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Journal articles on the topic 'Mechanical matrix'

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1

Little, J. Paige, Clayton Adam, Graeme Pettet, and Mark J. Pearcy. "Initiation of Mechanical Derangement in the Anulus Fibrosus Ground Matrix(Soft Tissue Mechanics)." Proceedings of the Asian Pacific Conference on Biomechanics : emerging science and technology in biomechanics 2004.1 (2004): 183–84. http://dx.doi.org/10.1299/jsmeapbio.2004.1.183.

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2

Ishii, Akira, Yuichi Murayama, Yih-Lin Nien, et al. "IMMEDIATE AND MIDTERM OUTCOMES OF PATIENTS WITH CEREBRAL ANEURYSMS TREATED WITH MATRIX1 AND MATRIX2 COILS." Neurosurgery 63, no. 6 (2008): 1071–79. http://dx.doi.org/10.1227/01.neu.0000334047.30589.13.

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Abstract OBJECTIVE Recanalization after coil embolization of cerebral aneurysms remains a limitation of this progressively accepted modality. The Matrix detachable bioabsorbable coil (Boston Scientific Neurovascular, Natick, MA) was developed to overcome this limitation. We report a single-center experience using first- and second-generation Matrix coils. METHODS Immediate and midterm angiographic outcomes of 235 consecutive patients with 250 aneurysms treated with Matrix coils were reviewed retrospectively. The first 16 aneurysms included in the postmarket Acceleration of Connective Tissue Fo
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3

Karumuri, Srikanth. "Mechanical Behaviour of Metal Matrix Composites - A Review." Journal of Advanced Research in Dynamical and Control Systems 12, SP7 (2020): 1042–49. http://dx.doi.org/10.5373/jardcs/v12sp7/20202201.

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4

Budnik, Oleg, Anatoliy Budnik, Valentin Sviderskiy, Kristina Berladir, and Pavel Rudenko. "Structural Conformation of Polytetrafluoroethylene Composite Matrix." Chemistry & Chemical Technology 10, no. 2 (2016): 241–46. http://dx.doi.org/10.23939/chcht10.02.241.

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Enhancement of physical and mechanical properties and structuring activity of polytetrafluoroethylene as matrix of composites by means of mechanical activation is shown. Operating modes of mechanical activation equipment are defined, in which the service properties of PTFE are maximized. The effect of mechanical activation technology on restructuring and change of morphology and supramolecular structure of PTFE is detected for the first time.
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5

Miranda-Hernández, José G., Enrique Rocha-Rangel, and Sebastián Díaz de la Torre. "Synthesis, microstructural analysis and mechanical properties of alumina-matrix cermets." Epitoanyag - Journal of Silicate Based and Composite Materials 62, no. 1 (2010): 2–5. http://dx.doi.org/10.14382/epitoanyag-jsbcm.2010.1.

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6

Blain, Emma, J. "Mechanical regulation of matrix metalloproteinases." Frontiers in Bioscience 12, no. 1 (2007): 507. http://dx.doi.org/10.2741/2078.

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7

Quinn, T. M., A. J. Grodzinsky, M. D. Buschmann, Y. J. Kim, and E. B. Hunziker. "Mechanical compression alters proteoglycan deposition and matrix deformation around individual cells in cartilage explants." Journal of Cell Science 111, no. 5 (1998): 573–83. http://dx.doi.org/10.1242/jcs.111.5.573.

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We have used new techniques of cell-length scale quantitative autoradiography to assess matrix synthesis, deposition, and deformation around individual chondrocytes in mechanically compressed cartilage explants. Our objectives were to: (1) quantify the effects of static and dynamic compression on the deposition of newly synthesized proteoglycans into cell-associated and further-removed matrices; (2) measure cell-length scale matrix strains and morphological changes of the cell and matrix associated with tissue compression; and (3) relate microscopic physical stimuli to changes in proteoglycan
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8

OCHI, Akihiro, Kenichi SUGIMOTO, Asami NAKAI, and Hiroyuki HAMADA. "Mechanical Properties of Matrix Hybrid Composites with Mechanical Joint." Journal of the Japan Society for Composite Materials 30, no. 6 (2004): 243–53. http://dx.doi.org/10.6089/jscm.30.243.

