Your search keyword '"TORQUE"' showing total 69,824 results

1. Design and analysis of a novel high TC-superconducting coupling for high torque transmission and speed regulation: A Comparative study with slotted eddy current coupling

Author

Telezing, Boris Joel Kenne and Liu, Jinxing

Published

2025

2. The Correlation Analysis Between the Pedicle Screw Placement Palpation and Torque

Author

Wang, Dongping, Yang, Jiamin, Li, Haishan, Lin, Wei, Lei, Shenglin, Chen, Yuxian, You, Yawen, Liu, Chang, Li, Yongxian, Lin, Yuewei, Guo, Huizhi, Mo, Guoye, Tang, Yongchao, Yuan, Kai, Mai, Bin, Zhang, Zhen, and Zhang, Shuncong

Published

2025

3. Experimental and numerical investigation on RC beams with web openings subjected to pure torsion strengthened by ferrocement technique or GFRP sheets

Author

Nasser, Amir Gamal, Makhlouf, Mohamed H., Elsayed, K.M., and I.K., Gamal

Published

2024

4. The effects of the Aussie current on pain, torque and muscle strength: Systematic review

Author

de Andrade, Andressa Mourão, Silva Gonçalves, Luiza Helena, Ferreira, Gustavo Cézar Raab, do Nascimento, Dariel Matheus dos Reis, Zotz, Talita Gianello Gnoato, and de Macedo, Ana Carolina Brandt

Published

2024

5. Muscle-Fiber Typology Is Associated With Sprint-Cycling Characteristics in World-Class and Elite Track Cyclists.

Author

Wackwitz, Thomas, Minahan, Clare, Lievens, Eline, Kennedy, Ben, Derave, Wim, and Bellinger, Phillip

Subjects

BIOMECHANICS, POWER (Social sciences), STATISTICAL correlation, MUSCLE fatigue, NUCLEAR magnetic resonance spectroscopy, CALF muscles, TORQUE, CYCLING, NEUROPEPTIDES, RESEARCH, ATHLETIC ability, MUSCLES

Abstract

Purpose: Identifying the determinants of performance is fundamental to talent identification and individualizing training prescription. Consequently, the aim of this study was to determine whether estimated muscle typology is associated with the key mechanical characteristics of track sprint cycling. Methods: Sixteen world-class and elite track cyclists (n = 7 female) completed a laboratory session wherein torque–cadence and power–cadence profiles were constructed to determine maximal power output (Pmax), optimal cadence (Fopt), and maximal cadence (Fmax), and fatigue rate per pedal stroke was determined during a 15-second maximal sprint at Fopt. Muscle typology was estimated by measuring carnosine content via proton magnetic resonance spectroscopy in the gastrocnemius and soleus. Results: Using partial correlation analysis to account for sex, greater muscle carnosine content (ie, greater estimated proportion of type II fibers) was associated with a greater Pmax (r =.68, P =.007), Fmax (r =.77, P =.0014), Fopt (r =.61, P =.0196), and absolute fatigue rate (W·stroke−1; r = −.55, P =.0418) but not relative fatigue rate (%peak power·stroke−1; r = −.33, P =.246). Conclusions: The findings from this study substantiate the mechanical differences in muscle-fiber types derived from single muscle-fiber studies and highlight the importance of estimated muscle typology for sprint cycling performance. [ABSTRACT FROM AUTHOR]

Published

2025

6. The Novel Assessment to Explore the Cutting Performance of Rotary Instruments Using Dynamic Finite Element Analysis With Failure Mode

Author

Chi, Chih-Wen, Chen, Weng-Pin, Liu, Wei-Ting, Lai, Ting-Ju, and Lin, Chun-Pin

Published

2024

7. The circumferential force on a cylindrical rotating detonation engine

Author

Sawada, Satoru, Ishihara, Kazuki, Itouyama, Noboru, Watanabe, Hiroaki, Kawasaki, Akira, Matsuoka, Ken, Kasahara, Jiro, Matsuo, Akiko, and Funaki, Ikkoh

Published

2024

8. Injection locking in DC-driven spintronic vortex oscillators via surface acoustic wave modulation.

Author

Moukhader, R., Rodrigues, D. R., Riveros, A., Koujok, A., Finocchio, G., Pirro, P., and Hamadeh, A.

Subjects

*ACOUSTIC surface waves, *TORQUE, *SYNCHRONIZATION, *SAWS, *BANDWIDTHS

Abstract

Control of the microwave signal generated by spin-transfer torque oscillators (STOs) is crucial for their applications in spin wave generation and neuromorphic computing. This study investigates injection locking of a DC-driven vortex STO using surface acoustic waves (SAWs) to enhance the STO's signal and allow for its synchronization with external inputs. We employ a simplified model based on Thiele's formalism and highlight the role of vortex deformations in achieving injection locking. Micromagnetic simulations are conducted to validate our theoretical predictions, revealing how the locking bandwidth depends on SAW amplitude, as well as on the amplitude and direction of an applied external field. Our findings are pivotal for advancing experimental research and developing efficient low-power synchronization methods for large-scale STO networks. [ABSTRACT FROM AUTHOR]

Published

2024

9. Motor Point as an Alternative to Femoral Nerve Stimulation for the Assessment of Quadriceps Muscle Inhibition in Healthy Women.

Author

Pompeo, Klauber D., Rabello, Rodrigo, Morales, Anete B., Klein, Kelli D., Frasson, Viviane B., Maffiuletti, Nicola A., and Vaz, Marco A.

Subjects

*QUADRICEPS muscle physiology, *KNEE physiology, *CROSS-sectional method, *REPEATED measures design, *WOMEN, *RESEARCH funding, *T-test (Statistics), *STATISTICAL hypothesis testing, *DATA analysis, *EVOKED potentials (Electrophysiology), *TORQUE, *DESCRIPTIVE statistics, *ELECTRIC stimulation, *RECTUS femoris muscles, *ANALYSIS of variance, *STATISTICS, *FEMORAL nerve, *COMPARATIVE studies, *EXERCISE tests, *DATA analysis software, *MUSCLE contraction

Abstract

Context: The evaluation of quadriceps muscle inhibition with the interpolated twitch technique is usually performed by stimulating the femoral nerve (FN). However, there are some problems related to the use of this stimulation site, which may be partially overcome by delivering the stimulation over the motor point (MP). This study sought to compare MP to FN stimulation at different joint angles for the evaluation of quadriceps muscle inhibition, resting peak torque, and discomfort in healthy women. Design: Cross-sectional study. Methods: Sixteen healthy women (age: 28 [4] y; body mass: 60 [5] kg; height: 162 [5] cm) participated in this study. Supramaximal paired stimuli were delivered to the FN and to the rectus femoris MP before and during maximal voluntary contractions at different knee angles (15°, 30°, 45°, 60°, and 90° of knee flexion) to assess muscle inhibition and resting peak torque. Discomfort was also recorded for each stimulation site and knee angle. Results: Muscle inhibition was similar between the 2 stimulation sites (P >.05) and was higher at 45° than at 90° (P =.03). MP stimulation evoked lower resting peak torque at 30° (P =.004), 60° (P =.006), and 90° (P =.006) and higher discomfort at 30° (P =.008) and 90° (P =.027) compared to FN stimulation. Conclusions: Despite lower resting peak torque and higher discomfort at some angles, MP stimulation provided similar muscle inhibition to FN stimulation at all knee angles and is therefore a valid method to evaluate quadriceps muscle inhibition in healthy women. MP stimulation can be used as an alternative to FN stimulation for the evaluation of quadriceps muscle inhibition with no added discomfort at the angles where muscle inhibition is the highest. [ABSTRACT FROM AUTHOR]

Published

2024

10. Implant Stability and Histomorphometric Analysis Comparing Two Different Implant Macrogeometries Placed in Fresh Sockets: An Experimental Study in Sheep.

Author

Gehrke, Sergio Alexandre, Aramburú Júnior, Jaime, Eirles Treichel, Tiago Luis, da Costa, Eleani Maria, Scarano, Antonio, De Bortoli Júnior, Nilton, Oliveira Fernandes, Gustavo Vicentis, and De Aza, Piedad N.

Subjects

ALVEOLAR process surgery, DENTAL implants, WOUND healing, OSSEOINTEGRATION, DENTURES, TORQUE, ANIMAL experimentation, SHEEP, PROSTHESIS design & construction

Abstract

Purpose: To examine the impact of two implant designs that promote different insertion torque values on implant stability and to histomorphometrically evaluate the bone healing after immediate implant placement in fresh sockets in a sheep model. Materials and Methods: Twelve female sheep (mean weight: 35.0 ± 5.0 kg) were included in the study. Additionally, 48 conical Morse taper dental implants were included, comprising two groups (n = 24 per group): Group 1, where the implant design can provide high insertion torque values; and Group 2, where the implant design can provide low insertion torque values. Both had the same surface treatment and dimensions (4.0 x 10 mm). The mandibular first and second molars on both sides were extracted carefully. Sequentially, osteotomies were made in the mesial socket of each molar tooth. The final implant position was 2 mm below the buccal bone crest level. On the right side, a Group 1 implant was placed anteriorly, with a Group 2 implant in the posterior position; on the left side, the Group 2 implant was anterior and the Group 1 implant was posterior. A digital torque meter was used to measure the maximum final insertion torque value (f-IT). The initial implant stability quotient (ISQ) was measured immediately after implant insertion (T0) and immediately after the euthanasia and removing the mandibles. The animals were euthanized (n = 6 animals/ time) at 21 days (T1) and 35 days (T2). To compare statistical differences for each analyzed intragroup parameter, f-test was used. Pearson's correlation was used to analyze possible correlations: f-IT and percentage of bone-to-implant contact (%BIC), f-IT and ISQ, and ISQ and %BIC. Results: Group 1 presented higher insertion torque values than Group 2, with a statistically significant difference (P < .0001). The ISQ mean values were higher in the buccolingual direction than those obtained in the mesiodistal direction for both groups. Higher %BIC measurements were seen in Group 2 than Group 1 samples at both times and in both directions. There were statistical differences between groups for new bone, medullary spaces, and collagen matrix at each evaluation time. Conclusions: Using implants with a modified macrogeometry plays a significant role in implant stability and bone tissue healing around the implant. It is important for clinicians to carefully consider implant macrogeometry when planning implant surgery to achieve optimal implant stability and successful osseointegration, mainly in cases of immediate implant placement. [ABSTRACT FROM AUTHOR]

Published

2024

11. The Effect of Ischemic Preconditioning on Tennis Exercise Performance and the Recovery Subsequent to a Simulated Tennis Match: A Randomized Controlled Trial.

