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Journal articles on the topic 'Internal Mechanics'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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1

Frémond, Michel. "Internal constraints in mechanics." Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 359, no. 1789 (2001): 2309–26. http://dx.doi.org/10.1098/rsta.2001.0853.

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2

Mitra, Manu. "Internal Mechanics of an Iron Man Suit." Frontiers Journal of Current Engineering Research (FJCER) 1, no. 1 (2019): 1–8. https://doi.org/10.5281/zenodo.3377694.

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As the name indicates “Iron Man Suit” but that’s not even close of being true that it is completely made of Iron. It is the blend of various metals such as titanium-nickel alloys with a vibranium added. Iron Man Suit is used to reduce the impact damage from projectiles and also used for mechanical work such to pushing or lifting heavy objects as it has inbuilt hydraulic mechanism. This paper discloses internal mechanics of an Iron Man Suit as much as possible that includes basics to Material Science, Aerodynamics, Ergonomics (Layer 1, Layer 2 and Layer 3) and Power Source usi
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3

Aufderhorst-Roberts, Anders, Daniel Baker, Richard J. Foster, Olivier Cayre, Johan Mattsson, and Simon D. Connell. "Nanoscale mechanics of microgel particles." Nanoscale 10, no. 34 (2018): 16050–61. http://dx.doi.org/10.1039/c8nr02911c.

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4

Michener, J. R., and S. J. Burns. "Internal stresses in nonlinear fracture mechanics." International Journal of Fracture 23, no. 2 (1993): R45—R49. http://dx.doi.org/10.1007/bf00042816.

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5

Rajagopal, K. R., and Giuseppe Saccomandi. "On internal constraints in continuum mechanics." Differential Equations and Nonlinear Mechanics 2006 (2006): 1–12. http://dx.doi.org/10.1155/denm/2006/18572.

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In classical particle mechanics, it is well understood that while working with nonholonomic and nonideal constraints, one cannot expect that the constraint be workless. It is curious that in continuum mechanics, however, the implications of the result in classical mechanics have not been clearly understood. In this paper, we show that in dealing with the response of dissipative systems, one cannot require that constraints do no work or ignore the fact that the material response functions depend on the constraint reaction. An example of this is the viscosity of a fluid depending on the pressure
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6

Pedley, T. J., and S. J. Hill. "Large-amplitude undulatory fish swimming: fluid mechanics coupled to internal mechanics." Journal of Experimental Biology 202, no. 23 (1999): 3431–38. http://dx.doi.org/10.1242/jeb.202.23.3431.

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The load against which the swimming muscles contract, during the undulatory swimming of a fish, is composed principally of hydrodynamic pressure forces and body inertia. In the past this has been analysed, through an equation for bending moments, for small-amplitude swimming, using Lighthill's elongated-body theory and a ‘vortex-ring panel method’, respectively, to compute the hydrodynamic forces. Those models are outlined in this review, and a summary is given of recent work on large-amplitude swimming that has (a) extended the bending moment equation to large amplitude, which involves the in
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7

Dehkordi, Mohammad Khodadadi, Amin Taraghi Osguei, Iman Khamoushi, Ekaterina Pavlovskaia, and Marian Wiercigroch. "Internal mechanics of anti stick–slip tool." International Journal of Mechanical Sciences 221 (May 2022): 107188. http://dx.doi.org/10.1016/j.ijmecsci.2022.107188.

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8

Hwang, Willy, Jason C. Carvalho, Isaac Tarlovsky, and Aladin M. Boriek. "Passive mechanics of canine internal abdominal muscles." Journal of Applied Physiology 98, no. 5 (2005): 1829–35. http://dx.doi.org/10.1152/japplphysiol.00910.2003.

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The internal abdominal muscles are biaxially loaded in vivo, and therefore length-tension relations along and transverse to the directions of the muscle fibers are important in understanding their mechanical properties. We hypothesized that 1) internal oblique and transversus abdominis form an internal abdominal composite muscle with altered compliance than that of either muscle individually, and 2) anisotropy, different compliances in orthogonal directions, of internal abdominal composite muscle is less pronounced than that of its individual muscles. To test these hypotheses, in vitro mechani
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9

Fu, De Cheng, Yu Hui Wen, and Lei Wang. "The Study on Differential Equations Method for Solving Column-Pile Structural System Internal Forces." Applied Mechanics and Materials 580-583 (July 2014): 2962–65. http://dx.doi.org/10.4028/www.scientific.net/amm.580-583.2962.