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9

Koyanagi, Jun, Shinji Ogihara, Hayato Nakatani, Tomonaga Okabe, and Satoru Yoneyama. "Mechanical properties of fiber/matrix interface in polymer matrix composites." Advanced Composite Materials 23, no. 5-6 (2014): 551–70. http://dx.doi.org/10.1080/09243046.2014.915125.

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10

Yang, Wen, Hiroshi Araki, Qifa Yang, Akira Kohyama, and Tetsuji Noda. "ICONE15-10552 Mechanical Properties of SiC Nanowires/Fibers Reinforced SiC Matrix Composites." Proceedings of the International Conference on Nuclear Engineering (ICONE) 2007.15 (2007): _ICONE1510. http://dx.doi.org/10.1299/jsmeicone.2007.15._icone1510_294.

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11

Sethi, Rabinarayan, Rajesh Kumar Ojha, and Madhumita Sahoo. "Study of Mechanical and Tribological Behaviour of Cu-SiCp Metal Matrix Composites." International Journal of Scientific Engineering and Research 5, no. 7 (2017): 294–97. https://doi.org/10.70729/ijser171649.

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12

M M, Roshni, and Sandeep M B. "Experimental Study on the Mechanical Properties of Polymer Matrix Composite Sandwich Structures." International Journal of Scientific Engineering and Research 3, no. 11 (2015): 36–40. https://doi.org/10.70729/ijser15551.

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13

Subramanian, K. N., Thomas R. Bieler, and J. P. Lucas. "Mechanical Shaping of Metal Matrix Composites." Key Engineering Materials 104-107 (July 1995): 175–214. http://dx.doi.org/10.4028/www.scientific.net/kem.104-107.175.

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14

ONITA, Takafumi, Tsuyoshi NISHIWAKI, Zen-ichiro MAEKAWA, and Hiroyuki HAMADA. "Mechanical Property of Matrix Hybrid Laminates." Journal of the Society of Materials Science, Japan 50, no. 10 (2001): 1146–51. http://dx.doi.org/10.2472/jsms.50.1146.

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15

Kjaer, M. "The secrets of matrix mechanical loading." Scandinavian Journal of Medicine & Science in Sports 19, no. 4 (2009): 455–56. http://dx.doi.org/10.1111/j.1600-0838.2009.01008.x.

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16

Fantozzi, G., and P. Reynaud. "Mechanical hysteresis in ceramic matrix composites." Materials Science and Engineering: A 521-522 (September 2009): 18–23. http://dx.doi.org/10.1016/j.msea.2008.09.128.

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17

Iroh, Jude O., J. P. Bell, and D. A. Scola. "Mechanical properties of electropolymerized matrix composites." Chemistry of Materials 5, no. 1 (1993): 78–83. http://dx.doi.org/10.1021/cm00025a016.

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18

Fantozzi, G., G. Orange, and D. Rouby. "Mechanical behaviour of ceramic matrix composites." Phase Transitions 13, no. 1-4 (1988): 165–98. http://dx.doi.org/10.1080/01411598808206824.

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19

Magalhães, A. G., A. T. Marques, F. M. F. Oliveira, P. Soukatchoff, and P. T. de Castro. "Mechanical behaviour of cementitious matrix composites." Cement and Concrete Composites 18, no. 1 (1996): 9–22. http://dx.doi.org/10.1016/0958-9465(95)00035-6.

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20

Liu, Xiangyuan, Jun Ding та John Wang. "An α–Fe2O3 powder of nanosized particles via precursor dispersion". Journal of Materials Research 14, № 8 (1999): 3355–62. http://dx.doi.org/10.1557/jmr.1999.0454.

