Bibliografías temáticas / Inhomogeneous materials

Literatura académica sobre el tema "Inhomogeneous materials"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 7 de septiembre de 2023

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Artículos de revistas sobre el tema "Inhomogeneous materials"

1

Grimvall, G. y M. S�derberg. "Transport in macroscopically inhomogeneous materials". International Journal of Thermophysics 7, n.º 1 (enero de 1986): 207–11. http://dx.doi.org/10.1007/bf00503811.

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2

Klemens, P. G. "Thermal conductivity of inhomogeneous materials". International Journal of Thermophysics 10, n.º 6 (noviembre de 1989): 1213–19. http://dx.doi.org/10.1007/bf00500572.

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3

Nan, Ce-Wen. "Physics of inhomogeneous inorganic materials". Progress in Materials Science 37, n.º 1 (enero de 1993): 1–116. http://dx.doi.org/10.1016/0079-6425(93)90004-5.

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Pasternak, Viktoriya, Lyudmila Samchuk, Artem Ruban, Oleksandr Chernenko y Nataliia Morkovska. "Investigation of the Main Stages in Modeling Spherical Particles of Inhomogeneous Materials". Materials Science Forum 1068 (19 de agosto de 2022): 207–14. http://dx.doi.org/10.4028/p-9jq543.

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This scientific study deals with the main issues related to the process of filling inhomogeneous materials into a rectangular hopper. The article develops an algorithm for filling particles of structurally inhomogeneous materials. A micrograph of the structure of samples of inhomogeneous materials is presented. It was found that the structure of samples of heterogeneous materials consists of three layers: external, internal and impurities of various grinding aggregates. Based on microstructural analysis, the presence of particles of various shapes and sizes was justified. On the basis of which the main initial conditions for filling the package with spherical particles were described. The basic physical and mechanical properties of structurally inhomogeneous materials were studied using the obtained results. We also constructed an approximate dependence of porosity on the particle diameter of inhomogeneous materials.
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5

Mironov, Vladimir I., Olga A. Lukashuk y Dmitry A. Ogorelkov. "On Durability of Structurally Inhomogeneous Materials". Materials Science Forum 1031 (mayo de 2021): 24–30. http://dx.doi.org/10.4028/www.scientific.net/msf.1031.24.

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Numerical methods used to calculate strength are based on energy approaches and minimization of functionals of one type or another. Yet the model of a material is limited to stable processes of deformation. As a result, a considerable number of deformation properties related to realization of the softening stage in materials of structural elements remains unaccounted for. To describe fracture as a new phenomenon in the behavior of structures, one needs to apply newer experimental and calculational approaches. The article cites results of modelling and experimental notions on the stage of softening in materials and its role in determining their durability. It is proposed to define the durability of a structurally inhomogeneous material as its capacity of equilibrium deformation beyond its ultimate strength under specified loading conditions. That reflects nonlocality of criteria for the failure of the material, their dependence both on its own properties and the geometry of a structural element. Complete stress-strain diagrams for structural materials of various classes and examples on how the softening stage is realized in structural materials are given.
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6

Dyakonov, O. M. "Briquetting of structurally inhomogeneous porous materials". Proceedings of the National Academy of Sciences of Belarus, Physical-Technical Series 65, n.º 2 (7 de julio de 2020): 205–14. http://dx.doi.org/10.29235/1561-8358-2020-65-2-205-214.

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The work is devoted to solving the axisymmetric problem of the theory of pressing porous bodies with practical application in the form of force calculation of metallurgical processes of briquetting small fractional bulk materials: powder, chip, granulated and other metalworking wastes. For such materials, the shape of the particles (structural elements) is not geometrically correct or generally definable. This was the basis for the decision to be based on the continual model of a porous body. As a result of bringing this model to a two-dimensional spatial model, a closed analytical solution was obtained by the method of jointly solving differential equilibrium equations and the Guber–Mises energy condition of plasticity. The following assumptions were adopted as working hypotheses: the normal radial stress is equal to the tangential one, the lateral pressure coefficient is equal to the relative density of the compact. Due to the fact that the problem is solved in a general form and in a general formulation, the solution itself should be considered as methodological for any axisymmetric loading scheme. The transcendental equations of the deformation compaction of a porous body are obtained both for an ideal pressing process and taking into account contact friction forces. As a result of the development of a method for solving these equations, the formulas for calculating the local characteristics of the stressed state of the pressing, as well as the integral parameters of the pressing process are derived: pressure, stress, and deformation work.
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7

Alshits, V. I. y H. O. K. Kirchner. "Cylindrically anisotropic, radially inhomogeneous elastic materials". Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 457, n.º 2007 (8 de marzo de 2001): 671–93. http://dx.doi.org/10.1098/rspa.2000.0687.

