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Journal articles on the topic 'Flexible mechanics'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Grotberg, James B., and Oliver E. Jensen. "BIOFLUID MECHANICS IN FLEXIBLE TUBES." Annual Review of Fluid Mechanics 36, no. 1 (2004): 121–47. http://dx.doi.org/10.1146/annurev.fluid.36.050802.121918.

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2

Fu, Kun Kelvin, Jian Cheng, Teng Li, and Liangbing Hu. "Flexible Batteries: From Mechanics to Devices." ACS Energy Letters 1, no. 5 (2016): 1065–79. http://dx.doi.org/10.1021/acsenergylett.6b00401.

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3

Muftu, Sinan. "W3 Mechanics of Thin, Flexible, Translating Media and Their Interactions with Surrounding Air." Proceedings of the Conference on Information, Intelligence and Precision Equipment : IIP 2005 (2005): 15–20. http://dx.doi.org/10.1299/jsmeiip.2005.15.

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4

Su, Li Ya. "Mechanics Analysis of Flexible Base Pavement Structure." Applied Mechanics and Materials 580-583 (July 2014): 632–35. http://dx.doi.org/10.4028/www.scientific.net/amm.580-583.632.

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With the rapid development of traffic cause in our country, the operating requirement of driving load factors to pavement structure become higher and higher. The Semi-rigid base asphalt pavement structure exposed some defects and shortcomings, so the study of flexible base asphalt pavement structure is put on the agenda under the circumstances.Based on the research achievements at home and abroad of the existing asphalt pavement structure , choosing different elastic modulus and thickness to calculate and analyze the flexible base by ANSYS, gaining the law and trend of mechanics response (the
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5

Liang, Xudong, and Alfred J. Crosby. "Uniaxial stretching mechanics of cellular flexible metamaterials." Extreme Mechanics Letters 35 (February 2020): 100637. http://dx.doi.org/10.1016/j.eml.2020.100637.

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6

Yoon, Ji-Won, Tae-Won Park, Soo-Ho Lee, Kab-Jin Jun, and Sung-Pil Jung. "Synthetic analysis of flexible multibody system including a very flexible body." Journal of Mechanical Science and Technology 23, no. 4 (2009): 942–45. http://dx.doi.org/10.1007/s12206-009-0317-4.

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7

Chou, Tsu-Wei. "Flexible composites." Journal of Materials Science 24, no. 3 (1989): 761–83. http://dx.doi.org/10.1007/bf01148757.

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8

Bratus', A. S., and I. A. Zharov. "Optimal design of flexible rods." Soviet Applied Mechanics 26, no. 3 (1990): 283–89. http://dx.doi.org/10.1007/bf00937217.

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9

Liu, Kai Fu, Yi Hu, Yi Jun Zhu, Zhi Yan Zou, and Jin Ping Mao. "Effect of Flexible Pile on Rigid Flexible Pile Composite Foundation with Geogrid Reinforced Cushion." Advanced Materials Research 1065-1069 (December 2014): 119–22. http://dx.doi.org/10.4028/www.scientific.net/amr.1065-1069.119.

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Compared with pile-supported reinforced embankments, rigid-flexible pile composite foundation with geogrid reinforced cushion (RFPCFGRC) has its advantage of its economics. Piles play an important role in rigid flexible pile composite foundation with geogrid reinforced cushion. The bearing mechanics of RFPCFGRC is more complicated than that of pile-supported reinforced embankments because of addition of flexible piles. This paper discussed the diffence and the bearing mechanics of the two types of composidte foundation. The results show that addition of flexible piles has changed bearing mecha
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10

Huo, Mingshuai, Jingwei Zhao, Haibo Xie, and Zhengyi Jiang. "Analysis of contact mechanics in micro flexible rolling." Procedia Manufacturing 15 (2018): 1467–74. http://dx.doi.org/10.1016/j.promfg.2018.07.333.

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11

Yao, X. F., Y. M. Lei, C. Xiong, and Q. Wu. "Mechanics Analysis on Helium Leakage of Flexible Composites." Mechanics of Advanced Materials and Structures 19, no. 8 (2012): 603–12. http://dx.doi.org/10.1080/15376494.2011.563412.

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12

Zagar, Goran, Patrick R. Onck, and Erik Van der Giessen. "Mechanics of Biophysical Networks with Flexible Cross-links." Biophysical Journal 96, no. 3 (2009): 122a—123a. http://dx.doi.org/10.1016/j.bpj.2008.12.544.

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13

Lanzoni, Luca, and Angelo Marcello Tarantino. "Mechanics of High-Flexible Beams Under Live Loads." Journal of Elasticity 140, no. 1 (2020): 95–120. http://dx.doi.org/10.1007/s10659-019-09759-3.