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Based on material mechanics theory that loads-internal force-deformation relationship of rod, this paper establish elastic foundation beam model, and establish loads-internal force-deformation differential equation of piles and columns, and identified boundary conditions according to mechanical analysis of piles and columns, Based on the boundary conditions, deformation coordination and internal force equilibrium conditions, solving differential equations, then obtain column - pile components’ internal forces. This method has good mechanical model support, and using mathematical computing soft
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10

Guz', A. N. "Internal instability of deformable bodies." Soviet Applied Mechanics 23, no. 2 (1987): 126–38. http://dx.doi.org/10.1007/bf00889007.

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11

Wu, Jingheng, Lin Shen, and Weitao Yang. "Internal force corrections with machine learning for quantum mechanics/molecular mechanics simulations." Journal of Chemical Physics 147, no. 16 (2017): 161732. http://dx.doi.org/10.1063/1.5006882.

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12

Demasi, Luciano, Anthony Palazotto, and Enrico Santarpia. "Starred Polyhedral Shell Reinforced with Internal Pockets Considering an Internal Vacuum." Journal of Engineering Mechanics 145, no. 9 (2019): 04019064. http://dx.doi.org/10.1061/(asce)em.1943-7889.0001637.

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13

Chen, Zhan-Feng, Hui-Jie Wang, Zhiqian Sang, et al. "Theoretical and Numerical Analysis of Blasting Pressure of Cylindrical Shells under Internal Explosive Loading." Journal of Marine Science and Engineering 9, no. 11 (2021): 1297. http://dx.doi.org/10.3390/jmse9111297.

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Cylindrical shells are principal structural elements that are used for many purposes, such as offshore, sub-marine, and airborne structures. The nonlinear mechanics model of internal blast loading was established to predict the dynamic blast pressure of cylindrical shells. However, due to the complexity of the nonlinear mechanical model, the solution process is time-consuming. In this study, the nonlinear mechanics model of internal blast loading is linearized, and the dynamic blast pressure of cylindrical shells is solved. First, a mechanical model of cylindrical shells subjected to internal
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14

Paik, Jeom Kee, and Preben Terndrup Pedersen. "Modelling of the internal mechanics in ship collisions." Ocean Engineering 23, no. 2 (1996): 107–42. http://dx.doi.org/10.1016/0029-8018(95)00021-6.

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15

Arcoumanis, C., and J. H. Whitelaw. "Fluid Mechanics of Internal Combustion Engines—a Review." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 201, no. 1 (1987): 57–74. http://dx.doi.org/10.1243/pime_proc_1987_201_087_02.

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The paper reviews current knowledge of the flow processes within the cylinders of reciprocating engines and examines experimental and calculation techniques used to determine them. Topics requiring further research are identified and discussed.
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16

MIRABELLI, ANDRE. "The Problem of Internal Properties in Quantum Mechanics." Annals of the New York Academy of Sciences 480, no. 1 New Technique (1986): 599–600. http://dx.doi.org/10.1111/j.1749-6632.1986.tb12473.x.

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17

Bourdillon, Antony J. "Quantum Mechanics: Internal Motion in Theory and Experiment." Journal of Modern Physics 14, no. 06 (2023): 865–75. http://dx.doi.org/10.4236/jmp.2023.146050.

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18

Carcassi, Gabriele, and Christine A. Aidala. "The fundamental connections between classical Hamiltonian mechanics, quantum mechanics and information entropy." International Journal of Quantum Information 18, no. 01 (2020): 1941025. http://dx.doi.org/10.1142/s0219749919410259.

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We show that the main difference between classical and quantum systems can be understood in terms of information entropy. Classical systems can be considered the ones where the internal dynamics can be known with arbitrary precision while quantum systems can be considered the ones where the internal dynamics cannot be accessed at all. As information entropy can be used to characterize how much the state of the whole system identifies the state of its parts, classical systems can have arbitrarily small information entropy while quantum systems cannot. This provides insights that allow us to und
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19

Kluwick, Alfred. "Internal flows of dense gases." Acta Mechanica 169, no. 1-4 (2004): 123–43. http://dx.doi.org/10.1007/s00707-004-0096-z.