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Zhou, Q., Z. Bian y A. Shakouri. "Pulsed cooling of inhomogeneous thermoelectric materials". Journal of Physics D: Applied Physics 40, n.º 14 (29 de junio de 2007): 4376–81. http://dx.doi.org/10.1088/0022-3727/40/14/037.

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HIGUCHI, Masahiro, Kyohei TAKEO, Harunobu NAGINO, Takuya MORIMOTO y Yoshinobu TANIGAWA. "OS0121 Plate Theories of inhomogeneous materials". Proceedings of the Materials and Mechanics Conference 2009 (2009): 305–7. http://dx.doi.org/10.1299/jsmemm.2009.305.

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10

Zhu, S. B., J. Lee y G. W. Robinson. "Kinetic energy imbalance in inhomogeneous materials". Chemical Physics Letters 161, n.º 3 (septiembre de 1989): 249–52. http://dx.doi.org/10.1016/s0009-2614(89)87069-1.

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Tesis sobre el tema "Inhomogeneous materials"

1

Feder, David. "Inhomogeneous d-wave superconductors /". *McMaster only, 1997.

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2

Barabash, Sergey V. "Topics in the Physics of Inhomogeneous Materials". The Ohio State University, 2003. http://rave.ohiolink.edu/etdc/view?acc_num=osu1053637716.

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Poladian, Leon. "Effective transport and optical properties of composite materials". Phd thesis, Department of Theoretical Physics, 1990. http://hdl.handle.net/2123/11724.

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Koss, Robert Stephen. "Numerical studies of macroscopically disordered materials /". The Ohio State University, 1986. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487322984316204.

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5

Larsson, Ashley Ian. "Mathematical aspects of wave theory for inhomogeneous materials /". Title page, table of contents and summary only, 1991. http://web4.library.adelaide.edu.au/theses/09PH/09phl334.pdf.

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Kusuma, Jeffry. "On some mathematical aspects of deformations of inhomogeneous elastic materials /". Title page, contents and summary only, 1992. http://web4.library.adelaide.edu.au/theses/09PH/09phk97.pdf.

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Kinkade, Kyle Richard. "Divergence form equations arising in models for inhomogeneous materials". Manhattan, Kan. : Kansas State University, 2008. http://hdl.handle.net/2097/900.

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Azis, Mohammad Ivan. "On the boundary integral equation method for the solution of some problems for inhomogeneous media". Title page, contents and summary only, 2001. http://web4.library.adelaide.edu.au/theses/09PH/09pha995.pdf.

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Errata pasted onto front end-paper. Bibliography: leaves 101-104. This thesis employs integral equation methods, or boundary element methods (BEMs), for the solution of three kinds of engineering problems associated with inhomogeneous materials or media: a class of elliptical boundary value problems (BVPs), the boundary value problem of static linear elasticity, and the calculation of the solution of the initial-boundary value problem of non-linear heat conduction for anisotropic media.
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9

Huang, Zhoushen. "Spontaneous formation of charge inhomogeneity on silica surface immersed in water /". View abstract or full-text, 2007. http://library.ust.hk/cgi/db/thesis.pl?PHYS%202007%20HUANG.

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Gammage, Justin Wilkinson D. S. "Damage in heterogeneous aluminum alloys /". *McMaster only, 2002.

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Libros sobre el tema "Inhomogeneous materials"

1

Sahimi, Muhammad. Heterogeneous materials. New York: Springer, 2003.

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2

Hertz, John. Disordered systems. Stockholm, Sweden: Royal Academy of Sciences, 1985.

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3

Alippi, Adriano y Walter G. Mayer, eds. Ultrasonic Methods in Evaluation of Inhomogeneous Materials. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-009-3575-4.

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NATO Advanced Study Institute on "Ultrasonic Methods in Evaluation of Inhomogeneous Materials" (1985 Erice, Italy). Ultrasonic methods in evaluation of inhomogeneous materials. Dordrecht: Martinus Nijhoff, 1987.

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5

Alippi, Adriano. Ultrasonic Methods in Evaluation of Inhomogeneous Materials. Dordrecht: Springer Netherlands, 1987.

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6

Fredrickson, Glenn Harold. The equilibrium theory of inhomogeneous polymers. Oxford: Clarendon Press, 2006.