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An α–Fe2O3 powder of nanosized particles has been successfully prepared by effectively dispersing the precipitated hydroxide precursor in a sodium chloride matrix. In particular, the hydroxide precursor was converted into crystalline α–Fe2O3 particles approximately 10 nm in size when it was mechanically activated in the sodium chloride matrix for 1 h. The subsequent calcination at 600 °C for 1 h resulted in a limited degree of coarsening in particle size while the crystallinity of α–Fe2O3 was further established. The effectiveness of obtaining ultrafine a–Fe2O3 powders by mechanical activation
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21

Kamrani, Hübler, Ghasemi, and Fleck. "Enhanced Strength and Ductility in Magnesium Matrix Composites Reinforced by a High Volume Fraction of Nano- and Submicron-Sized SiC Particles Produced by Mechanical Milling and Hot Extrusion." Materials 12, no. 20 (2019): 3445. http://dx.doi.org/10.3390/ma12203445.

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In the present study, Mg nanocomposites with a high volume fraction (10 vol %) of SiC particles were fabricated by two approaches: mechanical milling and mixing, followed by the powder consolidation steps, including isostatic cold pressing, sintering, and extrusion. A uniform distribution of the high content SiC particles in a fully dense Mg matrix with ultrafine microstructure was successfully achieved in the mechanically milled composites. The effect of nano- and submicron-sized SiC particles on the microstructure and mechanical properties of the nanocomposites was evaluated. Scanning electr
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22

Marsolais, David, Élise Duchesne, Claude H. Côté, and Jérôme Frenette. "Inflammatory cells do not decrease the ultimate tensile strength of intact tendons in vivo and in vitro: protective role of mechanical loading." Journal of Applied Physiology 102, no. 1 (2007): 11–17. http://dx.doi.org/10.1152/japplphysiol.00162.2006.

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Although inflammatory cells and their products are involved in various pathological processes, a possible role in tendon dysfunction has never been convincingly confirmed and extensively investigated. The goal of this study was to determine whether or not an acute inflammatory process deprived of mechanical trauma can induce nonspecific damages to intact collagen fibers. To induce leukocyte accumulation, carrageenan was injected into rat Achilles tendons. We first tested the effect of leukocyte recruitment on the concentrations or activities of matrix metalloproteinases and tissue inhibitors o
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23

Aversa, Raffaella, Relly Victoria Virgil Petrescu, Antonio Apicella, and Florian Ion Tiberiu Petrescu. "A nanodiamond for structural biomimetic scaffolds." Engineering review 39, no. 1 (2019): 81–89. http://dx.doi.org/10.30765/er.39.1.9.

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Bio-mechanically active scaffolds for tissue engineering combining hydrophilic polymeric matrix and nano-diamond fillers properties are presented and discussed in this paper. The resulting scaffolding materials revealed remarkable mechanical and biological properties to be exploited in advanced biomedical applications. The novel hybrid material is based on 2 and 5 volume % of detonation nano-diamond particles in a hydrophilic poly-(hydroxyl-ethylmethacrylate) matrix. According to its mechanical and biological properties, the nanocomposite shows a hybrid nature. The base analytical procedures f
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24

Kumar, Kapil, and Samar Sultan. "Effect of electromagnetic field and mechanical milling in the synthesis of metal matrix Nano composite." International Journal of Advance Research and Innovation 3, no. 2 (2015): 175–86. http://dx.doi.org/10.51976/ijari.321533.

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Ceramic nanometric SiC particles (n-SiCp) were reinforced in 7075 aluminium matrix to synthesize the metal matrix nano composites (MMNCs). The inclusion as well as uniform distribution of nano particles in aluminium matrix is a great challenge. To accomplish this, a new hybrid stir casting technique was used to fabricate the MMNCs. The uniform distribution of the reinforcement depends on good wettability of reinforcement with the metal matrix. Hence, to improve the wettability, 1 wt % micro Mg particles were mechanically milled with two different additions of n-SiCp with weight fractions 1% an
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25

Roeder, Blayne A., Klod Kokini, J. Paul Robinson, and Sherry L. Voytik-Harbin. "Local, Three-Dimensional Strain Measurements Within Largely Deformed Extracellular Matrix Constructs." Journal of Biomechanical Engineering 126, no. 6 (2004): 699–708. http://dx.doi.org/10.1115/1.1824127.