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20

Mullen, C. A., T. J. Vaughan, M. C. Voisin, M. A. Brennan, P. Layrolle, and L. M. McNamara. "Cell morphology and focal adhesion location alters internal cell stress." Journal of The Royal Society Interface 11, no. 101 (2014): 20140885. http://dx.doi.org/10.1098/rsif.2014.0885.

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Extracellular mechanical cues have been shown to have a profound effect on osteogenic cell behaviour. However, it is not known precisely how these cues alter intracellular mechanics to initiate changes in cell behaviour. In this study, a combination of in vitro culture of MC3T3-E1 cells and finite-element modelling was used to investigate the effects of passive differences in substrate stiffness on intracellular mechanics. Cells on collagen-based substrates were classified based on the presence of cell processes and the dimensions of various cellular features were quantified. Focal adhesion (F
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21

Engelbrecht, Jüri, and Arkadi Berezovski. "Internal structures and internal variables in solids." Journal of Mechanics of Materials and Structures 7, no. 10 (2012): 983–96. http://dx.doi.org/10.2140/jomms.2012.7.983.

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22

Valanis, K. C. "A gradient theory of internal variables." Acta Mechanica 116, no. 1-4 (1996): 1–14. http://dx.doi.org/10.1007/bf01171416.

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23

Shivamoggi, B. K., and R. K. Varma. "Internal resonances in nonlinearly-coupled oscillators." Acta Mechanica 72, no. 1-2 (1988): 111–30. http://dx.doi.org/10.1007/bf01176546.

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24

Capecchi, Danilo, and Gianmarco de Felice. "Hysteretic Systems with Internal Variables." Journal of Engineering Mechanics 127, no. 9 (2001): 891–98. http://dx.doi.org/10.1061/(asce)0733-9399(2001)127:9(891).

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25

ZHENG, JiaHong, CongYing JIANG, and Zheng ZHONG. "Continuum mechanics for thermo-chemo-mechanical coupling system based on decomposition of internal energy." SCIENTIA SINICA Technologica 49, no. 10 (2019): 1168–76. http://dx.doi.org/10.1360/sst-2019-0053.

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26

Damour, T., M. Soffel, and C. Xu. "Relativistic Celestial Mechanics and Reference Frames." International Astronomical Union Colloquium 127 (1991): 50–62. http://dx.doi.org/10.1017/s0252921100063569.

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AbstractA new formalism for treating the relativistic celestial mechanics of systems of N, arbitrarily composed and shaped, weakly self-gravitating, rotating, deformabile bodies is presented. This formalism is aimed at yielding a complete description, at the first post-Newtonian approximation level, of (i) the global dynamics of such N-body systems (“external problem”), (ii) the local gravitational structure of each body (“internal problem”), and, (iii) the way the external and the internal problems fit together (“theory of reference systems”).
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27

Kelly-Bellow, Robert, Karen Lee, Richard Kennaway, et al. "Brassinosteroid coordinates cell layer interactions in plants via cell wall and tissue mechanics." Science 380, no. 6651 (2023): 1275–81. http://dx.doi.org/10.1126/science.adf0752.

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Growth coordination between cell layers is essential for development of most multicellular organisms. Coordination may be mediated by molecular signaling and/or mechanical connectivity between cells, but how genes modify mechanical interactions between layers is unknown. Here we show that genes driving brassinosteroid synthesis promote growth of internal tissue, at least in part, by reducing mechanical epidermal constraint. We identified a brassinosteroid-deficient dwarf mutant in the aquatic plant Utricularia gibba with twisted internal tissue, likely caused by mechanical constraint from a sl
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28

Hartini, Entin, Roziq Himawan, and Mike Susmikanti. "FRACTURE MECHANICS UNCERTAINTY ANALYSIS IN THE RELIABILITY ASSESSMENT OF THE REACTOR PRESSURE VESSEL: (2D) SUBJECTED TO INTERNAL PRESSURE." JURNAL TEKNOLOGI REAKTOR NUKLIR TRI DASA MEGA 18, no. 2 (2016): 55. http://dx.doi.org/10.17146/tdm.2016.18.2.2466.