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7

Shik, A. Y. Electronic properties of inhomogeneous semiconductors. Luxembourg: Gordon and Breach, 1995.

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8

Torquato, S. Random heterogeneous materials: Microstructure and macroscopic properties. New York: Springer, 2002.

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9

Privalko, V. P. The science of heterogeneous polymers: Structure and thermophysical properties. Chichester: John Wiley, 1995.

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10

S̆imánek, Eugen. Inhomogeneous superconductors: Granular and quantum effects. New York: Oxford University Press, 1994.

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Capítulos de libros sobre el tema "Inhomogeneous materials"

1

Jin, Xiaoqing, Leon M. Keer, Q. Jane Wang y Eugene L. Chez. "Inhomogeneous Inclusion in Materials". En Encyclopedia of Tribology, 1832. Boston, MA: Springer US, 2013. http://dx.doi.org/10.1007/978-0-387-92897-5_256.

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2

Wang, Q. Jane y Dong Zhu. "EHL of Inhomogeneous Materials". En Interfacial Mechanics, 451–80. First edition. | Boca Raton, FL : CRC Press/Taylor & Francis Group, 2019.: CRC Press, 2019. http://dx.doi.org/10.1201/9780429131011-13.

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Grigorenko, Alexander Ya, Wolfgang H. Müller y Igor A. Loza. "Electric Elastic Waves in Layered Inhomogeneous and Continuously Inhomogeneous Piezoceramic Cylinders". En Advanced Structured Materials, 111–63. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-74199-0_3.

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4

Gagnepain, J. J. "Piezoelectric Materials". En Ultrasonic Methods in Evaluation of Inhomogeneous Materials, 243–62. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-009-3575-4_18.

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5

Steck, Elmar. "Crack Extension in Inhomogeneous Materials". En Lecture Notes in Engineering, 94–104. Berlin, Heidelberg: Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-642-88479-5_10.

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Goryacheva, Irina. "Wear Contact of Inhomogeneous Materials". En Encyclopedia of Tribology, 3987–92. Boston, MA: Springer US, 2013. http://dx.doi.org/10.1007/978-0-387-92897-5_540.

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7

Hendriks, M. A. N. y C. W. J. Oomens. "Identification Aspects of Inhomogeneous Materials". En Inverse Problems in Engineering Mechanics, 301–10. Berlin, Heidelberg: Springer Berlin Heidelberg, 1993. http://dx.doi.org/10.1007/978-3-642-52439-4_29.

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8

Veltri, A., A. V. Sukhov, R. Caputo, L. De Sio, M. Infusino y C. P. Umeton. "CHAPTER 5. Inhomogeneous Photopolymerization in Multicomponent Media". En Photocured Materials, 87–102. Cambridge: Royal Society of Chemistry, 2014. http://dx.doi.org/10.1039/9781782620075-00087.

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9

Zarembowitch, A., J. Berger, M. Fischer y F. Michard. "Inhomogeneous Materials Studied with Brillouin Scattering". En Ultrasonic Methods in Evaluation of Inhomogeneous Materials, 85–104. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-009-3575-4_7.

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Doyle, T. E., L. G. Porter, L. H. Pearson y D. G. Gill. "Ultrasonic Reflection Tomography of Inhomogeneous Materials". En Review of Progress in Quantitative Nondestructive Evaluation, 959–66. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4791-4_123.

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Actas de conferencias sobre el tema "Inhomogeneous materials"

1

Kharevych, Lily, Patrick Mullen, Houman Owhadi y Mathieu Desbrun. "Numerical coarsening of inhomogeneous elastic materials". En ACM SIGGRAPH 2009 papers. New York, New York, USA: ACM Press, 2009. http://dx.doi.org/10.1145/1576246.1531357.

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Bian, Zhixi y Ali Shakouri. "Cooling Enhancement Using Inhomogeneous Thermoelectric Materials". En 2006 25th International Conference on Thermoelectrics. IEEE, 2006. http://dx.doi.org/10.1109/ict.2006.331365.

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Aspnes, D. E. "Electrodynamic Properties of Nanoscopically Inhomogeneous Materials". En ADVANCED SUMMER SCHOOL IN PHYSICS 2006: Frontiers in Contemporary Physics: EAV06. AIP, 2007. http://dx.doi.org/10.1063/1.2563196.