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The ability to create extracellular matrix (ECM) constructs that are mechanically and biochemically similar to those found in vivo and to understand how their properties affect cellular responses will drive the next generation of tissue engineering strategies. To date, many mechanisms by which cells biochemically communicate with the ECM are known. However, the mechanisms by which mechanical information is transmitted between cells and their ECM remain to be elucidated. “Self-assembled” collagen matrices provide an in vitro-model system to study the mechanical behavior of ECM. To begin to unde
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26

Yang, Chun, Frank W. DelRio, Hao Ma, et al. "Spatially patterned matrix elasticity directs stem cell fate." Proceedings of the National Academy of Sciences 113, no. 31 (2016): E4439—E4445. http://dx.doi.org/10.1073/pnas.1609731113.

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There is a growing appreciation for the functional role of matrix mechanics in regulating stem cell self-renewal and differentiation processes. However, it is largely unknown how subcellular, spatial mechanical variations in the local extracellular environment mediate intracellular signal transduction and direct cell fate. Here, the effect of spatial distribution, magnitude, and organization of subcellular matrix mechanical properties on human mesenchymal stem cell (hMSCs) function was investigated. Exploiting a photodegradation reaction, a hydrogel cell culture substrate was fabricated with r
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27

Ma, Wen Suo, and Dong Dong Yin. "Group Analysis Method of 3D Braided Composites Elastic Properties." Advanced Materials Research 838-841 (November 2013): 364–69. http://dx.doi.org/10.4028/www.scientific.net/amr.838-841.364.

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The matrix representation of space point group is used in transferring the elastic matrix of the braided yarn based on the symmetries of braided composites representative volume element (RVE) meso-geometrical structure. The off-axis elastic matrixes of the whole braided yarns of the RVE are deduced. With a use of meso-mechanical model based on the mixture rule, the yarn segments off-axis elastic matrixes in the RVE and matrixs one are summed with weight; Equivalent elastic matrix of 3D braided composites was deduced. Equivalent engineering elastic constants are achieved in the end. The model c
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28

P, Thagappillai, and Tamilarasan Tamilarasan. "Evaluation of Mechanical Behavior of Hybrid Aluminium Metal Matrix by Using Stir Casting." International Journal of Research Publication and Reviews 5, no. 1 (2024): 321–24. http://dx.doi.org/10.55248/gengpi.5.0124.0112.

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29

Stanciulescu, Madalina, Marioara Abrudeanu, Andrei Galatanu, Paula Carlan, and Maria Mihalache. "Dissolution Behaviour of Alloying Elements Into Vanadium Matrix During Mechanical Milling." Revista de Chimie 68, no. 5 (2017): 1109–13. http://dx.doi.org/10.37358/rc.17.5.5622.

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Mechanical alloying (MA) is an efficient approach for fabricating ODS alloys and structural materials including vanadium alloys for fusion and fission applications. Dissolution behavior of the alloying elements is a key issue for optimizing the mechanical alloying process in fabricating vanadium alloys. This paper studies the MA process of V-4wt.%Cr-4wt.%Ti alloy. The outcomes of the MA powders in a planetary ball mill are reported in terms of powder particle size, morphology and composition evolution. The impact of spark-plasma sintering process on the mechanically alloyed powder is analyzed.
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30

Srinivasan, R., S. Karunakaran, M. Hariprabhu, et al. "Investigation on the Mechanical Properties of Powder Metallurgy-Manufactured AA7178/ZrSiO4 Nanocomposites." Advances in Materials Science and Engineering 2023 (May 22, 2023): 1–11. http://dx.doi.org/10.1155/2023/3085478.

