC field effects, ELECTRIC distortion, MOISTURE, ALUMINUM foil, ELECTRIC fields, PERMITTIVITY, BUSHINGS

Abstract

The insulation status of oil-impregnated paper (OIP) bushings directly indicates their operational condition. Damp defects constitute the primary factor contributing to the deterioration of oil-paper insulation. In this paper, the overall moisture distribution of capacitor cores with three damp defects (steady-state, transient, anzd tail moisture damp defect) and its effect on the electric field were studied. A moisture diffusion model for OIP bushing was established based on Finite Element Method (FEM) software, and it was also verified by moisture diffusion experiments. Then, the overall moisture distribution of the capacitor core under three damp defects was investigated. The findings indicate significant variation in the overall moisture distribution of the capacitor core influenced by factors such as aluminum foil and temperature. Furthermore, the relative permittivity of the oilimpregnated paper was computed. Subsequently, the impact of various moisture-induced defects on the electric field was determined. Simulation results unveiled distortion in the electric field of each electrode within the capacitor core. Specifically, the electric field of the zero electrode increased, while that of the outermost electrode decreased in all three damp defect scenarios. The conclusions drawn can thus be used for intelligent operation and condition assessment of OIP bushings. [ABSTRACT FROM AUTHOR]

Published

2024

24. Study on the Preparation and Aging Performance of Temperature-Indicating Patch Used for Thermal Defect Detection of Transformer Bushing Cylinder Head.

Author

Wang, Mingqin, Wu, Xiaobin, Jiang, Nan, Liu, Chenghua, Xian, Richang, and Jia, Wentao

Subjects

BUSHINGS, CONTACT angle, HIGH temperatures, ELECTRIC transformers, COLOR temperature, MEASURING instruments

Abstract

Elevated temperatures at the transformer bushing cylinder head can precipitate failures, leading to significant power outages. In response, this study introduces a reversible temperature-indicating patch for the nuanced detection of thermal anomalies in the transformer bushing's cylinder head. The patch, crafted through a melting process, utilizes a reversible discoloration material and is developed in two variants via an adsorption substrate method. Comprehensive evaluations of the patches' color-changing characteristics, alongside their electrical and hydrophobic properties, were conducted using an automatic contact angle measuring instrument and an AC flashover test platform. The findings reveal that the temperature-indicating patch exhibits a discernible color transition within the range of 49~55 °C, with a color reversion temperature span of 45~55 °C, denoting marked sensitivity and robust reversibility. Additionally, it was observed that prolonged thermal aging correlates with a decrease in both the water contact angle and the discharge voltage per unit length across the surface of the patches, indicating a degradation in performance. Among the variants, the binder-based temperature-indicating patch demonstrated superior stability in electrical performance compared to its vacuum-based counterpart. The outcomes of this research offer valuable insights for the development of advanced diagnostic tools for the identification of thermal defects in transformer bushings, potentially enhancing reliability and safety in power distribution systems. [ABSTRACT FROM AUTHOR]

Published

2024

25. The Influence of the Eccentric Thrust Force on the Selection of a Stern Tube Slide Bearing.

Author

Vetma, Vladimir, Vulić, Nenad, and Plazibat, Bože

Subjects

*THRUST, *TUBES, *ELASTIC analysis (Engineering), *SHIP propulsion, *FRICTION materials, *BUSHINGS, *LUBRICATION & lubricants

Abstract

Stern tube slide bearing of the shaft line of the ship’s propulsion system causes losses during operation. Friction and material wear of the tribosystem occur. One of the reasons is the different navigating regimes of the ship, which have an influence on the formation of the velocity field on the ship’s propeller. The variable velocity field defines the magnitude and the position of the thrust force. The methodology presented in this paper is based on the fact of the existence of the eccentricity of the thrust force, i.e. loads due to the action of the moment of the eccentric thrust force. Due to the changing position of the thrust force, the curvature of the elastic line of the sleeve inside the stern tube bearing, which is mostly spatial, changes. Spatial elastic line of the sleeve has an influence on the working area of the slide bearing. Therefore, the importance of a sufficient thickness of the lubricant layer for lubrication in relation to these changes was highlighted. In this paper, this is the initial criterion for the selection of materials and lubricants of the stern tube bearing. An equally important criterion would be to define the possible harmful impact of lubricant leakage with particles of bearing bush material on the ecosystem. In order to facilitate the whole process, the simplified analytical model is presented, which can be used in the initial stage of stern tube bearing selection. Such a model allows a simpler analysis of the influence of the elastic line on the condition of the stern tube bearing due to the loading by the weight of the ship’s propeller and by the moment of the eccentric thrust force. The procedure for the initial selection of the stern tube bearing created by this methodological approach could have its practical application. For this reason, the paper analyzed different navigating regimes and their influence on the working area of the stern tube slide bearing. The obtained results can be useful in the selection of materials and lubricants for the stern tube bearing tribosystem. [ABSTRACT FROM AUTHOR]