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Dogariu, Aristide C. "Microstructural characterization of inhomogeneous media". En Laser-Induced Damage in Optical Materials: 1999, editado por Gregory J. Exarhos, Arthur H. Guenther, Mark R. Kozlowski, Keith L. Lewis y M. J. Soileau. SPIE, 2000. http://dx.doi.org/10.1117/12.379334.

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Fesenko, Volodymyr I. y Igor A. Sukhoivanov. "Polarization Conversion in Inhomogeneous Anisotropic Multilayer Structures". En Advances in Optical Materials. Washington, D.C.: OSA, 2012. http://dx.doi.org/10.1364/aiom.2012.jth2a.7.

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Vegni, Lucio, Alessandro Toscano y Filiberto Bilotti. "Properties of inhomogeneous materials for microwave radiation components". En International Symposium on Optical Science and Technology, editado por Akhlesh Lakhtakia, Werner S. Weiglhofer y Russell F. Messier. SPIE, 2000. http://dx.doi.org/10.1117/12.390603.

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Genack, Azriel Z., Yiming Huang, Chushun Tian, Victor A. Gopar y Ping Fang. "Invariance Principle for Wave Propagation inside Inhomogeneous Materials". En Frontiers in Optics. Washington, D.C.: OSA, 2020. http://dx.doi.org/10.1364/fio.2020.jm6a.7.

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Knyaz, A. "Isoimpedance inhomogeneous magnetodielectrics-wave materials for unusual applications". En IEEE Antennas and Propagation Society International Symposium 1997. Digest. IEEE, 1997. http://dx.doi.org/10.1109/aps.1997.625426.

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Nakamura, Takahide, Ryo Kobayashi y Shuji Ogata. "Recursive Coarse-Grained Particle Method for Inhomogeneous Materials". En 2008 MRS Fall Meetin. Materials Research Society, 2008. http://dx.doi.org/10.1557/proc-1130-w01-09.

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Ramírez, Giovanni. "Quantum entanglement in inhomogeneous 1D systems". En ADVANCES IN MATERIALS, MACHINERY, ELECTRONICS II: Proceedings of the 2nd International Conference on Advances in Materials, Machinery, Electronics (AMME 2018). Author(s), 2018. http://dx.doi.org/10.1063/1.5031699.

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Informes sobre el tema "Inhomogeneous materials"

1

Bass, B. R. (Fracture mechanics of inhomogeneous materials). Office of Scientific and Technical Information (OSTI), octubre de 1990. http://dx.doi.org/10.2172/6548880.

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Bian, Zhixi y Ali Shakouri. Cooling Enhancement Using Inhomogeneous Thermoelectric Materials. Fort Belvoir, VA: Defense Technical Information Center, enero de 2006. http://dx.doi.org/10.21236/ada459926.

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Becker, Terrence Lee. Gradient effects on the fracture of inhomogeneous materials. Office of Scientific and Technical Information (OSTI), mayo de 2000. http://dx.doi.org/10.2172/764395.

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McCall, Katherine R. Application of Resonant Ultrasound Spectroscopy to Inhomogeneous Materials. Fort Belvoir, VA: Defense Technical Information Center, agosto de 2000. http://dx.doi.org/10.21236/ada381149.

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Schovanec, L. y J. R. Walton. On the Order of the Stress Singularity for an Anti-Plane Shear Crack at the Interface of Two Bonded Inhomogeneous Elastic Materials. Fort Belvoir, VA: Defense Technical Information Center, noviembre de 1986. http://dx.doi.org/10.21236/ada175139.

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Muhlestein, Michael. Willis coupling in one-dimensional layered bulk media. Engineer Research and Development Center (U.S.), noviembre de 2022. http://dx.doi.org/10.21079/11681/45862.

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Willis coupling, which couples the constitutive equations of an acoustical material, has been applied to acoustic metasurfaces with promising results. However, less is understood about Willis coupling in bulk media. In this paper a multiple-scales homogenization method is used to analyze the source and interpretation of Willis coupling in one-dimensional bulk media without any hidden degrees of freedom, or one-dimensional layered media. As expected from previous work, Willis coupling is shown to arise from geometric asymmetries, but is further shown to depend greatly on the measurement position. In addition, a discussion of the predicted material properties, including Willis coupling, of macroscopically inhomogeneous media is presented.
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Prinja, Anil K. y Corey Skinner. Benchmark Solutions for Radiation Transport in Stochastic Media with Inhomogeneous Material Statistics. Office of Scientific and Technical Information (OSTI), junio de 2020. http://dx.doi.org/10.2172/1634291.

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