Author

Xin, Zekun, Shi, Yuxuan, and Wu, Ying

Subjects

TENNIS, FATIGUE (Physiology), VISUAL analog scale, TREATMENT effectiveness, DESCRIPTIVE statistics, TORQUE, SIMULATION methods in education, ISCHEMIC preconditioning, SPORTS events, CONVALESCENCE, EXERCISE tolerance, PAIN, ATHLETIC ability, BODY movement, SPRINTING

Abstract

Purpose: The purpose of this study was to investigate the effects of acute ischemic preconditioning (IPC) on tennis skill and physical exercise performance, as well as to explore whether 7-day repeated IPC (RIPC) accelerated fatigue recovery after a simulated tennis match. Methods: Twenty-nine male tennis-specific current students were randomly allocated into 1 of 2 groups: SHAM (n = 14, 3 × 5 min at 20 mm Hg) and IPC (n = 15, 3 × 5 min at 220 mm Hg). Participants in both groups engaged in acute IPC and RIPC interventions. After the first acute IPC intervention, assessments were conducted to evaluate tennis-specific skills and overall physical exercise capacity. Following completion of chronic RIPC interventions, all participants competed in a simulated tennis match specifically designed to induce fatigue. To evaluate recovery from this induced fatigue, physical exercise capacity tests were conducted at 24 and 48 hours postmatch, allowing for an assessment of the participants' recovery capabilities over time. Results: After the first acute intervention, notable differences were observed between the IPC and SHAM groups in their performance on the repeated-sprint ability test. Specifically, the total times recorded were significantly shorter in the IPC group compared with the SHAM group (IPC: 109.05 [2.70] vs SHAM: 114.57 [7.45] s, P =.012), and this trend was also reflected in their best times (IPC: 4.20 [0.18] s vs SHAM: 4.39 [0.30] s, P =.042), indicating an immediate benefit of the IPC intervention on sprint performance. After a 7-day RIPC intervention, significant changes were noted in the SHAM group's performance metrics postmatch. There was an increase (P <.001) in fatigue index from 22% (8%) to 30% (9%) during repeated-sprint ability test and a decrease in serve speed from 120.2 (17.5) to 106.7 (13.0) km/h (P =.002) and knee peek torque from 196.0 (49.0) to 162.7 (39) N (extension, 60°/s, P <.001) in the SHAM group 24 hours postmatch, relative to the IPC group. Moreover, compared with the SHAM group, the IPC group showed a lower rate of perceived exertion during the match (P <.001) and a decrease in visual analog scale score (P =.026) 24 hours postmatch, suggesting enhanced recovery and reduced perception of pain relative to the SHAM group. Conclusion: IPC could serve as a strategy to generate an ergogenic effect and recovery during training and competition. [ABSTRACT FROM AUTHOR]

Published

2024

12. Immersed boundary method for dynamic simulation of polarizable colloids of arbitrary shape in explicit ion electrolytes.

Author

Krucker-Velasquez, Emily, Swan, James W., and Sherman, Zachary

Subjects

*ELECTRIC fields, *ELECTROSTATIC interaction, *GRAPHICS processing units, *ELECTROSTATICS, *TORQUE

Abstract

We develop a computational method for modeling electrostatic interactions of arbitrarily shaped, polarizable objects on colloidal length scales, including colloids/nanoparticles, polymers, and surfactants, dispersed in explicit ion electrolytes and nonionic solvents. Our method computes the nonuniform polarization charge distribution induced in a colloidal particle by both externally applied electric fields and local electric fields arising from other charged objects in the dispersion. This leads to expressions for electrostatic energies, forces, and torques that enable efficient molecular dynamics and Brownian dynamics simulations of colloidal dispersions in electrolytes, which can be harnessed to accurately predict structural and transport properties. We describe an implementation in which colloidal particles are modeled as rigid composites of small spherical beads that tessellate the surface of the particle. The electrostatics calculations are accelerated using a spectrally accurate particle-mesh-Ewald technique implemented on a graphics processing unit and regularized such that the electrostatic calculations are well-defined even for overlapping bodies. We illustrate the effectiveness of this approach with a comprehensive set of calculations: the induced dipole moments and forces for individual, paired, and lattice configurations of spherical colloids in an electric field; the induced dipole moment and torque for anisotropic particles subjected to an electric field; the equilibrium ion distribution in the double layer surrounding charged colloids; the dynamics of charged colloids; and the behavior of ions in the double layer of a polarizable colloid under the influence of an electric field. [ABSTRACT FROM AUTHOR]

Published

2024

13. Training for Elite Team-Pursuit Track Cyclists—Part II: A Comparison of Preparation Phases in Consecutive World-Record-Breaking Seasons.

Author

Stadnyk, Antony M.J., Stanley, Jamie, Decker, Tim, and Slattery, Katie M.

Subjects

BODY mass index, SEASONS, HUMAN services programs, NEUROPHYSIOLOGY, PHYSICAL training & conditioning, TEAM sports, DESCRIPTIVE statistics, AEROBIC capacity, TORQUE, EXERCISE intensity, NEUROMUSCULAR system, CYCLING, HEART beat, MUSCLE strength, TRACK & field, PHYSICAL fitness, ATHLETIC ability, OXYGEN consumption, ENDURANCE sports training, COMPARATIVE studies, COMPETITION (Psychology)

Abstract

Purpose: To compare the training characteristics of an elite team pursuit cycling squad in the 3-month preparation phases prior to 2 successive world-record (WR) performances. Methods: Training data of 5 male track endurance cyclists (mean [SD]; age 23.4 [3.46] y; body mass 80.2 [2.74] kg; 4.5 [0.17] W·kg−1 at LT2; maximal aerobic power 6.2 [0.27] W·kg−1; maximal oxygen uptake 65.9 [2.89] mL·kg−1·min−1) were analyzed with weekly total training volume by training type and heart rate, power output, and torque intensity distributions calculated with reference to the respective WRs' performance requirements. Results: Athletes completed 805 (82.81) and 725 (68.40) min·wk–1 of training, respectively, in each season. In the second season, there was a 32% increase in total track volume, although track sessions were shorter (ie, greater frequency) in the second season. A pyramidal intensity distribution was consistent across both seasons, with 81% of training, on average, performed below LT1 power output each week, whereas 6% of training was performed above LT2. Athletes accumulated greater volume above WR team pursuit lead power (2.4% vs 0.9%) and torque (6.2% vs 3.2%) in 2019. In one athlete, mean single-leg-press peak rate of force development was 71% and 46% higher at mid- and late-phases, respectively, during the preparation period. Conclusions: These findings provide novel insights into the common and contrasting methods contributing to successive WR team pursuit performances. Greater accumulation of volume above race-specific power and torque (eg, team pursuit lead), as well as improved neuromuscular force-generating capacities, may be worthy of investigation for implementation in training programs. [ABSTRACT FROM AUTHOR]

Published

2024

14. Power characteristics with different types of turbochargers for lean boosted hydrogen direct injection engine in NOx-free operation

Author

Kim, Changgi, Park, Cheolwoong, Kim, Yongrae, and Choi, Young

Published

2023

15. Active chiral flows in the separating wall during cell division.

Author

Ganguly, Vijit, Chatterjee, Mainak, and Sain, Anirban

Subjects

*ROTATIONAL flow, *CELL division, *ACTOMYOSIN, *TORQUE, *COUPLINGS (Gearing)

Abstract

Material flow in the actomyosin cortex of a cell, during cell division, has been found to be chiral in nature. It has been attributed to active chiral torques generated in the actomyosin cortex. Here, we explore the possible signature of such chirality during the growth of the intra-cellular membrane partition, which physically divides the cell into two compartments. We use standard hydrodynamic theory of active gel to predict possible chiral flow structures in the growing partition. While the flows in the growing annular-shaped membrane partition is believed to be radial, it can also develop non-zero azimuthal velocity components (rotation) due to chirality. We show that the direction of rotation (clock or anti-clockwise) will not solely be decided by the sign of the active chiral torque but also by the relative strengths of rotational viscosity and flow coupling parameter. [ABSTRACT FROM AUTHOR]

Published

2024

16. Isokinetic Peak Torque Improvement and Shoulder Muscle Ratios Imbalance Correction After Specific Strength Training on a New Ballistic Throwing Device: A Randomized Controlled Trial.