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14

Lu, Haibao, Shaoxing Qu, and Xiqiao Feng. "Preface: Mechanics of soft materials and flexible structures." Acta Mechanica Sinica 37, no. 5 (2021): 746–47. http://dx.doi.org/10.1007/s10409-021-01107-w.

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15

Cheng, Yuan Zheng, and Guang Yu Shi. "Equivalent Mechanical Properties of Graphene Predicted by an Improved Molecular Structural Mechanics Model." Key Engineering Materials 609-610 (April 2014): 351–56. http://dx.doi.org/10.4028/www.scientific.net/kem.609-610.351.

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Based on molecular mechanics and the stick-spiral model, this paper first presents the analytical analysis of the effective in-plane mechanical properties of both zigzag and armchair monolayer graphene sheets. We find that the equivalent in-plane elastic constants of monolayer graphene sheets are the same in the two principal directions of graphene. The effective in-plane mechanical properties of graphene are then evaluated numerically using an improved molecular structural mechanics (MSM) model, in which the flexible connections are used to characterize the bond angle variations of graphene.
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16

Yan, Yu, and Qiang Li. "FEM Modeling and Mechanics Analysis of Flexible Roll Forming." Applied Mechanics and Materials 44-47 (December 2010): 132–37. http://dx.doi.org/10.4028/www.scientific.net/amm.44-47.132.

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Flexible roll forming is a new forming process that produces parts with variable cross sections. This forming process is proposed to meet the need in the weight reduction of automobiles. With deep understanding of this process and reasonable simplification, the FEM model of a nine-step flexible roll forming of an ultra-high-strength steel bumper is established. In order to analyze the mechanics and the deformation characteristics of the flexible roll forming, equivalent stress, equivalent strain, sheet thickness and springback amount are extracted from the simulation result and studied compara
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17

Rogers, John A., Xiaodong Chen, and Xue Feng. "Flexible Hybrid Electronics." Advanced Materials 32, no. 15 (2020): 1905590. http://dx.doi.org/10.1002/adma.201905590.

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18

Agbenyega, Jonathan. "Flexible MEMs." Materials Today 13, no. 4 (2010): 8. http://dx.doi.org/10.1016/s1369-7021(10)70048-1.

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19

Daniel, Thomas L. "Forward flapping flight from flexible fins." Canadian Journal of Zoology 66, no. 3 (1988): 630–38. http://dx.doi.org/10.1139/z88-094.

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The mechanics and energetics of aquatic flight by the clearnose skate (Raja eglanteria) are examined with cinefilm and a new theoretical approach toward flight mechanics. Film analyses show that these animals move with a flapping, flexing wing that has a propulsive wave travelling rearward at twice the forward speed of the animal. A combination of blade-element theory and unsteady airfoil theory is used to examine the mechanics and energetics of this mode of locomotion. The theoretical analysis shows that (i) unsteady effects determine the overall performance of the wings, and (ii) there exist
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20

Grigorenko, Ya M., and �. A. Abramidze. "Refined theory of flexible laminar orthotropic shells." Soviet Applied Mechanics 25, no. 8 (1989): 776–83. http://dx.doi.org/10.1007/bf00887641.

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21

Erofeev, V. I. "Three-dimensional vibrations of a flexible rod." Soviet Applied Mechanics 27, no. 9 (1991): 911–16. http://dx.doi.org/10.1007/bf00887985.

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22

Wang, Jia Gui, and Jian Hua He. "Application of Fluid Mechanics in Adaptive Flexible Manufacturing Industry." Applied Mechanics and Materials 608-609 (October 2014): 615–20. http://dx.doi.org/10.4028/www.scientific.net/amm.608-609.615.

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With the rapid development of social economy background, the large scale talents flow in the international and domestic have become important social phenomenon. At home and abroad, the research on talents mobility and human resources management is more and more in-depth. Through the optimal analysis of talent flow model, the flexible management applications in the flexible human resources management, to scientific analyze the coupling relationship between them that will provide human resources management talent optimize configuration, it will make positive contributions to achieve maximize the
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23

Zhao, Yi, and Xin Zhang. "Adaptation of flexible polymer fabrication to cellular mechanics study." Applied Physics Letters 87, no. 14 (2005): 144101. http://dx.doi.org/10.1063/1.2061861.

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24

Wilson, J. F., and U. Mahajan. "The Mechanics and Positioning of Highly Flexible Manipulator Limbs." Journal of Mechanisms, Transmissions, and Automation in Design 111, no. 2 (1989): 232–37. http://dx.doi.org/10.1115/1.3258988.