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ABSTRACT FRACTURE MECHANICS UNCERTAINTY ANALYSIS IN THE RELIABILITY ASSESSMENT OF THE REACTOR PRESSURE VESSEL: (2D) SUBJECTED TO INTERNAL PRESSURE. The reactor pressure vessel (RPV) is a pressure boundary in the PWR type reactor which serves to confine radioactive material during chain reaction process. The integrity of the RPV must be guaranteed either in a normal operation or accident conditions. In analyzing the integrity of RPV, especially related to the crack behavior which can introduce break to the reactor pressure vessel, a fracture mechanic approach should be taken for this assessment
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29

Frolov, K. V., and T. S. Krasnopol'skaya. "Sommerfeld effect in systems without internal damping." Soviet Applied Mechanics 23, no. 12 (1987): 1122–26. http://dx.doi.org/10.1007/bf00884888.

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30

Babich, I. Yu, and V. N. Chekhov. "Surface and internal instability in laminated composites." Soviet Applied Mechanics 25, no. 1 (1989): 21–28. http://dx.doi.org/10.1007/bf00887312.

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31

DIAS, F., and J. M. VANDEN-BROECK. "On internal fronts." Journal of Fluid Mechanics 479 (March 25, 2003): 145–54. http://dx.doi.org/10.1017/s0022112002003609.

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32

SUTHERLAND, BRUCE R., and KERIANNE YEWCHUK. "Internal wave tunnelling." Journal of Fluid Mechanics 511 (July 25, 2004): 125–34. http://dx.doi.org/10.1017/s0022112004009863.

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33

REN, Yunlai. "HEALING MECHANICS CONDITION OF LARGE FORGINGS INTERNAL VOID DEFECT." Chinese Journal of Mechanical Engineering 42, no. 08 (2006): 215. http://dx.doi.org/10.3901/jme.2006.08.215.

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34

McNALLY, D. S., and M. A. ADAMS. "Internal Intervertebral Disc Mechanics as Revealed by Stress Profilometry." Spine 17, no. 1 (1992): 66–73. http://dx.doi.org/10.1097/00007632-199201000-00011.

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35

QIAO, Jichao, Qi HAO, and Guanghui XING. "TEACHING METHODS OF INTERNAL FRICTION THEORY IN SOLID MECHANICS." Physics and Engineering 33, no. 2 (2023): 54–59. https://doi.org/10.26599/phys.2023.9320210.

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36

Nguyen, Hai-Nguyen, ChangSu Ha, and Dongjun Lee. "Mechanics, control and internal dynamics of quadrotor tool operation." Automatica 61 (November 2015): 289–301. http://dx.doi.org/10.1016/j.automatica.2015.08.015.

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37

Zhong, Weishun, Zhiyue Lu, David J. Schwab, and Arvind Murugan. "Nonequilibrium Statistical Mechanics of Continuous Attractors." Neural Computation 32, no. 6 (2020): 1033–68. http://dx.doi.org/10.1162/neco_a_01280.

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Continuous attractors have been used to understand recent neuroscience experiments where persistent activity patterns encode internal representations of external attributes like head direction or spatial location. However, the conditions under which the emergent bump of neural activity in such networks can be manipulated by space and time-dependent external sensory or motor signals are not understood. Here, we find fundamental limits on how rapidly internal representations encoded along continuous attractors can be updated by an external signal. We apply these results to place cell networks to
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38

Kojic, Milos. "MULTISCALE COMPOSITE 3D FINITE ELEMENT FOR LUNG MECHANICS." Journal of the Serbian Society for Computational Mechanics 14, no. 1 (2020): 1–11. http://dx.doi.org/10.24874/jsscm.2020.14.01.01.

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The lungs are the pair of organs where very complex internal microstructure provides gas exchange as the vital process of living organisms. This exchange in humans occurs within only 300g of tissue but on the surface of millions of alveoli with the total surface area of around 130m2. The extremely complex microstructure consists of micron-size interconnected channels and alveoli, which significantly change the size during breathing and remain open. These conditions are maintained due to existence of two mechanical systems – one external and the other internal, which act in the opposite sense
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39

CHINI, G. P., and S. LEIBOVICH. "Resonant Langmuir-circulation–internal-wave interaction. Part 1. Internal wave reflection." Journal of Fluid Mechanics 495 (November 25, 2003): 35–55. http://dx.doi.org/10.1017/s0022112003006074.