Published

2024

26. COMPARISON OF TWO TYPES OF SENSORS AND THEIR EFFECT ON SPRAY QUALITY PEAR TREES.

Author

R. A., Basil and Subr, A. K.

Subjects

*PEARS, *SPRAYING & dusting in agriculture, *DETECTORS, *BUSHINGS

Abstract

This study was aimed to reduce the amount of the sprayed solution lost during trees spraying. At the same time, the concentration of the sprayed solution on the target (tree or bush) must be ensured and to find the best combination of treatments. Two factors controls the spraying process: (i) spraying speed (1.2 km/h, 2.4 km/h, 3.6 km/h), and (ii) the type of sensor. The test results showed a significant loss reduction percentage. It reached (6.05%, 5.39% and 2.05%) at the speed (1.2 km/h, 2.4 km/h, 3.6 km/h), respectively. It was noticed that when the speed becomes higher the loss becomes less accordingly. The interaction between the 3.6 km/h speed and the type of Ultrasonic sensor led to a decrease in the percentage of the spray losses reached to 1.69. For the coverage percentage, the increase in the spraying speed from 1.2 km/h to 2.4 km/h, and then to 3.6 km/h led to a significant decrease in the percentage of coverage (from 17.73% to 13.14%, and then to 11.12%), respectively. The interaction between the type of sensor and the speed has significantly affected the spray density. The speed was 3.6 km/h, and the type of Ultrasonic sensor was superior in obtaining the highest spray density of 83.2 drops/cm² [ABSTRACT FROM AUTHOR]

Published

2024

27. Machine-Learning-Based Design Optimization of Chassis Bushings.

Author

Töpel, Eric, Fuchs, Alexander, Büttner, Kay, Kaliske, Michael, and Prokop, Günther

Subjects

PARTICLE swarm optimization, FINITE element method, BUSHINGS, GEOMETRIC modeling, DATABASE design, ARTIFICIAL neural networks

Abstract

In this work, a method is developed for the component design of chassis bushings with contoured inner cores, aided by artificial neural networks (ANNs) and design optimization. First, a model of a physical chassis bushing is generated using the finite element method (FEM). To determine the material parameters of the material model, a material parameter optimization is conducted. Based on the bushing model, different samples for a design study are generated using the design of experiments method. Due to invalid areas of the geometrical model definitions, constraints are established and the design parameter space is cleaned up. From the cleaned design parameter space, a database of several design parameter samples and three associated quasi-static stiffnesses, calculated with FEM simulations, is generated. The database is subsequently used for the training and hyper-parameter optimization of the ANN. Subsequently, the feed-forward ANN is employed in a design study, where stiffnesses are prescribed and design parameters identified. The design process is inverted with the help of a constrained design parameter optimization (DO), based on particle swarm optimization (PSO). Two usecases are defined for the evaluation of the design accuracy of the entire method. The design parameters found are validated by corresponding FEM simulations. [ABSTRACT FROM AUTHOR]

Published

2024

28. Hybrid Joining of Dissimilar Thin Metallic Sheets—Mechanical Joining and Adhesive Bonding.

Author

Guzanová, Anna, Draganovská, Dagmar, Brezinová, Janette, Tomáš, Miroslav, Veligotskyi, Nikita, and Kender, Štefan

Subjects

ALUMINUM alloys, ADHESIVE joints, TENSILE tests, BUSHINGS, MILD steel, ADHESIVES

Abstract

This paper deals with joining dissimilar materials using thermal drilling technology as well as the combination of thermal drilling and adhesive bonding. The base materials for the experimental work were deep-drawn low-carbon steel DC04, HSLA steel TL 1550-220 + Z, and structural aluminum alloy EN AW-6082 T6 (AlSi1MgMn). The geometry of the formed joints was tested metallographically as the load-bearing shear capacity under the tensile shear test of single-lapped joints and the resistance of the joints against corrosion-induced disbonding in a climate chamber. The energy dissipated by the joints up to fracture was calculated from the load–displacement curves. The hybrid joints were compared with the bonded joints with the same overlap area in terms of the load-bearing capacity and energy dissipated at joint failure. The hybrid joints formed by thermal drilling and adhesive bonding with a rubber-based adhesive confirmed the synergistic effect—the adhesive provides the high load-bearing capacity of the joint, and the bushing formed by thermal drilling increases the dissipated energy of the joint at failure. The exposure of the joints in the climatic chamber did not cause a relevant reduction in the characteristics of the joints. [ABSTRACT FROM AUTHOR]

Published

2024

29. REPLACING A REAR SUSPENSION UPPER CONTROL ARM.

Author

BARKER, DAVE

Subjects

ALIGNMENT of automobile wheels, BUSHINGS

Abstract

This article from Land Rover Monthly discusses the issue of worn suspension bushes in the rear upper control arm of a 2010 Discovery 4. The author explains that worn bushes can negatively impact vehicle handling and increase stress on other suspension parts. The article provides instructions and tips for replacing the rear upper control arm, including the recommendation to replace the short section of metal brake pipe that runs along the control arm. The article also includes a list of tools needed for the job and emphasizes the importance of working safely. [Extracted from the article]