Author

Agrebi, Brahim, Dhahbi, Wissem, Abidi, Hatem, Kasmi, Sofien, Houas, Narjes, Chtara, Mokhtar, and Chamari, Karim

Subjects

*SPORTS injury prevention, *EXERCISE physiology, *RISK assessment, *REPEATED measures design, *STATISTICAL correlation, *WEIGHT-bearing (Orthopedics), *THROWING (Sports), *MEASUREMENT of angles (Geometry), *DATA analysis, *T-test (Statistics), *STATISTICAL sampling, *SPORTS injuries, *PILOT projects, *SHOULDER joint, *TORQUE, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *RESISTANCE training, *STRENGTH training, *ATHLETES, *PRE-tests & post-tests, *ROTATOR cuff, *HANDBALL, *ANALYSIS of variance, *STATISTICS, *SHOULDER injuries, *EXERCISE tests, *DATA analysis software, *ISOKINETIC exercise, *RANGE of motion of joints, *MUSCLE contraction, *SENSITIVITY & specificity (Statistics), *DISEASE risk factors, RESEARCH evaluation

Abstract

Context: The aim of this study was to investigate the effects of 8-week ballistic-strength-training program using a validated specific throwing device (ie, Arm/Shoulder Specific Strength Device), on isokinetic shoulders' rotation muscle-torques and ratios as well as range of motion in team handball players. Design: A repeated-measures experimental design with a randomized controlled trial was used. Methods: Twenty-six high-level competitive male U-19 team handball players were randomly assigned into training (TG, n = 15) and control (n = 11) groups. The TG undertook a twice a week for 8-week periodized throws program with an individually predetermined optimal load. The program incorporated shackled eccentric and concentric exercises using the Arm/Shoulder Specific Strength Device. Peak torques, functional, and conventional ratios for both arms at different angular velocities (60°·s−1, 180°·s−1, and 300°·s−1) were assessed over time and between groups, using an isokinetic dynamometer. Results: A significant improvement for TG (P <.01; d = 1.13 [moderate]; +20.2%) of the concentric peak torques for dominant arm in external rotation was observed at 300°·s−1. Significant (P <.05–.01) increases were also noted for nondominant arm at the 3 studied angular velocities. In addition, 300°·s−1 eccentric peak torques of the dominant arm and nondominant arm have significantly improved for both external and internal rotations (P <.05; d =.99 [moderate] and d = 1.21 [large]; +15.7% and + 17.9%, respectively) with small changes at the other angular assessed velocities. Posttraining, TG's dominant arm showed significant improvements (P <.05–.01) in functional and conventional ratios at all velocities. Notably, significant differences (P <.05–.01) were observed at 60°·s−1 and across all velocities when comparing the TG with the control group. TG showed significant increase for internal rotation and external rotation shoulder range of motions (P <.05; d = 1.22–1.27 [large]), +5.0% and +7.7%, respectively). Conclusions: The specific 8-week throwing training program on the Arm/Shoulder Specific Strength Device showed significant performance improvements in almost all assessed isokinetic concentric and eccentric peak torques as well as internal and external range of motion increase for both arms while ensuring rotator cuff torque ratios and shoulder mobility in team handball real sport-specific condition. [ABSTRACT FROM AUTHOR]

Published

2024

17. In Situ Power–Cadence Relationship for 2-, 5-, and 20-Minute Duration: A Proof of Concept in Under-19 Cyclists.

Author

Bertron, Yann, Bowen, Maximilien, Samozino, Pierre, Leo, Peter, Pacot, Alexandre, Quiclet, Jean-Baptiste, Hintzy, Frédérique, and Morel, Baptiste

Subjects

BIOMECHANICS, PHYSICAL training & conditioning, TORQUE, DESCRIPTIVE statistics, CYCLING, AMATEUR athletes, ATHLETIC ability

Abstract

Background: The force–velocity relationship suggests that maximal power (Pmax) can only be produced in optimal torque (Topt) and cadence (Copt). However, the cadence at which mean maximal power (MMP) is produced has never been studied. This study aimed to determine the individual MMP–cadence relationship from in situ data. Method: We analyzed 1 year of data from 14 under-19 cyclists and calculated the MMP for each cadence between 50 and 120 rpm for 2-, 5-, and 20-minute durations. The MMP–cadence relationship was fit with a second-order polynomial function. The goodness of fit (r2) and odd-day–even-day absolute and relative reliability were evaluated, respectively, for Pmax, Topt, and Copt. Results: The goodness of fit was very high for every duration studied. Topt and Pmax, but not Copt, were significantly higher for shorter durations. Pmax was significantly correlated only with Topt for the 3 durations (r2 =.63,.71, and.64 for 2, 5, and 20 min, respectively). Discussion: Evaluation of the MMP–cadence relationship from in situ data is feasible and reliable for 2-, 5-, and 20-minute durations. This profiling approach would enable better detection of the strengths and weaknesses of cyclists and make it possible to design more effective training interventions. Practical Applications: The analysis makes it possible to identify the torque versus cadence component that individually limits power production. Knowing the Copt for a given duration of maximal effort could help athletes choose the right gear ratio and regulate cadence during a race in order to maximize performance. [ABSTRACT FROM AUTHOR]

Published

2024

18. Hamstring Injuries, From the Clinic to the Field: A Narrative Review Discussing Exercise Transfer.

Author

Vicens-Bordas, Jordi, Sarand, Ali Parvaneh, Beato, Marco, and Buhmann, Robert

Subjects

HAMSTRING muscle injuries, EXERCISE physiology, EXERCISE therapy, KINEMATICS, TORQUE, ATHLETIC ability, SPRINTING, MUSCLE contraction

Abstract

Purpose: The optimal approach to hamstring training is heavily debated. Eccentric exercises reduce injury risk; however, it is argued that these exercises transfer poorly to improved hamstring function during sprinting. Some argue that other exercises, such as isometric exercises, result in better transfer to running gait and should be used when training to improve performance and reduce injury risk. Given the performance requirements of the hamstrings during the terminal swing phase, where they are exposed to high strain, exercises should aim to improve the torque production during this phase. This should improve the hamstrings' ability to resist overlengthening consequently, improving performance and limiting strain injury. Most hamstring training studies fail to assess running kinematics postintervention. Of the limited evidence available, only eccentric exercises demonstrate changes in swing-phase kinematics following training. Studies of other exercise modalities investigate effects on markers of performance and injury risk but do not investigate changes in running kinematics. Conclusions: Despite being inconsistent with principles of transfer, current evidence suggests that eccentric exercises result in transfer to swing-phase kinematics. Other exercise modalities may be effective, but the effect of these exercises on running kinematics is unknown. [ABSTRACT FROM AUTHOR]

Published

2024

19. Muscle Torque–Velocity Relationships and Fatigue With Reduced Knee Joint Range of Motion in Young and Older Adults.

Author

Smith, Zoe H., Martin, R. Anthony, Casto, Erica, Bigelow, Carol, Busa, Michael A., and Kent, Jane A.

Subjects

SKELETAL muscle physiology, MUSCLE fatigue, STATISTICAL significance, TORQUE, MANN Whitney U Test, DESCRIPTIVE statistics, KNEE joint, AGING, DATA analysis software, RANGE of motion of joints, MUSCLE contraction, ISOKINETIC exercise, ADULTS, OLD age

Abstract

The purpose of this study was to evaluate the influence of knee joint range of motion (RoM) on the torque–velocity relationship and fatigue in the knee extensor muscles of 7 young (median = 26 y) and 7 older (68 y) adults. Each leg was assigned a RoM (35° or 75°) over which to perform a torque–velocity protocol (maximal isokinetic contractions, 60–300°·s−1) and a fatigue protocol (120 maximal contractions at 120°·s−1, 0.5 Hz). Six older participants were unable to reach 300°·s−1 over 35°. Therefore, the velocity eliciting 75% of peak torque at 60°·s−1 (V75, °·s−1) was calculated for each RoM from a fit of individual torque–velocity curves (60–240°·s−1), and ΔV75 (35°–75°) was determined. Fatigue (final torque/initial torque) was used to calculate Δfatigue (35°–75°). ΔV75 was not different from 0 in young (−28.3°·s−1 [−158.6 to 55.7], median [range], P =.091) or older (−18.5°·s−1 [−95.0 to 23.9], P =.128), with no difference by age (P =.710). In contrast, fatigue was greater for 75° in young (Δfatigue = 25.9% [17.5–30.3], P =.018) and older (17.2% [11.9–52.9], P =.018), with no effect of age (P =.710). These data indicate that, regardless of age, RoM did not alter the torque–velocity relationship between 60 and 240°·s−1, and fatigue was greater with a larger RoM. [ABSTRACT FROM AUTHOR]

Published

2024

20. Influence of Pedal Interface During Pedaling With the Upper Versus Lower Limbs: A Pilot Analysis of Torque Performance and Muscle Synergies.

Author

Vigouroux, Laurent, Cartier, Théo, and Rao, Guillaume

Subjects

TORQUE, EFFECTS pedals, ELECTROMYOGRAPHY

Abstract

Pedaling is a physical exercise practiced with either the upper or the lower limbs. Muscle coordination during these exercises has been previously studied using electromyography and synergy analysis, and three to four synergies have been identified for the lower and upper limbs. The question of synergy adaptabilities has not been investigated during pedaling with the upper limbs, and the impact of various modalities is yet not known. This study investigates the effect of pedal type (either clipped/gripped or flat) on the torque performance and the synergy in both upper and lower limbs. Torques applied by six participants while pedaling at 30% of their maximal power have been recorded for both upper and lower limbs. Electromyographic data of 11 muscles on the upper limbs and 11 muscles on the lower limbs have been recorded and synergies extracted and compared between pedal types. Results showed that the torques were not modified by the pedal types for the lower limbs while a deep adaptation is observable for the upper limbs. Participants indeed used the additional holding possibility by pulling the pedals on top of the pushing action. Synergies were accordingly modified for upper limbs while they remain stable for the lower limbs. In both limbs, the synergies showed a good reproducibility even if larger variabilities were observed for the upper limbs. This pilot study highlights the adaptability of muscle synergies according to the condition of movement execution, especially observed for the upper limbs, and can bring some new insights for the rehabilitation exercises. [ABSTRACT FROM AUTHOR]

Published

2024

21. Comparison of Screw Loosening and Fracture Resistance in Different Hybrid Abutment Crown Restorations After Thermomechanical Aging.