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The versatility of metal matrix composites (MMCs) makes them a promising material for various industrial applications. The current study used a ball milling to mechanically AA7178 powder and strengthened with zirconium silicate (ZrSiO4) nanoparticles. In addition, the AA7178 matrix was ball-milled to distribute the ZrSiO4 nanoparticles throughout the material. The AA7178 reinforced with ZrSiO4 nanoparticles was compacted and consolidated using two distinct powder metallurgy (PM) sequences: double pressing, double sintering, and hot pressing. In tests measuring microhardness, compression streng
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31

Zhang, Chen, Elisabet Farré-Guasch, Jianfeng Jin, Huib W. van Essen, Jenneke Klein-Nulend, and Nathalie Bravenboer. "A Three-Dimensional Mechanical Loading Model of Human Osteocytes in Their Native Matrix." Calcified Tissue International 110, no. 3 (2021): 367–79. http://dx.doi.org/10.1007/s00223-021-00919-z.

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AbstractOsteocytes are mechanosensory cells which are embedded in calcified collagenous matrix. The specific native matrix of osteocytes affects their regulatory activity, i.e., transmission of signaling molecules to osteoclasts and/or osteoblasts, in the mechanical adaptation of bone. Unfortunately, no existing in vitro model of cortical bone is currently available to study the mechanosensory function of human osteocytes in their native matrix. Therefore, we aimed to develop an in vitro three-dimensional mechanical loading model of human osteocytes in their native matrix. Human cortical bone
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32

Bobić, Biljana, Aleksandar Vencl, Jovana Ružić, Ilija Bobić, and Zvonko Damnjanović. "Microstructural and basic mechanical characteristics of ZA27 alloy-based nanocomposites synthesized by mechanical milling and compocasting." Journal of Composite Materials 53, no. 15 (2018): 2033–46. http://dx.doi.org/10.1177/0021998318817876.

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Particulate nanocomposites with the base of ZA27 alloy were synthesized using an innovative route, which includes mechanical milling and compocasting. Scrap from the matrix alloy and ceramic nanoreinforcements were mechanically milled using the ball-milling technique, which led to the formation of composite microparticles. The use of these particles in the compocasting process provided better wettability of ceramic nanoreinforcements in the semi-solid metal matrix, which resulted in a relatively good dispersion of the nanoreinforcements in nanocomposite castings. The presence of nanoreinforcem
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33

FLORATOS, EMMANUEL. "MATRIX QUANTIZATION OF TURBULENCE." International Journal of Bifurcation and Chaos 22, no. 09 (2012): 1250213. http://dx.doi.org/10.1142/s0218127412502136.

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Based on our recent work on Quantum Nambu Mechanics [Axenides & Floratos 2009], we provide an explicit quantization of the Lorenz chaotic attractor through the introduction of noncommutative phase space coordinates as Hermitian N × N matrices in R3. For the volume preserving part, they satisfy the commutation relations induced by one of the two Nambu Hamiltonians, the second one generating a unique time evolution. Dissipation is incorporated quantum mechanically in a self-consistent way having the correct classical limit without the introduction of external degrees of freedom. Due to its v
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34

AK, Roopa, A. M. Hunashyal, Fardeen A. Gudagi, and Mohammed Furquan Mulla. "Piezo-resistive Properties of Polymer based cement nano composites." E3S Web of Conferences 455 (2023): 03013. http://dx.doi.org/10.1051/e3sconf/202345503013.

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The nano technology has potential applications in development self-sensing smart materials. These nano materials is used in cement matrix or polymer base to improve the mechanical and piezo electrical properties of composites. In the present study, the graphene and carbon nano tube are added in matric, which acts as the conductive fibre into polymer cement composites. Cement based polymer composites are prepared by adding carbon fibre, epoxy resin, carbon nano tube and graphene as conductive filler in matrix to prepare the distinctive specimens for experimental investigations. The electro mech
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35

Dinesh, Bijender Kumar, and Jaehwan Kim. "Mechanical and Dynamic Mechanical Behavior of the Lignocellulosic Pine Needle Fiber-Reinforced SEBS Composites." Polymers 15, no. 5 (2023): 1225. http://dx.doi.org/10.3390/polym15051225.