Published

2024

30. Labor unionization and real earnings management: Evidence from labor elections.

Author

Astvansh, Vivek, Wang, Beibei, Chen, Tao, and Qu, Jimmy Chengyuan

Subjects

*EARNINGS management, *LABOR organizing, *ECONOMIC impact, *ELECTIONS, *BUSHINGS, *RIGHT to work (Human rights)

Abstract

By exploiting the local randomness in close-call labor elections, the authors find a negative impact of labor unionization at a firm on its real earnings management (REM). The finding suggests a managerial pressure effect of increased labor power. In a local regression discontinuity (RD) analysis, firms that narrowly pass the 50% threshold show a significant decrease in REM, relative to their peers that narrowly fail. This effect is stronger for firms headquartered in right-to-work states and when managers have less pressure to manage earnings. Evidence from a global parametric RD analysis and a multivariate OLS test using industry-level unionization measures confirms the external validity of results in local RD analysis. Overall, the research sheds new light on the economic consequence of labor unionization on employers' accounting decisions. [ABSTRACT FROM AUTHOR]

Published

2024

31. Identifying Failure Factors in the Implementation of Residential Complex Projects in Iraq.

Author

Altaie, Meervat R. and Onyelowe, Kennedy

Subjects

APARTMENT complexes, PARTISANSHIP, DEVELOPING countries, ECONOMIC expansion, STRATEGIC planning, BUSHINGS

Abstract

Copyright of Journal of Engineering (17264073) is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

32. A comprehensive evaluation method for moisture and aging state of oil-immersed paper bushings based on dielectric modulus and K-nearest neighbor algorithm.

Author

Liang, Zhengping, Sun, Yongbin, Cheng, Hao, Zhang, Na, Li, Bo, Liu, Yang, Fang, Yan, Zhang, Yiyi, Zha, Jun-Wei, and Zhou, Qu

Subjects

K-nearest neighbor classification, DIELECTRICS, MOISTURE, BUSHINGS, EVALUATION methodology

Abstract

The insulation performance of oil-immersed paper bushings is prone to deteriorate, primarily due to moisture intrusion and thermal aging. The frequency domain spectroscopy (FDS) method is commonly employed to assess the insulation condition of the bushing. However, identifying and extracting relaxation polarization information from the low-frequency region of the FDS curve can be challenging, and there is little research about the condition evaluation under the combined effects of aging states and moisture content. To address this issue, this article uses the Taylor formula mathematical model to extract characteristic parameters from the dielectric modulus curve of OIP bushings and uses the KNN algorithm to achieve the evaluation of aging and moisture status. Then, the effectiveness and accuracy of the proposed method are validated on three field OIP bushings. The results demonstrate that the evaluation accuracy of the proposed method exceeds 83%, which has significant advantages compared to other classification algorithms. The innovation of this article lies in extracting new feature parameters and combining them with intelligent classification algorithms to evaluate the moisture and aging state of the bushing. [ABSTRACT FROM AUTHOR]

Published

2024

33. The effect of porous compliance bushings in a dental implant on the distribution of occlusal loads.

Author

Młynarek-Żak, Katarzyna and Żmudzki, Jarosław

Subjects

*DENTAL implants, *OSSEOINTEGRATION, *BUSHINGS, *OSSEOINTEGRATED dental implants, *CANCELLOUS bone, *YOUNG'S modulus, *MODULUS of elasticity

Abstract

Porous dental implants are clinically used, but the mechanism of load distribution for stepped implant shaft surrounded by compliance bushings is still not known, especially for different bone conditions. The aim of the study was to assess the impact of the design of a dental implant with compliance bushings (CBs) on the occlusal load distribution during primary and secondary stability using finite element simulation (FEA), with a distinction between low and high quality cervical support under primary stability. The FEA of the oblique occlusal load transfer (250 N; 45°) was carried out for implants under variable bone conditions. The stepped shaft in the intermediate part of the dental implant was surrounded by CBs with an increasing modulus of elasticity of 2, 10 and 50 GPa. With a smaller Young's modulus of the bushings the increase of stress in the trabecular bone indicated that more bone tissue can be protected against disuse. The beneficial effect for the trabecular bone derived from the reduction of the stiffness of the bushings in relation to the loss of the implant's load bearing ability can be assessed using the FEM method. [ABSTRACT FROM AUTHOR]

Published

2024

34. Improving Electric Vehicle Structural-Borne Noise Based on Convolutional Neural Network-Support Vector Regression.

Author

Jia, Xiaoli, Zhou, Lin, Huang, Haibo, Pang, Jian, and Yang, Liang

Subjects

CONVOLUTIONAL neural networks, TRAFFIC noise, SOUND pressure, DYNAMIC stiffness, BUSHINGS, AUTOMOBILE chassis