Author

Karaoğlu, Öykü, Nemli, Seçil Karakoca, Bal, Turhan, and Güngör, Merve Bankoğlu

Subjects

DENTAL fillings, MATERIALS testing, DENTAL abutments, COMPLICATIONS of prosthesis, RESEARCH funding, DENTAL materials, TITANIUM, LITHIUM compounds, DENTAL crowns, TORQUE, METALS, PERIPROSTHETIC fractures

Abstract

Purpose: To investigate the screw loosening and fracture resistance of different hybrid abutment crown restorations after thermomechanical aging. Materials and Methods: Restorations were produced from zirconia, lithium disilicate, and hybrid ceramics with a CAD/CAM system (n = 10). Restorations and titanium bases (Ti-bases) were cemented, and the abutment screws were torqued to 30 Ncm. They were retorqued after 10 minutes, and then the removal torque values (RTVs) were measured. After 250,000 and 500,000 cycles of thermomechanical aging were completed, the RTVs were measured again, and removal torque loss (RTL) ratios were calculated. The specimens were subjected to a fracture resistance test after 750,000 cycles of thermomechanical aging, and the load at failure was recorded as the fracture resistance (N). The results were statistically analyzed (a = .05). Results: Aging was effective on the RTVs and RTL ratios (P < .001). The highest RTV was observed before aging; however, the RTVs significantly decreased and RTL ratios significantly increased after aging (P < .05). The fracture resistance values significantly differed among the ceramic materials. All lithium disilicate and hybrid ceramic specimens showed restoration fracture and most of the zirconia specimens showed Ti-base-related failure. Conclusions: Hybrid abutment crowns made of zirconia, lithium disilicate, and hybrid ceramics can withstand the average occlusal forces in the molar region; however, the ceramic type may affect the failure type. Retightening of the abutment screws after 10 minutes following the first tightening and annually may be beneficial to prevent the adverse effects of screw loosening on the integrity of the implant-abutment connection. [ABSTRACT FROM AUTHOR]

Published

2024

22. A Comprehensive Study on Implant Stability Quotient (ISQ) in View of Resonance Frequency and Spectrum Analysis.

Author

Weiwei Xu, Yen-Wei Chen, Kanako Nagatomo, Yifeng Liu, Jihai Zhou, and Shen, I. Y.

Subjects

MANDIBLE surgery, DENTAL implants, MATERIALS testing, RESONANCE frequency analysis, BONE density, RESEARCH funding, DENTAL materials, DENTAL casting, TORQUE, DESCRIPTIVE statistics, SPECTRUM analysis, BICUSPIDS

Abstract

Purpose: To investigate how well an implant stability quotient (ISQ) represents resonance frequency. Materials and Methods: Benchtop experiments on standardized samples that replicated a mandibular premolar site were conducted to correlate an ISQ value and a resonance frequency to synthetic bone density and an incremental insertion torque; then, a frequency spectrum analysis was performed to check the validity of the resonance frequency analysis (RFA). Brånemark Mk III implants (4 × 11.5 mm; Nobel Biocare) were placed in Sawbones test models of five different densities (40, 30, 40/20, 20, and 15 PCF). An incremental insertion torque was recorded during implant placement. To perform stability measurements, the test models were partially clamped in a vise (unclamped volume: 10 × 20 × 34 mm). A MulTipeg (Integration Diagnostics) was attached to the implants, and a Penguin (Integration Diagnostics) RFA measured ISQ. Simultaneously, the MulTipeg motion was monitored via a laser Doppler vibrometer and processed by a spectrum analyzer to obtain the resonance frequency. Tightness of the clamp was adjusted to vary the resonance frequency. A statistical analysis produced a linear correlation coefficient (R) among the measured ISQ, resonance frequency, and incremental insertion torque. Results: The resonance frequency had high correlation to the incremental insertion torque (R = 0.978), confirming the validity of using RFA for this study. Measured ISQ data were scattered and had low correlation to the resonance frequency (R = 0.214) and the incremental insertion torque (R = 0.386). The spectrum analysis revealed the simultaneous presence of multiple resonance frequencies. Conclusions: For the designed benchtop tests, resonance frequency does indicate implant stability in view of Sawbones density and incremental insertion torque. However, ISQ measurements do not correlate to the resonance frequency and may not reflect the stability when multiple resonance frequencies are present simultaneously. [ABSTRACT FROM AUTHOR]

Published

2024

23. Use of a Novel Artificial Intelligence Tool for Evaluating Primary Stability and Immediate Loading Suitability of Dental Implants: An In Vitro Pilot Study.

Author

Degidi, Marco and Daprile, Giuseppe

Subjects

DENTAL implants, MATERIALS testing, IN vitro studies, PROSTHETICS, ARTIFICIAL intelligence, PILOT projects, DENTURES, TORQUE, DESCRIPTIVE statistics, POLYURETHANES, DENTISTRY

Abstract

Purpose: To evaluate the correspondence between output from a new artificial intelligence tool (AIT) and clinician evaluation regarding the immediate loading suitability of dental implants based on insertion torque curves recorded during implant placement in an in vitro test. The secondary aim was to analyze peak insertion torque (PIT) and variable torque work (VTW) values of the implants. Materials and Methods: The study was performed with four different densities of artificial bone blocks of solid rigid polyurethane without a cortical layer. Five types of implants with different macrogeometries were used. A total of 140 implants (7 implants of each type in the four polyurethane blocks) were inserted. Immediately after implant placement, the insertion torque curves were classified by the operator as suitable (S) or nonsuitable (NS) for immediate loading. The same curves were then analyzed by the new AIT, which classified them as belonging to the "YES" or "NO" class. For each implant, PIT and VTW values were also recorded. Results: The correspondence between clinician and AIT evaluation was 99.3%, with only one false negative reported by the algorithm analysis. The AIT was found to have a sensitivity of 98.95%, specificity of 100%, positive predictive value of 100%, and negative predictive value of 97.8%. Mean PIT of the whole sample was 34.19 ± 19.43 Ncm, while mean VTW was 2,266.89 ± 1,993.73 Ncm. Statistically significant differences were found between implant systems in the whole sample and according to density of the polyurethane block. Conclusions: The AIT showed a high level of accuracy in the prediction of immediate loading suitability of dental implants based on the provided insertion torque curves. All the implants used in the in vitro test achieved good levels of primary stability, except when inserted in the least-dense polyurethane block. Clinical studies conducted with larger samples and more clinicians are necessary to confirm these results. [ABSTRACT FROM AUTHOR]

Published

2024

24. The Relationship of Open- and Closed-Kinetic-Chain Rate of Force Development With Jump Performance Following Anterior Cruciate Ligament Reconstruction.

Author

Graham, Megan C., Reeves, Kelsey A., Janatova, Tereza, and Noehren, Brian

Subjects

KNEE physiology, EXERCISE physiology, BIOMECHANICS, ANTERIOR cruciate ligament surgery, T-test (Statistics), EXERCISE therapy, EXERCISE intensity, TORQUE, MUSCLE strength, JUMPING, BODY movement, RANGE of motion of joints

Abstract

Purpose: To determine between-limbs differences in isometric rate of force development (RFD) measured during open- (OKC) and closed-kinetic-chain (CKC) strength testing and establish which method had the strongest relationship to single-leg vertical-jump performance and knee mechanics after anterior cruciate ligament (ACL) reconstruction. Methods: Subjects (n = 19) 1 to 5 years from ACL reconstruction performed isometric knee extensions (OKC), unilateral isometric midthigh pulls (CKC), and single-leg vertical jumps on the ACL-involved and -noninvolved limbs. Between-limbs differences were assessed using paired t tests, and the relationship between RFD, jump performance, and knee mechanics was assessed using correlation coefficients (r; P ≤.05). Results: There were significant between-limbs differences in OKC RFD (P =.008, d = −0.69) but not CKC RFD. OKC RFD in the ACL-involved limb had a strong association with jump height (r =.64, P =.003), knee-joint power (r =.72, P <.001), and peak knee-flexion angle (r =.72, P =.001). CKC RFD in the ACL-involved limb had a strong association with jump height (r =.65, P =.004) and knee-joint power (r =.67, P =.002) but not peak knee-flexion angle (r =.40, P =.09). Conclusions: While both OKC and CKC RFD were strongly related to jump performance and knee-joint power, OKC RFD was able to detect between-limbs RFD asymmetries and was strongly related to knee-joint kinematics. These findings indicate that isometric knee extension may be optimal for assessing RFD after ACL reconstruction. [ABSTRACT FROM AUTHOR]

Published

2024

25. Torques within and outside the human spindle balance twist at anaphase

Author

Neahring, Lila, Cho, Nathan H, He, Yifei, Liu, Gaoxiang, Fernandes, Jonathan, Rux, Caleb J, Nakos, Konstantinos, Subramanian, Radhika, Upadhyayula, Srigokul, Yildiz, Ahmet, and Dumont, Sophie

Subjects

Biochemistry and Cell Biology, Biological Sciences, Genetics, 1.1 Normal biological development and functioning, Humans, Anaphase, Spindle Apparatus, Kinesins, Microtubules, Dyneins, Torque, Chromosome Segregation, Actin Cytoskeleton, Microtubule-Associated Proteins, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

At each cell division, nanometer-scale motors and microtubules give rise to the micron-scale spindle. Many mitotic motors step helically around microtubules in vitro, and most are predicted to twist the spindle in a left-handed direction. However, the human spindle exhibits only slight global twist, raising the question of how these molecular torques are balanced. Here, we find that anaphase spindles in the epithelial cell line MCF10A have a high baseline twist, and we identify factors that both increase and decrease this twist. The midzone motors KIF4A and MKLP1 are together required for left-handed twist at anaphase, and we show that KIF4A generates left-handed torque in vitro. The actin cytoskeleton also contributes to left-handed twist, but dynein and its cortical recruitment factor LGN counteract it. Together, our work demonstrates that force generators regulate twist in opposite directions from both within and outside the spindle, preventing strong spindle twist during chromosome segregation.

