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Books on the topic 'Isotropic material'

Author: Grafiati
Published: 4 June 2021
Last updated: 20 June 2025

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1

(Korea), LG Chŏnja. IT pup'umyong ibangsŏng tojŏn chŏpsokche (ACF) =: An-isotropic conductive material for IT components. Chisik Kyŏngjebu, 2009.

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2

Larson, Mark K. STRESsOUT--a data reduction program for inferring stress state of rock having isotropic material properties: A user's manual. U.S. Dept. of the Interior, Bureau of Mines, 1992.

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3

Larson, Mark K. STRESsOUT--a data reduction program for inferring stress state of rock having isotropic material properties: A user's manual. U.S. Dept. of the Interior, Bureau of Mines, 1992.

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4

United States. National Aeronautics and Space Administration., ed. A transversely isotropic thermoelastic theory. National Aeronautics and Space Administration, 1988.

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5

F, Smith Gerald. Constitutive equations for anisotropic and isotropic materials. North-Holland, 1994.

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6

G, Ramaswamy V., and Langley Research Center, eds. Constitutive modeling for isotropic materials: Annual report. National Aeronautics and Space Administration, Langley Research Center, 1985.

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7

Serikov, Sergey. Impact on impact strength. INFRA-M Academic Publishing LLC., 2024. http://dx.doi.org/10.12737/2161513.

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The main purpose of the monograph is to identify the main patterns in assessing the operational reliability of metals on the basis of a mathematical model of unsteady deformation of an isotropic viscoplastic medium, with specified boundary, initial conditions and energy criterion of destruction. A physically based computational and experimental method for metal identification is formulated. Practical examples of the efficiency of the method for a wide class of materials are given: structural steels, titanium, aluminum and copper alloys. The assessment of the operational reliability of metals is based on a comparison of matrices containing seven parameters: tensile strength, yield strength, elongation, coefficient of dynamic viscosity, specific energy of fracture, rate of deformation, temperature. The book also pays a lot of attention to experimental data on the classical value of impact strength. It is shown that it actually reflects the properties of the material in the range of elastic-brittle state, but not in the scheme of a viscoplastic medium. It is intended for scientific and engineering workers, students involved in metal science and fracture mechanics.
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8

Chan, K. S. Constitutive modeling for isotropic materials (HOST): Final report. Southwest Research Institute, 1988.

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9

Vinson, Jack R. The Behavior of Shells Composed of Isotropic and Composite Materials. Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-015-8141-7.

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10

Vinson, Jack R. The behavior of shells composed of isotropic and composite materials. Kluwer Academic Publishers, 1993.

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11

1931-, Lindholm Ulric S., and United States. National Aeronautics and Space Administration, eds. Constitutive modeling for isotropic materials (HOST): Second annual status report. Southwest Research Institute, 1985.

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12

Nelson, R. S. Creep fatigue life prediction for engine hot section materials(Isotropic): Final report. National Aeronautics and Space Administration, 1992.

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13

F, Schoendorf J., Lin L. S, and United States. National Aeronautics and Space Administration, eds. Creep fatigue life prediction for engine hot section materials (isotropic): Interim report. National Aeronautics and Space Administration, Lewis Research Center, 1986.

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14

Nelson, R. S. Creep fatigue life prediction for engine hot section materials (isotropic): Second interim report. National Aeronautics and Space Administration, 1992.

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15

Vinson, Jack R. Plate and Panel Structures of Isotropic, Composite and Piezoelectric Materials, Including Sandwich Construction. Springer Netherlands, 2005. http://dx.doi.org/10.1007/1-4020-3111-4.

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16

1957-, Lakhtakia A., Dewar Graeme, McCall Martin W, and Society of Photo-optical Instrumentation Engineers., eds. Complex mediums III: Beyond linear isotropic dielectrics : 8-10 July 2002, Seattle, [Washington] USA. SPIE, 2002.

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17

Center, Langley Research, ed. Buckling and postbuckling behavior of compression-loaded isotropic plates with cutouts. National Aeronautics and Space Administration, Office of Management, Scientific and Technical Information Division, 1990.

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18

J, Hodgkinson Ian, Lakhtakia A. 1957-, Weiglhofer Werner S, and Society of Photo-optical Instrumentation Engineers., eds. Complex mediums II: Beyond linear isotropic dielectrics : 30 July-1 August 2001, San Diego, USA. SPIE, 2001.

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19

name, No. Complex mediums IV: Beyond linear isotropic dielectrics :4-5 August 2003, San Diego, California, USA. SPIE, 2003.

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20

Graeme, Dewar, McCall Martin W, and Society of Photo-optical Instrumentation Engineers., eds. Complex mediums IV: Beyond linear isotropic dielectrics : 4-5 August, 2003, San Diego, California, USA. SPIE, 2003.

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21

Illg, Walter. Effects of partial interlaminar bonding on impact resistance and loaded hole behavior of graphite/epoxy quasi-isotropic laminates. National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1986.

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22

Kelkar, Ajit Dhundiraj. Analyses of quasi-isotropic composite plates under quasi-static point loads simulating low-velocity impact phenomena. Old Dominion University, 1985.

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23

Sohi, Mohsen M. The effect of resin toughness and modulus on compressive failure modes of quasi-isotropic graphite/epoxy laminates. National Aeronautics and Space Administration, Langley Research Center, 1986.