Abstract

In order to enhance the predictive accuracy and control capabilities pertaining to low- and medium-frequency road noise in automotive contexts, this study introduces a methodology for Structural-borne Road Noise (SRN) prediction and optimization. This approach relies on a multi-level target decomposition and a hybrid model combining Convolutional Neural Network (CNN) and Support Vector Regression (SVR). Initially, a multi-level target analysis method is proposed, grounded in the hierarchical decomposition of vehicle road noise along the chassis parts, delineated layer by layer, in accordance with the vibration transmission path. Subsequently, the CNN–SVR hybrid model, predicated on the multi-level target framework, is proposed. Notably, the hybrid model exhibits a superior predictive accuracy exceeding 0.97, surpassing both traditional CNN and SVR models. Finally, the method and model are deployed for sensitivity analysis of chassis parameters in relation to road noise, as well as for the prediction and optimization analysis of SRN in vehicles. The outcomes underscore the high sensitivity of parameters such as the dynamic stiffness of the rear axle bushing and the large front swing arm bushing influencing SRN. The optimization results, facilitated by the CNN–SVR hybrid model, align closely with the measured outcomes, displaying a negligible relative error of 0.82%. Furthermore, the measured results indicate a noteworthy enhancement of 4.07% in the driver's right-ear Sound Pressure Level (SPL) following the proposed improvements compared to the original state. [ABSTRACT FROM AUTHOR]

Published

2024

35. The Design, Fabrication, and Evaluation of a Phase-Resolved Partial Discharge Sensor Embedded in a MV-Class Bushing.

Author

Lee, Gyeong-Yeol, Kim, Nam-Hoon, Kim, Dong-Eon, Kil, Gyung-Suk, and Kim, Sung-Wook

Subjects

*PARTIAL discharges, *BUSHINGS, *FLEXIBLE printed circuits, *VOLTAGE dividers, *ELECTRIC potential measurement, *DETECTORS

Abstract

This paper proposes a novel phase-resolved partial discharge (PRPD) sensor embedded in a MV-class bushing for high-accuracy insulation analysis. The design, fabrication, and evaluation of a PRPD sensor embedded in a MV-class bushing aimed to achieve the detection of partial discharge (PD) pulses that are phase-synchronized with the applied primary HV signal. A prototype PRPD sensor was composed of a flexible printed circuit board (PCB) with dual-sensing electrodes, utilizing a capacitive voltage divider (CVD) for voltage measurement, the D-dot principle for PD detection, and a signal transducer with passive elements. A PD simulator was prepared to emulate typical PD defects, i.e., a metal protrusion. The voltage measurement precision of the prototype PRPD sensor was satisfied with the accuracy class of 0.2 specified in IEC 61869-11, as the maximum corrected voltage error ratios and corrected phase errors in 80%, 100%, and 120% of the rated voltage (13.2 kilovolts (kV)) were less than 0.2% and 10 min, respectively. In addition, the prototype PRPD sensor had good linearity and high sensitivity for PD detection compared with a conventional electrical detection method. According to performance evaluation tests, the prototype PRPD sensor embedded in the MV-class bushing can measure PRPD patterns phase-synchronized with the primary voltage without any additional synchronization equipment or system. Therefore, the prototype PRPD sensor holds potential as a substitute for conventional commercial PD sensors. Consequently, this advancement could lead to the enhancement of power system monitoring and maintenance, contributing to the digitalization and minimization of power apparatus. [ABSTRACT FROM AUTHOR]

Published

2023

36. Experimental Study of Piezoelectric Control for Changing Tilting Pad Journal Bearing Circumferential Angle and Radial Displacement.

Author

Peng, Shuxia, Qin, Xin, Wang, Xiaojing, Huang, Guangyao, and Xiong, Xin

Subjects

JOURNAL bearings, PIEZOELECTRIC actuators, ANGLES, BUSHINGS

Abstract

In order to improve the vibration performance of the oil-lubricated tilting pad bearing system, an experimental approach using a piezoelectric actuator to control two new flexible tilting pads is proposed. The performance test bench of the bearing–rotor system based on a tilting pad bearing with a flexible support is established. The different circumferential angles of the angle bearing tilting pad and the radial displacement of the displacement bearing are tested by a piezoelectric actuator. At the same time, the trajectory of the rotor center under actual operating conditions is analyzed. The experimental results show that the amplitude of the rotor journal can be significantly reduced by controlling the control variables related to the circumferential angle and radial displacement of the bearing bush. Therefore, this control improvement can improve the vibration performance of two new flexible tilting pad bearing–rotor systems. The technical means are provided for the active control of an oil-lubricated tilting pad bearing. [ABSTRACT FROM AUTHOR]

Published

2023

37. An Experimental Study on Bushing Formation during Friction Drilling of Titanium Grade 2 for Medical Applications †.

Author

Vanhove, Hans, Ozden, Ecem, and Duflou, Joost R.