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This paper deals with the analysis of lightweight, flexible robotic limbs. A typical limb is a series of polymeric tube elements. One end is fixed and the payload at the other end is manipulated by varying the internal pressure in each element. The theoretical derivations relating limb position and its payload incorporate the nonlinear elastic properties of the element material and large deflections. A computer program stores information about limb position and after each successive limb manipulation the program adaptively upgrades itself to improve positioning accuracy. Results are illustrate
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25

Shi, Xing, Jianhai Liang, and Eric Burnett. "Mechanics and Test Study of Two-Dimensional Flexible Membranes." Journal of Architectural Engineering 12, no. 2 (2006): 93–99. http://dx.doi.org/10.1061/(asce)1076-0431(2006)12:2(93).

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26

Misra, S., K. B. Reed, B. W. Schafer, K. T. Ramesh, and A. M. Okamura. "Mechanics of Flexible Needles Robotically Steered through Soft Tissue." International Journal of Robotics Research 29, no. 13 (2010): 1640–60. http://dx.doi.org/10.1177/0278364910369714.

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27

Chang, Jen-Yuan. "Mechanics of flexible interconnect in lateral tape open drives." Microsystem Technologies 18, no. 9-10 (2012): 1513–16. http://dx.doi.org/10.1007/s00542-012-1581-2.

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28

Aravas, N., K. S. Kim, and M. J. Loukis. "On the mechanics of adhesion testing of flexible films." Materials Science and Engineering: A 107 (January 1989): 159–68. http://dx.doi.org/10.1016/0921-5093(89)90384-5.

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29

Johnston, Douglas R. A. "Flexible riser installation." Marine Structures 5, no. 2-3 (1992): 151–64. http://dx.doi.org/10.1016/0951-8339(92)90026-l.

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30

Deng, Yaohua, Sicheng Chen, Qiwen Lu, et al. "Study and Simulation of Deformation Mechanics Modeling of Flexible Workpiece Processing by Rayleigh-Ritz Method." Mathematical Problems in Engineering 2015 (2015): 1–7. http://dx.doi.org/10.1155/2015/157951.

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This paper discusses the calculation problems of bending deformation of FWP processing. Take three axis CNC machining as an example, to establish mechanics model of flexible workpiece processing process. The flexible workpiece balance equation is a two-dimensional partial differential equation, to solve the problem of flexible workpiece bending deformation using Rayleigh-Ritz method and designing the test function of bending deformation of flexible workpiece. By satisfying the minimum potential energy condition of FWP processing to work out the approximate solution of bending deformation of fl
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31

Lee, An Sung, and Itzhak Green. "Rotordynamics of a Mechanical Face Seal Riding on a Flexible Shaft." Journal of Tribology 116, no. 2 (1994): 345–50. http://dx.doi.org/10.1115/1.2927229.

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A mechanical face seal is a triboelement intended to minimize leakage between a rotating shaft and a housing, while allowing the shaft to rotate as freely as possible. All dynamic analysis to date have concentrated on the seal itself. In reality, however, especially in high speed turbomachinery, shafts are made flexible and the dynamics of seals must be coupled with the dynamics of shafts. (Perhaps the dynamics of other triboelements, such as gears, bearings, etc., have to be included as well.) In this work the complex extended transfer matrix method is established to solve for the steady stat
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32

Zakrzhevskii, A. E. "Optimal Slewing of a Flexible Spacecraft." International Applied Mechanics 39, no. 10 (2003): 1208–14. http://dx.doi.org/10.1023/b:inam.0000010374.09422.49.

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33

ELFRING, GWYNN J., and ERIC LAUGA. "Synchronization of flexible sheets." Journal of Fluid Mechanics 674 (March 22, 2011): 163–73. http://dx.doi.org/10.1017/s0022112011000814.

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When swimming in close proximity, some microorganisms such as spermatozoa synchronize their flagella. Previous work on swimming sheets showed that such synchronization requires a geometrical asymmetry in the flagellar waveforms. Here we inquire about a physical mechanism responsible for such symmetry breaking in nature. Using a two-dimensional model, we demonstrate that flexible sheets with symmetric internal forcing deform when interacting with each other via a thin fluid layer in such a way as to systematically break the overall waveform symmetry, thereby always evolving to an in-phase confo
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34

Li, Degao, Jean W. Zu, and Andrew A. Goldenberg. "Dynamic modeling and mode analysis of flexible-link, flexible-joint robots." Mechanism and Machine Theory 33, no. 7 (1998): 1031–44. http://dx.doi.org/10.1016/s0094-114x(97)00054-2.