Published

2024

26. Validity and Reliability of Handheld Dynamometry to Assess Isometric Hamstrings and Quadriceps Strength at Varying Muscle Lengths.

Author

Baron, Margaux, Divernois, Gilles, Grandjean, Benoît, and Guex, Kenny

Subjects

*HAMSTRING muscle physiology, *QUADRICEPS muscle physiology, *HIP joint physiology, *PEARSON correlation (Statistics), *DATA analysis, *TORQUE, *MUSCLE strength, *KNEE joint, *RESEARCH methodology, *STATISTICS, *INTRACLASS correlation, *MEDICAL equipment reliability, *EXERCISE tests, *DATA analysis software, *MUSCLE contraction, *PHYSICAL therapy students, *RANGE of motion of joints

Abstract

Context: The hamstrings are the most commonly injured muscle in sports and are especially injury prone in lengthened positions. Measuring knee muscle strength in such positions could be relevant to establish injury risk. Handheld dynamometry has been shown to be a valid, reliable, and practical tool to measure isometric muscle strength clinically. The aim of this study was to assess the validity and reliability of the assessment of isometric knee muscle strength with a handheld dynamometer (HHD) at various muscle lengths, by modifying the hip and knee angles during testing. Design: Concurrent validity and test--retest reliability. Methods: Thirty young healthy participants were recruited. Hamstring and quadriceps isometric strength was measured with a HHD and with an isokinetic dynamometer, over 2 testing sessions, in a randomized order. Isometric strength was measured on the right lower limb in 6 different positions, with the hip at either 0° or 80° of flexion and the knee at either 30°, 60°, or 90° of flexion. Pearson and Spearman correlations were used to assess the validity, and intraclass correlation coefficients were calculated to establish the test--retest reliability of the HHD. Results: Good to excellent reliability and moderate to high validity were found in all the tested muscle length positions, except for the hamstrings in a seated position with the knee extended at 30°. Conclusions: The use of a HHD is supported in the clinical setting to measure knee muscle strength at varying muscle lengths in healthy adults, but not for the hamstrings in a lengthened position (hip flexed and knee extended). These results will have to be confirmed in sport-specific populations. [ABSTRACT FROM AUTHOR]

Published

2024

27. Enhancement of spin–orbit torque and magnetization switching by Pt100–xWx alloy in Co-based films.

Author

Liang, Hongming, Li, Kuo, Xu, Mingyang, Zhang, Yao, Liu, Peiqiao, Wang, Sizhe, Sun, Zhiwen, Yang, Ruizhi, Yu, Guanghua, and Li, Minghua

Subjects

*PERPENDICULAR magnetic anisotropy, *TUNGSTEN alloys, *MAGNETIZATION, *HEAVY metals, *ALLOYS, *TORQUE, *HEUSLER alloys, *TANTALUM

Abstract

Alloying heavy metals (HMs) has been an effective method for enhancing the efficiency of spin–orbit torque. In this study, we demonstrate that Pt100−xWx/Pt/Co/Ta multilayers still maintain perpendicular magnetic anisotropy after high-temperature annealing. Doping tungsten (W) into HM platinum (Pt) at the bottom of a Pt/Co/Ta multilayer significantly increases the spin Hall angle (θ S H ) and reduces the critical switching current density (Jc). The harmonic Hall test results show that the θ S H of the Pt88W12 alloy film is approximately 0.29, which is higher than that of the pure Pt film (0.15). The magnetization switching test reveals that the Jc of Pt94W6 alloy film is approximately 4.892 × 106 A/cm2, which is 51.9% lower than that of the pure Pt film. This study offers a valuable method for reducing power consumption and enhancing the efficiency of related application devices. [ABSTRACT FROM AUTHOR]

Published

2024

28. Strongly temperature-dependent spin–orbit torque in sputtered WTex.

Author

Ren, Zheyu, Liu, Ruizi, Cheung, Shunkong, Qian, Kun, Wu, Xuezhao, Xiao, Zhihua, Tong, Zihan, Liu, Jiacheng, and Shao, Qiming

Subjects

*PERPENDICULAR magnetic anisotropy, *MAGNETIC structure, *TORQUE, *CRYOGENICS

Abstract

Topological materials have shown promising potential in the spintronics application due to their conspicuous efficiency of charge-to-spin conversion. Our research investigates the temperature-dependent spin–orbit torque (SOT) from sputtered WTex. We reveal a strong temperature dependence of SOT and realize the current-induced SOT switching of WTex with perpendicular magnetic anisotropy structure under a wide range of 12 K to room temperature. Our findings reveal the temperature dependence of sputtered WTex and may pave the way for the spintronics application of semimetals under cryogenic temperature. [ABSTRACT FROM AUTHOR]

Published

2024

29. Strongly temperature-dependent spin–orbit torque in sputtered WTex.

Author

Ren, Zheyu, Liu, Ruizi, Cheung, Shunkong, Qian, Kun, Wu, Xuezhao, Xiao, Zhihua, Tong, Zihan, Liu, Jiacheng, and Shao, Qiming

Subjects

PERPENDICULAR magnetic anisotropy, MAGNETIC structure, TORQUE, CRYOGENICS

Abstract

Topological materials have shown promising potential in the spintronics application due to their conspicuous efficiency of charge-to-spin conversion. Our research investigates the temperature-dependent spin–orbit torque (SOT) from sputtered WTex. We reveal a strong temperature dependence of SOT and realize the current-induced SOT switching of WTex with perpendicular magnetic anisotropy structure under a wide range of 12 K to room temperature. Our findings reveal the temperature dependence of sputtered WTex and may pave the way for the spintronics application of semimetals under cryogenic temperature. [ABSTRACT FROM AUTHOR]

Published

2024

30. Effects of Static Hamstring Stretching on Maximal Sprint Speed and Relationship With Nordic Hamstring Strength.

Author

Yusuke Ozaki and Takeshi Ueda

Subjects

SPRINTING, MALE college students, SPEED, KINEMATICS, TORQUE

Abstract

This study aimed to determine the acute effects of static stretching of the hamstrings on maximal sprint speed and its spatiotemporal variables and lower-limb kinematics during the late swing phase, as well as the relationship with Nordic hamstring strength. The study had a within-participant experimental design. Sixteen healthy male college sprinters were asked to sprint 80 m without static stretching and with static stretching of the hamstrings for 4 x 30 s per leg before the sprint: both conditions were counterbalanced. The knee ftexion peak torque was measured using the Nordic hamstring. The differences between no static stretching and static stretching as well as their relationship with Nordic hamstri ng strength were investigated. The results showed that the touchdown distance (p = .036) significantly increased following static stretching. Although not significant. maximal sprint speed decreased (p = .086), and the theoretical hamstring length (difference between knee angle and hip angle) at ipsilateral touchdown was greater (p =.069) following static stretching. In addition, a lower peak torque of the Nordic hamstring resulted in a more significant decrease in maximal sprint speed following static stretching. Therefore, static stretching of the hamstring just before sprinting may increase the theoretical hamstring length during the late swing phase at maximal sprint speed and induce kinematics that increases the hamstring strain injury risk. Moreover, it is suggested that improving the Nordic hamstring strength may help minimize the negative effects of static stretching on the hamstrings. [ABSTRACT FROM AUTHOR]

Published

2024

31. Principal Components Analysis Based Sticking for Drill Rod

Author

Li, Dongmin, Xia, Shangfei, Li, Jia, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Lan, Xuguang, editor, Mei, Xuesong, editor, Jiang, Caigui, editor, Zhao, Fei, editor, and Tian, Zhiqiang, editor

Published

2025

32. Assessment of Operational Parameters of a Raise Borer Machine for Raise Drivage in Hard Rock

Author

Vishwakarma, A. K., Himanshu, V. K., Murthy, V. M. S. R., Vishwakarma, M., Bezaeva, Natalia S., Series Editor, Gomes Coe, Heloisa Helena, Series Editor, Nawaz, Muhammad Farrakh, Series Editor, Gorai, Amit Kumar, editor, Ram, Sahendra, editor, Bishwal, Ram Manohar, editor, and Bhowmik, Santanu, editor

Published

2025

33. Spin-torque nano-oscillator based on two in-plane magnetized synthetic ferrimagnets.

Author

Monteblanco, E., Garcia-Sanchez, F., Romera, M., Gusakova, D., Buda-Prejbeanu, L. D., and Ebels, U.