Subjects

BUSHINGS, TITANIUM, SCREWS, FRICTION, HIGH temperatures, INTERFACIAL friction, LASER drilling, HARDNESS

Abstract

Recent advances towards patient specific titanium sheet based medical implants introduce a new challenge for the fixation of these implants to bones. Mainly, the use of locking screws requires an implant thickness of approximately 2 mm for screw thread formation. Friction drilling is a hole-making process that displaces material to create a bushing below the sheet rather than extracting material. This experimental study explores the influence of axial force, rotational speed, and workpiece pre-heating temperature on the bushing height and thickness during friction drilling of titanium grade 2 sheets. The drilling parameters are optimized for both drilling at room temperature and at elevated temperatures for maximum bushing thickness with at least a bushing height of 1 mm. Subsequently, the samples are characterized for their microstructure and hardness, revealing preserved strength with a larger thermomechanical affected zone (TMAZ), a more gradual hardness gradient around the drill zone, and a significant reduction in microdefects in the bushing structure of the pre-heated sheets. [ABSTRACT FROM AUTHOR]

Published

2023

38. Numerical investigations on high-speed turbo-compressor rotor systems with air ring bearings: Nonlinear vibration behavior and optimization.

Author

Zeise, P. and Schweizer, B.

Subjects

BEARINGS (Machinery), SELF-induced vibration, DRY friction, ROTORS, FINITE element method, BUSHINGS

Abstract

Regarding aerodynamic bearings, mainly two basic types can be distinguished: air bearings with a rigid housing and air foil bearings with an elastic supporting structure. Here, a modified bearing concept -- called air ring bearing -- is investigated, which may be considered as a further development of rigid air bearings or as a combination of the two basic bearing types. The idea of air ring bearings is to insert a ring-shaped bearing bushing between the shaft and the foil structure. Alternatively, a visco-elastic supporting structure (e.g., an elastomer) can be applied to connect the bushing ring with the housing. In the first case, external dissipation is mainly generated by dry friction. In the latter case, viscous damping is used to provide external dissipation. Due to the external friction/damping generated by the ring mounting structure, rotor systems with air ring bearings can be operated above the linear threshold speed of instability so that stable self-excited vibrations with moderate amplitudes can be achieved in the complete speed range. Here, a detailed transient co-simulation model for rotor systems with air ring bearings is presented. The rotor is represented by a multibody model. The air films of the two bearings are represented by two nonlinear time-dependent finite element systems. The multibody model and the two finite element subsystems are solved simultaneously by means of an explicit sequential co-simulation technique. Due to the strong nonlinearities, the system shows interesting vibration and bifurcation effects, which are investigated in detail with the help of runup simulations. [ABSTRACT FROM AUTHOR]

Published

2023

39. Analysis and Design of Rear Twin Electric Powertrain Mounting System in E-Up Boost

Author

Bernáth Martin, Danko Ján, Magdolen Ľuboš, Milesich Tomáš, and Nemec Tomáš

Subjects

silentblocks, bushings, powertrain mounting, structural analysis, nvh, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The paper focuses on analyzing and designing a mounting system for the modified rear powertrain of the E-up Boost. The initial section delves into the theoretical aspects, specifically examining the differing sources of vibration between internal combustion engines and electric powertrains. Following this, the subsequent section presents an in-depth analysis of the powertrain mounting system using ADAMS View. After the analysis is carried out, a robust mounting system is designed and verified through structural analysis.

Published

2023

40. Intelligent monitoring of EHV transformer bushing based on multi‐parameter composite sensing technology

Author

Lu Zhang, Lei Sun, Wensen Wang, Yanhua Han, Lu Pu, Jingfeng Wu, and Hao Wu

Subjects

bushings, condition monitoring, intelligent sensors, transformers, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Abstract In order to monitor the state of bushing online, an intelligent monitoring system for transformer bushing was developed. A four‐in‐one sensor integrating hydrogen sensing technology using palladium nickel alloy, pressure sensing technology, wide range temperature sensing, and micro water measurement technology was developed. A three‐in‐one integrated sensor based on micro current detection technology was developed to realize online monitoring of bushing dielectric loss, capacitance, and partial discharge. The test results show the hydrogen measurement range of sensor is 0 to 10,000 μL/L, and the measurement uncertainty is lower than 10% or 10 μL/L. The pressure measurement range is 0 to 1.0 MPa, and the uncertainty is lower than 0.3%. The temperature measurement range is −40°C to 85°C, and the uncertainty is lower than ± 1°C. The micro water measurement range is 0 to 1000 μL/L, and the measurement uncertainty is lower than ± 5% or 10 μL/L. The dielectric loss and capacitance error increased by one order of magnitude compared to current standards. The resolution of partial discharge is 5 pC. The performance of the device fully satisfies the requirements for online monitoring of transformer bushing. It has been installed in dozens of 330 and 750 kV substations, providing a reliable guarantee for safe operation of transformer bushing.