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24

Sohi, Mohsen M. The effect of resin toughness and modulus on compressive failure modes of quasi-isotropic graphite/epoxy laminates. National Aeronautics and Space Administration, Langley Research Center, 1986.

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25

On Finite Deformations of an Elastic Isotropic Material. Creative Media Partners, LLC, 2023.

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26

On Finite Deformations of an Elastic Isotropic Material. Creative Media Partners, LLC, 2023.

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27

Steigmann, David J. Material symmetry. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198567783.003.0004.

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This chapter invokes the notion of local symmetry transformations to derive restrictions on constitutive response for specific material classes. This is used to derive formulas for stress in isotropic materials.
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28

Steigmann, David J. Elements of plasticity theory. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198567783.003.0013.

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Chapter 13 develops the modern theory for finite elastic-plastic deformations. It covers dissipation and highlights the role of the Eshelby tensor, and recovers the classical theory for isotropic materials using material symmetry arguments. Also developed are the equations of classical slip-line theory for plane-strain deformations.
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29

STRESsOUT--a data reduction program for inferring stress state of rock having isotropic material properties: A user's manual. U.S. Dept. of the Interior, Bureau of Mines, 1992.

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30

STRESsOUT--a data reduction program for inferring stress state of rock having isotropic material properties: A user's manual. U.S. Dept. of the Interior, Bureau of Mines, 1992.

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31

STRESsOUT--a data reduction program for inferring stress state of rock having isotropic material properties: A user's manual. U.S. Dept. of the Interior, Bureau of Mines, 1992.

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32

Elasticity of Transversely Isotropic Materials. Springer-Verlag, 2006. http://dx.doi.org/10.1007/1-4020-4034-2.

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33

Ding, Haojiang, Weiqiu Chen, and Ling Zhang. Elasticity of Transversely Isotropic Materials. Springer, 2006.

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34

Ding, Haojiang, Weiqiu Chen, and Ling Zhang. Elasticity of Transversely Isotropic Materials. Ding Haojiang Chen Weiqiu Zhang Ling, 2010.

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35

Steigmann, David J. Some examples involving uniform, compressible isotropic materials. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198567783.003.0008.

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This chapter details analytical solutions for unconstrained materials using tractable strain–energy functions. Three-dimensional and plane–strain deformations are illustrated. These include a formulation of the cavtitation problem in compressible materials and a discussion of so-called Harmonic materials.
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36

Constitutive Equations for Anisotropic and Isotropic Materials. Elsevier, 1994. http://dx.doi.org/10.1016/c2009-0-09843-2.

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37

Smith, G. F. Constitutive Equations for Anisotropic and Isotropic Materials. Elsevier Science & Technology Books, 2012.

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38

Newman, Stuart A. Toward a Nonidealist Evolutionary Synthesis. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199377176.003.0006.

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The received model of evolution sees all inherited features resulting from deterministic networks of interacting genes, implying that living systems are reducible to information in genetic programs. The model requires these programs and their associated phenotypes to have evolved by an isotropic search process occurring in gradual steps with no preferred morphological outcomes. The alternative is to recognize that clusters and aggregates of cells, the raw material of evolution, constitute middle-scale material systems. This implies the necessity of bringing the modern physics of mesoscale matter into the explanatory framework for the evolution of development. The relevant, often nonlinear, physical processes were mobilized at the inception of the phyla when their signature morphological outcomes first appeared and remain as efficient causes, albeit transformed, in present-day embryos. This physicogenetic perspective reengages with concepts of saltation, orthogenesis, and environment-induced plasticity long excluded from evolutionary theory.
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39

Steigmann, David J. Some boundary-value problems for uniform isotropic incompressible materials. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198567783.003.0007.

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This chapter outlines the formulation and explicit solution of a number of simple boundary-value problems. Analysis is facilitated by the constraint of incompressibility. Examples include expansionand contraction of cylinders, torsion, azimuthal shear, and cavitation under conditions of spherical symmetry Further examples involving anti-plane shear are discussed in the Problems.
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40

Behavior of Sandwich Structures of Isotropic and Composite Materials. CRC Press LLC, 2018.

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41

Behavior of Sandwich Structures of Isotropic and Composite Materials. CRC Press LLC, 2018.

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42

Vinson, JackR. Behavior of Sandwich Structures of Isotropic and Composite Materials. CRC Press LLC, 2018.

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43

Vinson, JackR. Behavior of Sandwich Structures of Isotropic and Composite Materials. CRC Press LLC, 2018.

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44

Vinson, Jack R. Behavior of Shells Composed of Isotropic and Composite Materials. Springer, 2013.

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45

Behavior of Sandwich Structures of Isotropic and Composite Materials. Routledge, 1999.

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46

Steigmann, David J. Fiber symmetry. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198567783.003.0005.

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47

Constitutive modeling for isotropic materials (HOST): Third annual status report. National Aeronautics and Space Administration, Lewis Research Center, 1986.

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48

The behavior of sandwich structures of isotropic and composite materials. Technomic Pub. Co., 1999.

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49

Vinson, Jack R. The Behavior of Shells Composed of Isotropic and Composite Materials. Springer Netherlands, 2009.

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50

Ceniga, Ladislav. Analytical Models of Interstitial-Atom-Induced Stresses in Isotropic Metallic Materials. Nova Science Publishers, Incorporated, 2022.

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