Subjects

*FLUX pinning, *TORQUE, *MICROWAVES, *DISPERSION (Chemistry)

Abstract

We report the dynamic characterization of the spin-torque-driven in-plane precession modes of a spin-torque nano-oscillator based on two different synthetic ferrimagnets: a pinned one characterized by a strong Ruderman–Kittel–Kasuya–Yosida (RKKY) interaction, which is exchange-coupled to an antiferromagnetic layer; and a non-pinned one characterized by weak RKKY coupling. The microwave properties associated with the steady-state precession of both synthetic ferrimagnets (SyFs) are characterized by high spectral purity and power spectral density. However, frequency dispersion diagrams of the damped and spin-transfer torque modes reveal drastically different dynamical behavior and microwave emission properties in both SyFs. In particular, the weak coupling between the magnetic layers of the non-pinned SyF raises discontinuous dispersion diagrams suggesting a strong influence of mode crossing. An interpretation of the different dynamical features observed in the damped and spin-torque modes of both SyF systems was obtained by solving simultaneously, in a macrospin approach, a linearized version of the Landau–Lifshitz–Gilbert equation including the spin-transfer torque term. [ABSTRACT FROM AUTHOR]

Published

2024

34. Magnon-mediated spin Hall magnetoresistance and unidirectional magnetoresistance in Pt/NiO/NiFe structures.

Author

Wang, Bo, Zhang, Quanzhi, Guo, Yonghai, Li, Wangda, Zhang, Bo, and Cao, Jiangwei

Subjects

*MAGNETORESISTANCE, *NUCLEAR spin, *SPIN-orbit interactions, *ELECTRON diffusion, *MAGNONS, *MAGNETIZATION, *TORQUE

Abstract

Spin–orbit torque provides an efficient strategy for electric manipulation of magnetization. However, Joule heat accompanying with electron motion in the electron-mediated spin current result in unavoidable power dissipation. Moreover, the spin diffusion length in electron-mediated spin current is relatively short, preventing the transmission of spin information over long distances. Magnon-mediated spin current, without moving electrons, can be an excellent alternative to the conventional spin current. Magnon-mediated transfer torque effect has been reported in several previous works. Here, we report the magnon-mediated spin Hall magnetoresistance (SMR) and unidirectional magnetoresistance (UMR) in Pt/NiO/NiFe structures. The significant SMR and UMR were observed in the samples with the NiO thickness up to 60 nm, demonstrating the efficient transmission of magnon-mediated spin current over long distances in the NiO layer. In addition, we observed current-induced in-plane magnetization switching in the NiFe layer via the UMR measurement. These results demonstrated the possibility for developing the efficient spintronic devices operated by magnons. [ABSTRACT FROM AUTHOR]

Published

2024

35. Influence of Graft Type and Meniscal Involvement on Short-Term Outcomes Following Anterior Cruciate Ligament Reconstruction.

Author

Moler, Casey, Cross, Kevin M., Kaur, Mandeep, Bruce Leicht, Amelia, Hart, Joe, and Diduch, David

Subjects

*KNEE physiology, *HAMSTRING muscle physiology, *TENDON transplantation, *HAMSTRING muscle surgery, *EXERCISE tests, *STATISTICS, *TORQUE, *RANGE of motion of joints, *ANALYSIS of variance, *CROSS-sectional method, *POINT-of-care testing, *MULTIVARIATE analysis, *HEALTH outcome assessment, *MENISCECTOMY, *AUTOGRAFTS, *FUNCTIONAL assessment, *PATELLAR tendon, *INTERPROFESSIONAL relations, *ANALYSIS of covariance, *CHI-squared test, *MUSCLE strength, *DESCRIPTIVE statistics, *DECISION making, *QUESTIONNAIRES, *ANTERIOR cruciate ligament surgery, *MENISCUS injuries, *BONE grafting, *WEIGHT-bearing (Orthopedics)

Abstract

Context: The purpose of this study was to compare short-term clinical outcomes between meniscus procedures performed with anterior cruciate ligament reconstruction (ACLR), ACLR (ACLR-only), ACLR with meniscectomy/resection (ACLR-resect), and ACLR with meniscal repair (ACLR-repair) for bone patellar tendon bone grafts (BPTB) and hamstring tendon grafts, separately. Design: This was a cross-sectional study conducted in a controlled laboratory setting as part of a large point-of-care collaborative research program. Methods: This study included 314 participants (168 females; mean [SD]: age, 19.7 [4.8]) with primary unilateral ACLR with a BPTB or hamstring tendon. Patients were divided into 3 groups depending on meniscal procedure (ACLR-only, ACLR-resect, and ACLR-repair). Postsurgical testing included: isokinetic assessment of knee extension and flexion, single-leg hop tests, and patient-reported outcomes. Multivariate analysis of covariance compared differences between meniscal procedures on the battery of tests, and for each statistically significant variable an analysis of covariance assessed the effect of meniscal procedure within each graft type. Chi-square analysis assessed the influence of meniscal procedure on tests' pass rates defined as 90% of limb symmetry index. Results: BPTB: ACLR-only had greater hamstring strength than ACLR-resect (P = .05) and ACLR-repair (P = .005). ACLR-only had the highest proportion of participants to pass the hamstring strength test (P=.02). amstring tendon: ACLR-only (P=.03) and ACLR-resect (P=.003) had higher International Knee Documentation Committee scale scores than ACLR-repair. There was a significant difference in the proportion of participants who scored >90% limb symmetry index on the timed hop test (P = .05). Conclusions: The influence of meniscal repair on clinical outcomes is dependent on the graft choice. Following an ACLR with BPTB and a meniscal procedure, hamstring function should be more closely monitored for optimal short-term recovery. [ABSTRACT FROM AUTHOR]

Published

2024

36. Pulsed Red and Blue Photobiomodulation for the Treatment of Thigh Contusions and Soft Tissue Injury: A Randomized Controlled Trial.

Author

Wells, Aaron, Rigby, Justin, Castel, Chris, and Castel, Dawn

Subjects

*SKELETAL muscle physiology, *BRUISES, *DATA analysis, *STATISTICAL sampling, *TREATMENT effectiveness, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *ANALYSIS of covariance, *TORQUE, *PRE-tests & post-tests, *MUSCLE strength, *THIGH, *MEDICAL appointments, *RECTUS femoris muscles, *CONVALESCENCE, *STATISTICS, *SOFT tissue injuries, *COMPARATIVE studies, *QUADRICEPS muscle, *DATA analysis software, *PHOTOBIOMODULATION therapy, *ISOKINETIC exercise, *EVALUATION

Abstract

Context: Contusion and soft tissue injuries are common in sports. Photobiomodultion, light and laser therapy, is an effective aid to increase healing rates and improve function after various injury mechanisms. However, it is unclear how well photobiomodulation improves function after a contusion soft tissue injury. This study aimed to determine the effects of a pulsed red and blue photobiomodulation light patch on muscle function following a human thigh contusion injury. Design: Single-blinded randomized control trial design. Methods: We enrolled 46 healthy participants. Participants completed 5 visits on consecutive days. On the first visit, participants completed a baseline isokinetic quadriceps strength testing protocol at 60°/s and 180°/s. On the second visit, participants were struck in the rectus femoris of the anterior thigh with a tennis ball from a serving machine. Immediately following, participants were treated for 30 minutes with an active or placebo photobiomodulation patch (CareWear light patch system, CareWear Corp). Following the treatment, participants completed the same isokinetic quadriceps strength testing protocol. Participants completed the treatment and isokinetic quadriceps strength test during the following daily visits. We normalized the data by calculating the percent change from baseline. We used a mixed model analysis of covariance, with sex as a covariate, to determine the difference between treatment groups throughout the acute recovery process. Results: We found the active photobiomodulation treatment significantly increased over the placebo group, quadriceps peak torque during the 180°/s test (P =.030), and average power during both the 60°/s (P =.041) and 180°/s (P ≤.001) assessments. The mean peak torque and average power of 180°/s, at day 4, exceeded the baseline levels by 8.9% and 16.8%, respectively. Conclusions: The red and blue photobiomodulation light patch improved muscle strength and power during the acute healing phase of a human thigh contusion injury model. [ABSTRACT FROM AUTHOR]

Published

2024

37. Motor Transfer and Proactive Interference in Cycling With a Noncircular Chainring.

Author

Haab, Thomas, Leinen, Peter, and Panzer, Stefan

Subjects

CYCLING, SPORTS & technology, SPORTING goods, DEPENDENT variables, TORQUE

Abstract

Athletes must transfer their performance when changing equipment due to innovative developments in sports technology. This kind of transfer has received only moderate attention. The aim of this study was to examine whether a mechanical change in sports equipment disturbs an athlete's performance and affects biomechanical and neurophysiological parameters. Therefore, an experiment was conducted in which 36 participants in three groups pedaled at 70 rounds per minute on a cycling ergometer with a circular and a noncircular (NC) chainring. The dependent variables were the total variability of the cadence, torque effectiveness, and muscle cocontraction (electromyographic cocontraction) of four antagonistic acting muscle pairs. Data were recorded during an acquisition phase, a transfer phase, and a retention phase. The results revealed that practice on a circular chainring induces a positive transfer on the NC chainring for total variability without a proactive interference effect. Torque effectiveness did not change within or between groups during the acquisition, transfer, and retention phases. Torque effectiveness and electromyographic cocontraction were not affected when the chainrings were altered from Day 1 to Day 2. During the retention phase, electromyographic cocontraction was higher when using the NC chainring, but the difference was small in absolute terms. The results regarding transfer and proactive interference seem to be strongly dependent on the movement task and the change in sports equipment. Transfer from the circular to NC chainring indicates refined neuromuscular control and improved movement coordination. [ABSTRACT FROM AUTHOR]

Published

2024

38. Supraphysiologic Testosterone Administration Impairs Late Osseointegration in Male Rats.

Author

de Paiva Gonçalves, Vinícius, Eduardo Pinotti, Felipe, Carlos Spolidorio, Luís, Marcantonio Junior, Elcio, Pimentel Lopes de Oliveira, Guilherme José, and Paulo Steffens, Joao

Subjects

TIBIA surgery, BIOLOGICAL models, COMPUTER software, TORQUE, PROSTHETICS, TESTOSTERONE, ANIMAL experimentation, ARTIFICIAL implants, RATS, COMPARATIVE studies, EUTHANASIA, DESCRIPTIVE statistics, RESEARCH funding, TITANIUM, BONE density, OSSEOINTEGRATION