Published

2023

41. Challenges and health outcomes of the exposure to soybean dust in the harbor neighborhood of Karachi, Pakistan: a wake-up call.

Author

Khan, Nadeem Ullah, Ali, Asrar, Khudadad, Umerdad, Khan, Uzma Rahim, Ali, Noman, Soomar, Salman Muhammad, Abid, Shehryar, Jilani, Mahmood, Jamali, Seemin, and Razzak, Junaid A.

Subjects

*SOYBEAN, *HAZARDOUS substances, *DUST, *NEIGHBORHOODS, *MANUFACTURING processes, *BUSHINGS, *DROWSINESS

Abstract

Background: Chemical disasters are common worldwide and result from technological failure, war, and terrorism activities. Pakistan imports huge quantities of hazardous chemicals to meet its industrial and energy needs. Hence there is a risk of chemical disaster at the ports, during transportation of such material and processing in the chemical industry. This study aimed to review the challenges and health outcomes of cases of soybean dust exposure in Kemari district (harbor neighborhood) of Karachi, Pakistan. Methods: A cross-sectional survey was conducted with all the affected people from a chemical incident of soybean dust which was reported in the Keamari district of Karachi, Pakistan. Included patients ≥ 18 years who visited the two major tertiary care hospitals of Karachi, Pakistan after the incident between February 17 to 23, 2020. A total of 574 patients were brought to these two major tertiary care hospitals. We collected data on basic demographics, event details, and major signs and symptoms of the affected individuals. Calculated frequencies and percentages for categorical variables. Mean ± standard deviation (SD) was calculated for continuous variables. Results: The mean ± (SD) age of the victims were 32 (13.5) years. Of the 574 patients, majority of the patients (n = 319, 56%) were males. In 28 cases (41%), the onset of symptoms occurred at home, in 27 cases (39%) the onset of symptoms started in the workplace and the remaining cases (n = 14, 20%) experienced the first symptoms while roaming around the roadside. The most common reported co-morbidity was a history of asthma (56%), followed by diabetes mellitus (22%). The most common clinical manifestation was shortness of breath, reported in 94% of the cases, followed by neurological symptoms such as drowsiness, unconsciousness, or seizures experienced by 10% of the victims. A total of 9 deaths (1.5%) were recorded. Conclusion: A multi-sectoral systematic approach is also required to address these incidents comprehensively including the trained and equipped pre-hospital system, integrated emergency medical response, and community-wide emergency response system. [ABSTRACT FROM AUTHOR]

Published

2023

42. Thermal effect modeling of axial static stiffness of motorized spindle unit.

Author

Liu, Teng, Xu, Haonan, Zhang, Yifan, Jiao, Zi'ang, Dong, Zizheng, and Zhou, Liang

Subjects

*BALL bearings, *BUSHINGS, *HEAT transfer, *COUPLINGS (Gearing), *STRUCTURAL models, *HEAT transfer fluids

Abstract

In order to investigate the thermal variations of axial static stiffness of motorized spindle unit, a thermal modeling method of spindle axial static stiffness is established by combining the numerical simulation technology with analytical method. Firstly, based on a thermoelastic ring cylinder model and the Hertz contact theory, the analytical model of temperature rise–axial static stiffness thermal variation effect of spindle-angular contact ball bearing system is constructed; then, the spindle structural thermal model considering its coolant heat transfer is obtained by using the finite element heat–fluid–solid coupling simulation technology, to solve temperature rises of spindle bearings. Based on them, the Bushing element is used to analyze the stiffness of the bearing assembly in the thermal–structural coupling simulation modeling of motorized spindle unit and thus to simulate the thermal variation effects of spindle axial static stiffness. Ultimately, the variation tendencies of the spindle axial static stiffness under various thermal conditions are analyzed by using this model, and the obtained results are compared with their corresponding test data. The comparisons show that this modeling method can accurately predict the thermal variation tendencies of axial static stiffness during spindle operations. Then the temperature rises of spindle structure can cause its axial static stiffness to harden, which is associated with the thermal increase of bearing preload. The conclusions have the guiding significance for thermal balance design and optimization of spindle structure. [ABSTRACT FROM AUTHOR]

Published

2023

43. Intelligent monitoring of EHV transformer bushing based on multi‐parameter composite sensing technology.

Author

Zhang, Lu, Sun, Lei, Wang, Wensen, Han, Yanhua, Pu, Lu, Wu, Jingfeng, and Wu, Hao

Subjects

*BUSHINGS, *PARTIAL discharges, *PALLADIUM alloys, *DIELECTRIC loss, *NICKEL alloys, *PRESSURE measurement, *POWER transformers