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Aiming to generate wealth from waste and due to their significant fire threats to forests and their rich cellulose content, lignocellulosic pine needle fibers (PNFs) are utilized in this study as a reinforcement of the thermoplastic elastomer styrene ethylene butylene styrene (SEBS) matrix to create environmentally friendly and economical PNF/SEBS composites using a maleic anhydride-grafted SEBS compatibilizer. The chemical interaction in the composites studied by FTIR shows that strong ester bonds are formed between reinforcing PNF, the compatibilizer, and the SEBS polymer, leading to strong
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36

Mihu, Georgel, Sebastian-Marian Draghici, Vasile Bria, Adrian Circiumaru, and Iulian-Gabriel Birsan. "Mechanical Properties of Some Epoxy-PMMA Blends." Materiale Plastice 58, no. 2 (2021): 220–28. http://dx.doi.org/10.37358/mp.21.2.5494.

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The thermoset polymers and the thermoplastic polymers matrix composites require different forming techniques due to the different properties of two classes of polymers. While the forming technique for thermoset polymer matrix composites does not require the use of special equipment, the thermoplastic polymer matrix composites imposes the rigorous control of temperature and pressure values. Each type of polymer transfers to the composite a set of properties that may be required for a certain application. It is difficult to design a composite with commonly brittle thermoset polymer matrix showin
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37

Singh, R. N. "Influence of matrix cracking on mechanical properties of a ceramic matrix composite." Journal of Materials Science Letters 14, no. 14 (1995): 978–81. http://dx.doi.org/10.1007/bf00274624.

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38

Popov, V. A. "Obtaining Metal-Matrix Composites of Chromium Matrix–Nanodiamond Particles Using Mechanical Alloying." Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques 18, S1 (2024): S174—S179. https://doi.org/10.1134/s1027451024702021.

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39

Kasakewitsch, Alla, Uwe Arlic, and Werner Riehemann. "Mechanical Properties of Aluminum-Matrix-Nanoparticle-Composites." Key Engineering Materials 742 (July 2017): 145–50. http://dx.doi.org/10.4028/www.scientific.net/kem.742.145.

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Aluminium-Matrix-Nanoparticle-Composites were produced by ball milling of micro scale Aluminium powder with various nanoscales ceramic powders like Silicon Carbide, Alumina and Boron Nitride with subsequent consolidation by hot extruding. The composites were investigated by amplitude dependent damping tests, tensile tests at elevated temperatures, hardness measurements, imaging methods and electric conductivity tests. All tested samples were machined out of hot extruded rods. The Amplitude dependent damping of bending samples was determined by measuring the strain dependent logarithmic decreme
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40

Agrianidis, P., T. Agrianidis, K. G. Anthymidis, and A. Trakali. "Mechanical Properties of Aluminum Metal Matrix Composites." Key Engineering Materials 417-418 (October 2009): 341–44. http://dx.doi.org/10.4028/www.scientific.net/kem.417-418.341.

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Aluminum matrix composites reinforced by ceramic particles are well know for their good thermo-physical and mechanical properties. As a result, during the last years, there has been a considerable interest in using aluminum metal matrix composites (MMCs) in the automobile industry. These potential applications have greatly stimulated the tribological studies of MMCs under different operating conditions. In this paper, TiB – particles - reinforced aluminum - tungsten matrix composites were fabricated by the cost – effective squeeze – casting technology and their microstructure characteristics a
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41

Parswajinan, C., B. Vijaya Ramnath, M. Vetrivel, M. Aswin, and B. Mohana Vignesh. "Mechanical Behavior of Aluminium Metal Matrix Composite." Advanced Science, Engineering and Medicine 10, no. 3 (2018): 395–97. http://dx.doi.org/10.1166/asem.2018.2179.

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42

Sternitzke, M., E. Dupas, P. Twigg, and B. Derby. "Surface mechanical properties of alumina matrix nanocomposites." Acta Materialia 45, no. 10 (1997): 3963–73. http://dx.doi.org/10.1016/s1359-6454(97)00113-4.