Abstract

Purpose: To evaluate the effect of supraphysiologic administration of testosterone in an early and late model of implant osseointegration in rat tibiae. Materials and Methods: A total of 40 rats were randomly allocated into four groups (n = 10/group), which were divided according to the type of experiment and time of osseointegration: (1) vehicle (14 days), (2) testosterone (14 days), (3) vehicle (42 days), and (4) testosterone (42 days). Testosterone cypionate (7.5 mg/kg) administration started 4 weeks before implant placement, and the injections were performed daily until euthanasia. Machined-surface titanium implants (2.2 mm in diameter and 4 mm high) were placed bilaterally in the tibia of animals 28 days after the first testosterone injection. At days 14 and 42 after implant placement, euthanasia was performed and the tibiae were harvested to perform biomechanical evaluation and histomorphometric analysis of bone-to-implant contact (BIC%) and bone between the threads (BBT%). Results: There was no statistical difference in the removal torque of the implants between the groups treated with the vehicle (control group) or testosterone (P > .05). At 14 days of osseointegration, the BIC% and BBT% did not differ between vehicle or testosterone groups (P > .05), while at 42 days, both the BIC% and BBT% were significantly reduced by testosterone compared to the vehicle group (P < .05). Conclusions: Testosterone cypionate in supraphysiologic dose impaired late-phase osseointegration in rat tibiae. [ABSTRACT FROM AUTHOR]

Published

2024

39. Six Weeks of Unilateral Flywheel Hip-Extension and Leg-Curl Training Improves Flywheel Eccentric Peak Power but Does Not Enhance Hamstring Isokinetic or Isometric Strength.

Author

de Keijzer, Kevin L., McErlain-Naylor, Stuart A., and Beato, Marco

Subjects

HAMSTRING muscle physiology, KNEE physiology, RESISTANCE training, KNEE joint, TORQUE, LEG, RANDOMIZED controlled trials, MUSCLE strength, STATISTICAL sampling

Abstract

Purpose: This preregistered trial investigated how 6 weeks of unilateral flywheel leg-curl and hip-extension training impact isokinetic, isometric, and flywheel strength and power outcomes. Methods: The study involved 11 male university athletes (age 22 [2] y; body mass 77.2 [11.3] kg; height 1.74 [0.09] m) with one leg randomly allocated to flywheel training and one leg to control. Unilateral eccentric and isometric knee-flexion torque and flywheel unilateral leg-curl and hip-extension peak power were tested. Training intensity and volume (3–4 sets of 6 + 2 repetitions) were progressively increased. Results: The intervention enhanced hip-extension concentric (P <.01, d = 1.76, large) and eccentric (P <.01, d = 1.33, large) peak power more than the control (significant interaction effect). Similarly, eccentric (P =.023, d = 1.05, moderate) peak power was enhanced for the leg curl. No statistically significant differences between conditions were found for isokinetic eccentric (P =.086, d = 0.77, moderate) and isometric (P =.431, d = 0.36, small) knee-flexor strength or leg-curl concentric peak power (P =.339, d = 0.52, small). Statistical parametric mapping analysis of torque–angle curves also revealed no significant (P >.05) time–limb interaction effect at any joint angle. Conclusion: Unilateral flywheel hamstring training improved knee-flexor eccentric peak power during unilateral flywheel exercise but not flywheel concentric, isokinetic eccentric, or isometric (long-lever) knee-flexor strength. [ABSTRACT FROM AUTHOR]

Published

2024

40. Benefits of Training the Iron Cross With Herdos Devices and External Load Added to Body Weight for Young Nonachiever Gymnasts.

Author

Marina, Michel, Torrado, Priscila, Ferrer-Uris, Blai, and Busquets, Albert

Subjects

TORQUE, BODY weight, SERRATUS anterior muscles, EXERCISE physiology, STRENGTH training, TRAPEZIUS muscle, COMPARATIVE studies, PECTORALIS muscle, LATISSIMUS dorsi (Muscles), BICEPS brachii, TRICEPS, EXERCISE intensity, GYMNASTICS, ELBOW, SCAPULA, DESCRIPTIVE statistics, ATHLETIC ability, ELECTROMYOGRAPHY, TERES major, EXERCISE equipment, SHOULDER, CHILDREN, ADOLESCENCE

Abstract

Purpose: To verify whether training the iron cross (IC) with assistive devices (herdos; HIC) and added external load (LHIC) to equate the moments of force developed on the rings could be considered an intermediate step between the nonoverloaded herdos situation (HIC) and the IC performed on the rings. Methods: Relative levels of surface electromyography (sEMG) activity were normalized with respect to a standing IC before comparing gymnasts who can perform the IC on the rings (achievers) and gymnast who cannot (nonachievers) in the 2 herdos conditions (HIC and LHIC). Seven muscles were chosen for sEMG analysis, namely, pectoralis major (PM), latissimus dorsi, teres major, lower trapezius, serratus anterior, biceps brachii (BB), and triceps brachii. Additionally, 3 indices were calculated to measure levels of coactivation: Elbowidx, Scapulaidx, and Shoulderidx. Results: The bigger magnitude of differences in sEMG activity among situations was found for the PM and BB (F ≥ 30.7; P <.001). When comparing the global and the PM, teres major, BB, and triceps brachii activity across groups, nonachievers activated their musculature to a greater extent than the achievers independently of the herdos situation (P ≤.046). Achievers' Elbowidx was the only index that was significantly higher (P ≤.005) in the IC in comparison to LHIC and HIC. Conclusion: sEMG activity of PM and BB was particularly sensitive between situations, independently of the level of achievement. We recommend training the IC by adding external load in the herdos situation to increase muscle activity to levels closer to the rings situation but avoiding the potential factor of injuries. [ABSTRACT FROM AUTHOR]

Published

2023

41. Open Foot Stance Reduces Lead Knee Joint Loading During Golf Swing.

Author

Stokes, Hannah, Escamilla, Rafael, Bellapianta, Joseph, Wang, Hongsheng, Beach, Tyson, Frost, Dave, and Zheng, Naiquan

Subjects

KNEE joint, TORQUE, CARTILAGE, RANGE of motion of joints, IRON, GAIT in humans, FOOT care, GOLF, SPORTS, IRON in the body, DISEASE incidence, LEG, COMPARATIVE studies, POSTURE, BIOMECHANICS, MOTION capture (Human mechanics), ATHLETIC ability, DIGITAL video

Abstract

Foot stance and club type's relationship with lead knee joint biomechanics and possible involvement with injury incidences in amateur golfers have not been evaluated. This study included 16 male right-handed amateur golfers who performed golf swings with 2 different foot stances (straight and open) using 4 different club types (driver, 3 iron, 6 iron, and 9 iron) while standing on 2 force plates in a motion capture laboratory. A custom program calculated the kinematics and kinetics of the lead knee. Overall, the open stance reduced most translations, rotations, forces, and torques of the lead knee in all 4 club types when compared with the straight stance. The open stance reduced the rotation motion (−28%), compressive force (−5%), and rotation torque (−9%) when compared with the straight stance, which are the highest contributors to grinding of cartilage. The driver club had significantly larger values in most translations, rotations, forces, and torques when compared among the 4 club types. The open stance reduced the rotation motion, compressive force, and rotation torque in the lead knee joint compared with the straight stance. Lead knee joint biomechanics should be monitored to reduce injury in amateur golfers. [ABSTRACT FROM AUTHOR]

Published

2023

42. Influence of rock properties on thrust and torque during rock coring operations a case study.

Author

Pasupuleti, Venkatachalam, Avnl, Sharma, and Chodavarapu, Vijaya Kumar

Subjects

*ROCK properties, *IMPACT strength, *COMPRESSIVE strength, *TENSILE strength, *MECHANICAL engineering

Abstract

The most important parameters for rock strength evaluations in excavation, mining, and mechanical engineering projects are the uniaxial compressive strength, Brazilian tensile strength, density, abrasivity, and impact strength index. To estimate these parameters, several laboratory investigations and nondestructive methods were proposed. The possibility of using time-saving models for predicting uniaxial compressive strength (UCS), Brazilian tensile strength (BTS), density, abrasivity, and impact strength index was investigated because of the difficulties in core specimen preparation. The novelty of this investigation was the prediction of rock properties using thrust and torque generated during rock coring operations. For this purpose, drilling experiments were conducted on seven different types of rock samples using a computer numerical control drilling machine. Based on the statistical analysis, simple linear regression equations were proposed for estimating rock properties, such as compressive strength, tensile strength, density, abrasivity, and impact strength index. The coefficient of determination (R2), values obtained for thrust are 90.8, 93.3, 80.7, 87.6, and 96.3%, for compressive strength, tensile strength, density, abrasivity, and impact strength index, respectively. Whereas the corresponding torque values are 84.9, 83.9, 95.9, 81.6, and 82.6%. The developed models can be used in the exploration and excavation developments for the prediction of rock properties. [ABSTRACT FROM AUTHOR]

Published

2025

43. Optimization of cathode channel design, bolt torque, and assembly mode for enhanced performance in air-cooled proton exchange membrane fuel cells.