Abstract

In order to monitor the state of bushing online, an intelligent monitoring system for transformer bushing was developed. A four‐in‐one sensor integrating hydrogen sensing technology using palladium nickel alloy, pressure sensing technology, wide range temperature sensing, and micro water measurement technology was developed. A three‐in‐one integrated sensor based on micro current detection technology was developed to realize online monitoring of bushing dielectric loss, capacitance, and partial discharge. The test results show the hydrogen measurement range of sensor is 0 to 10,000 μL/L, and the measurement uncertainty is lower than 10% or 10 μL/L. The pressure measurement range is 0 to 1.0 MPa, and the uncertainty is lower than 0.3%. The temperature measurement range is −40°C to 85°C, and the uncertainty is lower than ± 1°C. The micro water measurement range is 0 to 1000 μL/L, and the measurement uncertainty is lower than ± 5% or 10 μL/L. The dielectric loss and capacitance error increased by one order of magnitude compared to current standards. The resolution of partial discharge is 5 pC. The performance of the device fully satisfies the requirements for online monitoring of transformer bushing. It has been installed in dozens of 330 and 750 kV substations, providing a reliable guarantee for safe operation of transformer bushing. [ABSTRACT FROM AUTHOR]

Published

2023

44. Special Issue on Light Control and Particle Manipulation: An Overview.

Author

Shen, Zhe

Subjects

OPTICAL tweezers, OPTICAL materials, PHOTONICS, BUSHINGS, LIGHT, PHYSICS

Abstract

This document is a summary of a special issue of the journal Photonics titled "Light Control and Particle Manipulation: An Overview." The issue focuses on the use of optical tweezers and structured light in various fields such as chemistry, biomedicine, and physics. The articles in the issue cover topics such as the interaction between light and particles, techniques for optical trapping, the generation and manipulation of structured light, and the use of structured materials in optical manipulation. The document highlights the importance of these research areas and their potential for future advancements. [Extracted from the article]

Published

2023

45. Research on the Residual Stress Field of a Compression Bushing-Lug Plate in Cold Expansion Strengthening.

Author

Lin, Zhongliang, Bai, Qingshun, Wang, Hongfei, Wu, Baoquan, and Li, Wensheng

Subjects

RESIDUAL stresses, RADIAL stresses, FATIGUE life, EXTRUSION process, BUSHINGS, LOADING & unloading

Abstract

The accurate acquisition of the residual stress field is the key to clarifying the cold expansion strengthening mechanism of compression bushings, optimizing the extrusion process parameters, and improving the structural fatigue life. In the actual cold expansion strengthening process, the resultant distribution of residual stresses is influenced by the relative extrusion amount, mandrel structure, material properties, and extrusion speed. In this article, the distribution patterns of residual stress after cold extrusion are investigated through a combination of finite element simulation and experimental measurements using a micro-region stress tester. To examine the redistribution law of the stress field of cold expansion reinforcement under external load, the compression bushing-lug-plate-reinforced structure is loaded and unloaded. The results show that large circumferential residual compressive stresses are distributed in the hole wall of the compression bushing after cold expansion. Radial residual stresses are also compressive stresses, although the values are small. In addition, the reinforced structure after cold extrusion presents a large difference in the stress redistribution rules compared with cold extrusion after the load is applied and removed. [ABSTRACT FROM AUTHOR]

Published

2023

46. Study on water absorption and dielectric response of epoxy resin impregnated paper bushing.

Author

Zhang, Daning, Feng, Xinyuan, Yang, Zhi, Xu, Haisong, Jiang, Jiongting, Mu, Haibao, and Zhang, Guan‐Jun

Subjects

*EPOXY resins, *BUSHINGS, *DIELECTRIC materials, *DIELECTRICS, *MOIETIES (Chemistry), *MOISTURE, *DIFFUSION

Abstract

Epoxy‐impregnated paper transformer bushings are prone to water absorption due to the presence of water‐attracting moieties in the cellulose chemical structure and epoxy resin, leading to moisture‐induced insulation defects. To understand the mechanism of moisture's impact on epoxy‐impregnated paper, this study developed a testing platform that integrated moisture diffusion, adsorption, and dielectric properties of insulating materials. Insulation specimens made of epoxy resin and epoxy‐impregnated paper were prepared and their water diffusion characteristics were investigated using the Fick diffusion model and the Langmuir model, respectively. The Guggenheim–Anderson–de Boer equation was used to examine the vacuum vapour adsorption characteristics of the materials, providing a theoretical foundation for examining the form of water present within them. The dielectric response of materials with varying moisture levels was then tested to study the effect of water on the dielectric spectrum curve. Using the Extended Derivative Method, the characteristic frequency reflecting the water content of the epoxy‐impregnated paper was extracted. The results demonstrate that 0.01‐Hz characteristic frequency provides superior accuracy for moisture assessment in epoxy resins compared to 50 Hz, and extracting and fitting the relaxation peak characteristic frequency in epoxy‐impregnated paper moisture evaluation yields higher accuracy than using tan δ at the power frequency. [ABSTRACT FROM AUTHOR]

Published

2023

47. Parameter Identification and Dynamic Characteristic Research of a Fractional Viscoelastic Model for Sub-Frame Bushing.