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43

Castellan, Carina Strano, Patricia Nobrega Pereira, Rosa Helena Miranda Grande, and Ana Karina Bedran-Russo. "Mechanical characterization of proanthocyanidin–dentin matrix interaction." Dental Materials 26, no. 10 (2010): 968–73. http://dx.doi.org/10.1016/j.dental.2010.06.001.

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44

BOURENNANE, Hocine, Djelloul GUERIBIZ, and AHMED BENCHATTI. "Mechanical behavior modeling of damaged composite matrix." Revue des composites et des matériaux avancés 28, no. 3 (2018): 383–93. http://dx.doi.org/10.3166/rcma.28.383-393.

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45

Kazakewitsch, A., and W. Riehemann. "Mechanical Properties of Aluminum-Matrix-Nanoparticle Composites." Acta Physica Polonica A 122, no. 3 (2012): 516–19. http://dx.doi.org/10.12693/aphyspola.122.516.

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46

Zok, F. W., and C. G. Levi. "Mechanical Properties of Porous-Matrix Ceramic Composites." Advanced Engineering Materials 3, no. 1-2 (2001): 15–23. http://dx.doi.org/10.1002/1527-2648(200101)3:1/2<15::aid-adem15>3.0.co;2-a.

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47

Waheed, Mohammed, and Sadir Majeed. "The Mechanical Properties of Aluminum Matrix Composites." Engineering and Technology Journal 27, no. 15 (2009): 517–23. http://dx.doi.org/10.30684/etj.27.15.16.

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48

Massey, Caleb, Manuel Umanzor, and Gokul Vasudevamurthy. "Thermal and mechanical properties of mechanically alloyed 304LSS-CNT metal matrix composites." Journal of Composite Materials 51, no. 7 (2016): 1019–28. http://dx.doi.org/10.1177/0021998316658535.

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A methodology for the creation of 304LSS-CNT metal matrix composites using the mechanical alloying approach is presented. Planetary ball milled powders were both melted and hot pressed and achieved up to 96% theoretical density. High resolution scanning electron microscopy, Scanning Transmission Electron Microscopy, X-ray diffraction, energy dispersive spectroscopy, thermal diffusivity measurements, and Vickers microhardness measurements are used to characterize as processed and heat treated composites. Melted and solidified samples show highly anisotropic austenite/martensite microstructures
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49

Yadav, Govind, R. S. Rana, R. K. Dwivedi, and Ankur Tiwari. "Development and Analysis of Automotive Component Using Aluminium Alloy Nano Silicon Carbide Composite." Applied Mechanics and Materials 813-814 (November 2015): 257–62. http://dx.doi.org/10.4028/www.scientific.net/amm.813-814.257.

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Composite materials are important engineering materials due to their outstanding mechanical properties. Composites are materials in which the desirable properties of separate materials are combined by mechanically binding them together. Each of the components retains its structure and characteristic, but the composite generally possesses better properties. Composite materials offer superior properties to conventional alloys for various applications as they have high stiffness, strength and wear resistance. The development of these materials started with the production of continuous-fiber-reinf
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Bose, Subhaya, Kinjal Dasbiswas, and Arvind Gopinath. "Matrix Stiffness Modulates Mechanical Interactions and Promotes Contact between Motile Cells." Biomedicines 9, no. 4 (2021): 428. http://dx.doi.org/10.3390/biomedicines9040428.

Full text
Abstract:
The mechanical micro-environment of cells and tissues influences key aspects of cell structure and function, including cell motility. For proper tissue development, cells need to migrate, interact, and form contacts. Cells are known to exert contractile forces on underlying soft substrates and sense deformations in them. Here, we propose and analyze a minimal biophysical model for cell migration and long-range cell–cell interactions through mutual mechanical deformations of the substrate. We compute key metrics of cell motile behavior, such as the number of cell-cell contacts over a given time
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