Author

Deng, Zhijun, Liu, Kunxiang, Xing, Shuang, and Zhao, Chen

Subjects

*FUEL cells, *CATHODES, *TORQUE, *PROTON exchange membrane fuel cells

Abstract

This study investigates key performance determinants of air-cooled open-cathode PEMFCs, focusing on cathode channel design, assembly preload, and stack configuration. The anisotropic point structure channel design was found to enhance cell performance, with the staggered arrangement mode outperforming the parallel mode. Optimal bolt torque varies with bipolar plate dimensions, following a linear relationship: a 5 mm reduction in width increases the optimal torque by 2 N·m. An innovative double-stack configuration with a fan was introduced, with the optimal setup being a combination of a larger and smaller stack for maximum performance. These findings offer practical guidance for fuel cell design and assembly, advancing the viability of air-cooled PEMFCs. • The anisotropic point flow shows promise for cathode application in air-cooled. • A reduction of 5 mm with an approximate 2 N·m increase in the optimal preload. • The double stack with a fan has demonstrated feasibility and efficacy. • The larger stack for draw and a smaller for blowing, yielding superior performance. [ABSTRACT FROM AUTHOR]

Published

2025

44. Localization of Potential Energy in Hydrogen Bonds of the ATXN2 Gene.

Author

Drobotenko, Mikhail, Lyasota, Oksana, Dzhimak, Stepan, Svidlov, Alexandr, Baryshev, Mikhail, Leontyeva, Olga, and Dorohova, Anna

Abstract

It is known that a number of neurodegenerative diseases, also called diseases of waiting, are associated with the expansion of the polyQ tract in the first exon of the ATXN2 gene. In the expanded polyQ tract, the probability of occurrence of non-canonical configurations (hairpins, G-quadruplexes, etc.) is significantly higher than in the normal one. Obviously, for their formation, the occurrence of open states (OSs) is necessary. Calculations were made for these processes using the angular mechanical model of DNA. It has been established that the probability of the large OS zones genesis in a DNA segment depends not only on the "strength" of the nucleotide sequence but also on the factors determining the dynamics of DNA; localization of the energy in the DNA molecule and the potential energy of interaction between pairs of nitrogenous bases also depend on environmental parameters. The potential energy of hydrogen bonds does not remain constant, and oscillatory movements lead to its redistribution and localization. In this case, OSs effectively dissipate the energy of oscillations. Thus, mathematical modeling makes it possible to calculate the localization of mechanical energy, which is necessary for the OSs formation, and to predict the places of their origin, taking into account the mechanical oscillations of the DNA molecule. [ABSTRACT FROM AUTHOR]

Published

2025

45. Rolling torque of vibratory thru-feed rolling process for involute splined shaft.

Author

Liu, Dazhou, Ren, Hengwang, Cao, Yangfeng, Wang, Yongfei, and Zhao, Shengdun

Subjects

*FREQUENCIES of oscillating systems, *RESIDUAL stresses, *GRAIN size, *NONLINEAR analysis, *TORQUE

Abstract

A novel vibratory thru-feed rolling process for involute splined shafts was introduced and experimentally validated. The effects of lubricating medium, vibration frequency, and vibration amplitude on rolling torque were investigated and analyzed. Through experimental analysis and the use of a non-linear surface fit method, optimum process parameters were determined as 40 Hz for frequency and 0.5 mm for amplitude under oil lubrication. An additional experimental validation under these optimum conditions showed that rolling torque was reduced by 26.14%, providing a further decrease of 12.45% compared to the best results obtained without vibration. Moreover, the dimensional precision and mechanical performance remained within the specified requirements. In particular, the grain size underwent a refinement of 50.75%, residual compressive stress was improved by 145.44%, and hardness increased by 30.22%. [ABSTRACT FROM AUTHOR]

Published

2025

46. A discontinuous Galerkin/cohesive zone model approach for the computational modeling of fracture in geometrically exact slender beams.

Author

Kota, Sai Kubair, Kumar, Siddhant, and Giovanardi, Bianca

Subjects

*FRACTURE mechanics, *TORQUE, *DEGREES of freedom, *STRUCTURAL engineering, *DEFORMATIONS (Mechanics)

Abstract

Slender beams are often employed as constituents in engineering materials and structures. Prior experiments on lattices of slender beams have highlighted their complex failure response, where the interplay between buckling and fracture plays a critical role. In this paper, we introduce a novel computational approach for modeling fracture in slender beams subjected to large deformations. We adopt a state-of-the-art geometrically exact Kirchhoff beam formulation to describe the finite deformations of beams in three-dimensions. We develop a discontinuous Galerkin finite element discretization of the beam governing equations, incorporating discontinuities in the position and tangent degrees of freedom at the inter-element boundaries of the finite elements. Before fracture initiation, we enforce compatibility of nodal positions and tangents weakly, via the exchange of variationally-consistent forces and moments at the interfaces between adjacent elements. At the onset of fracture, these forces and moments transition to cohesive laws modeling interface failure. We conduct a series of numerical tests to verify our computational framework against a set of benchmarks and we demonstrate its ability to capture the tensile and bending fracture modes in beams exhibiting large deformations. Finally, we present the validation of our framework against fracture experiments of dry spaghetti rods subjected to sudden relaxation of curvature. [ABSTRACT FROM AUTHOR]

Published

2025

47. Final state control-based active compensation for backlash in vibration suppression of automobile powertrain.

Author

Hirata, Masaki, Yonezawa, Heisei, Yonezawa, Ansei, and Kajiwara, Itsuro

Subjects

*PARTICLE swarm optimization, *ACTIVE noise & vibration control, *AUTOMOBILE vibration, *TORQUE, *OSCILLATIONS

Abstract

This paper proposes an effective backlash compensation method based on the final state control (FSC) for active vibration control of an automobile powertrain. Transient vibration of the powertrain caused by sudden changes in the engine torque significantly degrades the driving performance and driver comfort. In addition, the nonlinear characteristics owing to the backlash increase the adverse effects of these oscillations. To suppress the transient vibration of the powertrain, a controller is designed based on the mixed H2/H∞ control theory. Subsequently, to adjust for the vibration amplification owing to the backlash, we propose the application of a shock-reducing controller based on the FSC. Linearly decreasing the inertia weight in particle swarm optimisation (LDWPSO) was applied to the design of this controller and parameters were optimised. Finally, simulations were conducted using the control method; the controller could prevent the occurrence of shocks owing to the gear collisions and achieved smooth an acceleration. [ABSTRACT FROM AUTHOR]

Published

2025

48. Validity and Intrarater Reliability of the FysioMeter—Measuring Eccentric Knee Flexor Force During the Nordic Hamstring Exercise.

Author

Støve, Morten Pallisgaard, Kristensen, Mathias Kringelholt, Nielsen, Jonas, and Madsen, Lea Dyhrberg

Subjects

*KNEE, *TORQUE, *REHABILITATION, *WOUNDS & injuries

Abstract

Between limb strength, asymmetry is a leading risk factor for hamstring strain re-injury. However, few accurate testing methodologies are available in clinical settings. This study examined the validity and reliability of eccentric knee flexor torque measured with a novel Nordic Hamstring Device. Twenty-seven healthy participants were assessed in two sessions. Maximal eccentric knee flexion torque was measured by the Biodex system 4 and during the Nordic Hamstrings Exercise in the FysioMeter. A moderate correlation was found between the FysioMeter and the Biodex (rho 0.674). Limits of agreement showed a bias of −43.9 Nm, suggesting that the FysioMeter underestimated the knee flexor peak torque compared with the Biodex. The FysioMeter showed excellent test–retest reliability (ICC 0.964). In conclusion, the FysioMeter provided moderately valid measures of knee flexor peak torque and excellent test–retest reliability. The FysioMeter could be a valuable tool for guiding rehabilitation in settings where access to isokinetic dynamometry is limited. [ABSTRACT FROM AUTHOR]

Published

2025

49. Sensorless control method of a delta winding brushless DC motor using a state observer.

Author

Son, Yung-Deug, Kim, Hyeong-Jin, and Kim, Jang-Mok

Subjects

*PHASE-locked loops, *ELECTROMOTIVE force, *TORQUE, *ROTORS, *SPEED, *BRUSHLESS electric motors

Abstract

Delta-winding brushless DC (BLDC) motors are advantageous for operations requiring high torque and speed. However, the application of conventional sensorless methods, such as those using zero-crossing point of the back-EMF detection, to the delta-winding BLDC motor is difficult because the delta-winding motors have a different characteristic in back electromotive force (EMF) from star-winding BLDC motors. Accordingly, this work proposes a sensorless control method that utilizes a double second-order generalized integrator phase locked loop with back-EMF estimation based on a state observer for the delta-winding BLDC motors. From the estimated back-EMF, a positive sequence sinusoidal back-EMF can be obtained and used to estimate the exact position of the rotor. The effectiveness of the proposed sensorless control method is verified through experimental results. [ABSTRACT FROM AUTHOR]

Published

2025

50. Effective properties of multi-laminated micropolar composites with Fibonacci and random structures.

Author

Espinosa-Almeyda, Yoanh, Guinovart-Sanjuán, David, Rodríguez-Ramos, Reinaldo, Camacho-Montes, Héctor, and Rodríguez-Bermúdez, Panters

Subjects

*ASYMPTOTIC homogenization, *FIBONACCI sequence, *VALUES (Ethics), *TRANSVERSAL lines, *TORQUE, *MICROPOLAR elasticity

Abstract

In this work, the two-scale asymptotic homogenization method (AHM) is developed to describe the effective behavior of multi-laminated elastic micropolar composites with Fibonacci and random structure under perfect contact conditions at the interfaces. The local problem statements over the periodic cell Y are presented, and the corresponding effective stiffness and torque properties are reported. The transversal cross-section of the periodic cell Y is characterized by a laminated structure where the pattern for the layers follows two distinct configurations: (a) a Fibonacci arrangement, and (b) a random sequence focused on the probabilistic binomial function. The non-null effective properties of multi-laminated Cosserat elastic composites with isotropic centro-symmetric constituents are listed. Numerical results for multi-laminated elastic micropolar composites with both types of structures and centro-symmetric isotropic constituents are illustrated and discussed. The overall effective behavior for both cases converges to specific effective values of periodic structures as the number of layers increases. [ABSTRACT FROM AUTHOR]

Published

2025