Author

Chen, Bao, Chen, Lunyang, Zhou, Feng, Cao, Liang, Guo, Shengxiang, and Huang, Zehao

Subjects

BUSHINGS, PARTICLE swarm optimization, PARAMETER identification, DYNAMIC stiffness, SLIDING friction

Abstract

This research focused on the rubber bushings of the rear sub-frame in an electric vehicle. A dynamic model was developed to represent the bushing, incorporating an elastic element, a frictional element, and a viscoelastic element arranged in series using a fractional-order Maxwell and a Kelvin–Voigt model. To identify the parameters of the bushing model, an improved adaptive chaotic particle swarm optimization algorithm was employed, in conjunction with dynamic stiffness test data obtained at an amplitude of 0.2 mm. The test data obtained at different amplitudes (0.2 mm, 0.3 mm, 0.5 mm, and 1 mm) were fitted to the model, resulting in fitting errors of 1.13%, 4.07%, 4.42%, and 28.82%, respectively, when compared to the corresponding test data in order to enhance the accuracy of the model fitting; the Sobol sensitivity analysis method was utilized to analyze the parameter sensitivity of the model. Following the analysis, the parameters α, β, and k 2 , which exhibited high sensitivity, were re-identified. This re-identification process led to a reduction in the fitting error at the 1 mm amplitude to 7.45%. The improved accuracy of the model plays a crucial role in enhancing the simulation accuracy of design of experiments (DOE) analysis and verifying the vehicle's performance under various conditions, taking into account the influence of the bushing. [ABSTRACT FROM AUTHOR]

Published

2023

48. Motion Modelling of the Floating Bushing in an External Gear Pump Using Dimensional Analysis.

Author

Torrent, Miquel, Gamez-Montero, Pedro Javier, and Codina, Esteban

Subjects

GEAR pumps, DIMENSIONAL analysis, BUSHINGS, BOND graphs, MECHANICAL efficiency, PUMPING machinery

Abstract

A new approach to model the motion of floating bushings in external gear pumps is presented in this article, where lubrication conditions have been introduced using dimensional analysis. This model is based on Bond Graph diagrams and has been experimentally validated in lab tests measuring the movement of the floating bushing inside the gear pump by means of laser micrometers. The novelty of this research is the creation of a simple and experimentally validated tool for the behaviour study of these types of pumps, which allows the simulation of a dynamic rigid solid in a fluid boundary with clearances of the order of microns, without using powerful CFD tools, with very short execution times, and using conventional computational tools. The qualitative behaviour of the model with respect to the experimental results is very similar, adjusting the numerical values with very acceptable accuracies by taking into account the precision of the experimental measurements, and allows us to use the model to interpret the volumetric and mechanical efficiency variations according the operating conditions. [ABSTRACT FROM AUTHOR]

Published

2023

49. 受潮对油浸式套管电热场的影响.

Author

李昊, 郭晨鋆, 马显龙, and 林林

Subjects

ELECTRIC fields, BUSHINGS, MOISTURE

Abstract

Copyright of Journal of Harbin University of Science & Technology is the property of Journal of Harbin University of Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

50. Performance Optimization of Underwater Crushing Unit Based on AHP.

Author

Wang, Lijun, Jiang, Shitong, Ping, Dongzhi, Feng, Weilong, Shang, Liyang, Tian, Baoqiang, and Xu, Donglai

Subjects

ANALYTIC hierarchy process, BUSHINGS, GRANULAR flow, PREDICTION models, WEIGHING instruments, DAMS

Abstract

An underwater crushing unit loaded on the underwater cleaning robot was intended to handle marine biofouling that adhered to the surface of the ship and the dam, and a prototype was initially built. A Computational Fluid Dynamics–Discrete Element Model (CFD-DEM) was created to boost the prototype's crushing performance, and its rationale was validated by contrasting the simulation results with the results of experimental tests. Accordingly, the primary influences on crushing performance and the laws governing their influence were investigated. The Analytical Hierarchy Process (AHP) method was then used to establish a prediction model for the comprehensive evaluation indicator of crushing performance. The AHP was used, in this case, because of its ability to generate the weight of indicators. The prediction model was a quadratic polynomial function with the rotational speed, the normal velocity component at the outlet of the propeller, the mass flow rate of the particles at the inlet of the unit, and the thickness of the bushing as independent variables. The prediction model fitting effect met the requirements after the test. The primary elements influencing the underwater crushing unit's performance were optimized using the prediction model. The average accumulation speed of particles in the crushing unit was reduced by 59.05%, and the mass flow rate of particles at the outlet was reduced by 11.93%. The maximum wear height of the bushing was reduced by 33.36%. The specific power was up 20.88%, and the overall crushing performance was up 9.87% when compared to before optimization. [ABSTRACT FROM AUTHOR]

Published

2023