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35

Zhao, Dong Mei, and Xue Peng Liu. "Magnetorheological Flexible Clamp Experiment and Analysis." Advanced Materials Research 460 (February 2012): 226–29. http://dx.doi.org/10.4028/www.scientific.net/amr.460.226.

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A series of contrast curve are presented about magnetorheological flexible clamp and test results are analyzed to explain the phenomenon. Lattice transform plays an important role in magnetorheological material mechanics
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36

Shabana, Ahmed A. "Transient analysis of flexible multi-body systems. Part I: Dynamics of flexible bodies." Computer Methods in Applied Mechanics and Engineering 54, no. 1 (1986): 75–91. http://dx.doi.org/10.1016/0045-7825(86)90036-8.

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37

Root, Robert G., Hayden-William Courtland, William Shepherd, and John H. Long. "Flapping flexible fish." Experiments in Fluids 43, no. 5 (2007): 779–97. http://dx.doi.org/10.1007/s00348-007-0346-7.

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38

Banea, Mariana D., and Lucas F. M. da Silva. "Mechanical Characterization of Flexible Adhesives." Journal of Adhesion 85, no. 4-5 (2009): 261–85. http://dx.doi.org/10.1080/00218460902881808.

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39

You, Rui, Yu‐Qing Liu, Yi‐Long Hao, Dong‐Dong Han, Yong‐Lai Zhang, and Zheng You. "Flexible Electronics: Laser Fabrication of Graphene‐Based Flexible Electronics (Adv. Mater. 15/2020)." Advanced Materials 32, no. 15 (2020): 2070112. http://dx.doi.org/10.1002/adma.202070112.

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40

Cai, Guo-Ping, and Long-Xiang Chen. "Delayed feedback control experiments on some flexible structures." Acta Mechanica Sinica 26, no. 6 (2010): 951–65. http://dx.doi.org/10.1007/s10409-010-0388-6.

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41

Jiazhen, Hong, and Pan Zhenkuan. "Dynamics of flexible multibody systems with tree topologies." Acta Mechanica Sinica 8, no. 3 (1992): 271–78. http://dx.doi.org/10.1007/bf02489251.

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42

Chang, C. C., and Henry T. Y. Yang. "Random Vibration of Flexible, Uncertain Beam Element." Journal of Engineering Mechanics 117, no. 10 (1991): 2329–50. http://dx.doi.org/10.1061/(asce)0733-9399(1991)117:10(2329).

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43

Koval'chuk, P. S., and G. N. Puchka. "Biharmonic oscillation of a flexible unbalanced rotor." International Applied Mechanics 30, no. 1 (1994): 58–64. http://dx.doi.org/10.1007/bf00847157.

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44

Raush, G., R. Castilla, P. J. Gamez-Montero, J. Wojciechowski, and E. Codina. "Flexible Rod Design for Educational Wind Balance." Experimental Techniques 40, no. 1 (2016): 111–19. http://dx.doi.org/10.1007/s40799-016-0017-9.

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45

Shul’ga, N. A., and A. I. Bezverkhii. "Dynamics of deformable flexible systems in liquid." International Applied Mechanics 43, no. 8 (2007): 829–48. http://dx.doi.org/10.1007/s10778-007-0085-8.

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46

Rui, Zhu, and Guo Yinbiao. "Mechanics Analysis for Flexible Hinge Supported Fast Micro-feeding Mechanism." Information Technology Journal 13, no. 4 (2014): 669–75. http://dx.doi.org/10.3923/itj.2014.669.675.

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47

Ramgulam,, R. B., and P. Potluri,. "Mechanics of Flexible Sheet Materials during Draping on Complex Surfaces." Journal of the Mechanical Behavior of Materials 19, no. 4 (2009): 241–48. http://dx.doi.org/10.1515/jmbm.2009.19.4.241.

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48

Hu, Juejun, Lan Li, Hongtao Lin, Ping Zhang, Weidong Zhou, and Zhenqiang Ma. "Flexible integrated photonics: where materials, mechanics and optics meet [Invited]." Optical Materials Express 3, no. 9 (2013): 1313. http://dx.doi.org/10.1364/ome.3.001313.

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49

McClelland, G. M., C. T. Rettner, M. W. Hart, et al. "Contact mechanics of a flexible imprinter for photocured nanoimprint lithography." Tribology Letters 19, no. 1 (2005): 59–63. http://dx.doi.org/10.1007/s11249-005-4265-6.

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50

Lefebvre, Jérôme, Michel le Bras, Benoît Bastin, Rakesh Paleja, and René Delobel. "Flexible Polyurethane Foams: Flammability." Journal of Fire Sciences 21, no. 5 (2003): 343–67. http://dx.doi.org/10.1177/0734904103035369.

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