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40

Amini, Fereidon, and Majid Amin Afshar. "Saturation in asymmetric structures under internal resonance." Acta Mechanica 221, no. 3-4 (2011): 353–68. http://dx.doi.org/10.1007/s00707-011-0511-1.

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41

Puzrin, A. M., and G. T. Houlsby. "Rate-Dependent Hyperplasticity with Internal Functions." Journal of Engineering Mechanics 129, no. 3 (2003): 252–63. http://dx.doi.org/10.1061/(asce)0733-9399(2003)129:3(252).

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42

Li, Fei, Xuan Wang, Lang Zhou, and Zun-Dong Yang. "Study on mechanical behavior and microscopic failure characteristics of deep rocks considering the influence of internal stress." Thermal Science 29, no. 2 Part B (2025): 1295–300. https://doi.org/10.2298/tsci2502295l.

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To address the limitation of traditional discrete element modelling in considering internal stress, this study proposes a new numerical simulation process based on particle flow code in 2-D, which successfully achieves internal stress consolidation-sealing. Triaxial compression tests were conducted to analyze the impact of internal stress evolution on rock mechanical properties. Under a confining pressure of 10-20 MPa, internal stress causes the peak stress of the rock to be higher than when there is no internal stress, while the opposite is true at 30-40 MPa. The elastic modulus is consistent
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43

Sarıgül, Murat. "Internal Resonance of Axially Moving Beams with Masses." Iranian Journal of Science and Technology, Transactions of Mechanical Engineering 43, no. 1 (2017): 1–16. http://dx.doi.org/10.1007/s40997-017-0109-x.

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44

Derksen, R. W. "Computing axisymmetric, laminar internal flows." International Journal for Numerical Methods in Fluids 11, no. 4 (1990): 361–77. http://dx.doi.org/10.1002/fld.1650110402.

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45

Yang, Jie, Zhen-Yu Yin, Farid Laouafa, and Pierre-Yves Hicher. "Hydromechanical modeling of granular soils considering internal erosion." Canadian Geotechnical Journal 57, no. 2 (2020): 157–72. http://dx.doi.org/10.1139/cgj-2018-0653.

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This paper attempts to formulate a coupled practical model in the framework of continuum mechanics to evaluate the phenomenon of internal erosion and its consequences on the mechanical behavior of soils. For this purpose, a four-constituent numerical approach has been developed to describe the internal erosion process. The detachment and transport of the fine particles have been described by a mass exchange formulation between the solid and fluid phases. The stress–strain relationship of the soil is represented by a nonlinear incremental model. Based on experimental data, this constitutive mod
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46

Sanchez, Ramiro A., and Alejandra I. Christen. "Arterial Mechanics and Dynamics in Hypertension." Current Hypertension Reviews 14, no. 2 (2018): 74–75. http://dx.doi.org/10.2174/157340211402180803101849.

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47

Riches, P. E., N. Dhillon, J. Lotz, A. W. Woods, and D. S. McNally. "The internal mechanics of the intervertebral disc under cyclic loading." Journal of Biomechanics 35, no. 9 (2002): 1263–71. http://dx.doi.org/10.1016/s0021-9290(02)00070-2.

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48

Liu, Bin, R. Villavicencio, Shengming Zhang, and C. Guedes Soares. "Assessment of external dynamics and internal mechanics in ship collisions." Ocean Engineering 141 (September 2017): 326–36. http://dx.doi.org/10.1016/j.oceaneng.2017.06.053.

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49

Edwards, A. G., D. S. McNally, R. C. Mulholland, and A. E. Goodship. "THE EFFECTS OF POSTERIOR FIXATION ON INTERNAL INTERVERTEBRAL DISC MECHANICS." Journal of Bone and Joint Surgery. British volume 79-B, no. 1 (1997): 154–60. http://dx.doi.org/10.1302/0301-620x.79b1.0790154.

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50

Opper, M., P. Kuhlmann, and A. Mietzner. "Convexity, internal representations and the statistical mechanics of neural networks." Europhysics Letters (EPL) 37, no. 1 (1997): 31–36. http://dx.doi.org/10.1209/epl/i1997-00113-x.

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