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- ...', also referred as '''materials with hereditary effects''' are a class of materials whose [[constitutive equation]]s contains a dependence upon the past histor ...upon the history of the local deformation up to {{mvar|t}}. In general, in materials with memory the local value of some constitutive quantity (stress, heat flu ...18 KB (2,224 words) - 03:07, 12 November 2024
- ...708670 |page=206}}</ref> This analysis is not valid for non-linear elastic materials like rubber, for which the approach of area under the curve until elastic l ...3 KB (458 words) - 23:07, 2 July 2022
- ...assroom to help a child develop and refine their five senses. Use of these materials constitutes the next level of difficulty after those of practical life. Like many other materials in the Montessori classroom, sensorial materials have what is called "control of error", meaning that the child not only wor ...9 KB (1,475 words) - 13:08, 8 February 2025
- ...tal dislocation length.<ref>Courtney, T. (2005). ''Mechanical Behaviour of Materials'' (2nd ed.). Waveland Press.</ref> ...5 KB (731 words) - 01:06, 20 November 2024
- {{Short description|Class of atomically thin materials}} ...materials. But since 2016 there have been numerous reports of 2D magnetic materials that can be exfoliated with ease, similarly to graphene. ...17 KB (2,422 words) - 10:20, 11 February 2025
- ...ng. The ease with which the chemical composition can be changed in organic materials makes the photorefractive effect more controllable. ...|title=Organic Photorefractive Materials and Applications|journal=Advanced Materials|year=2011|volume=23|issue= 41|doi=10.1002/adma.201100436|pages=4725–4763}}< ...25 KB (3,562 words) - 16:19, 26 December 2024
- ...=E.|date=2015|title=Failing softly: a fracture theory of highly-deformable materials|journal=Soft Matter|volume=11|issue=19|pages=3812–3821|doi=10.1039/c5sm0049 ...neral approach can be applied to understand the basics of fracture on soft materials. ...14 KB (2,187 words) - 17:30, 4 October 2024
- ...]], and [[Tendon|tendons]]. Bone and cartilage, as load-bearing biological materials, are of interest to both a medical and academic setting for their propensit ...studying [[Fracture in polymers|polymer fracture]] and [[Fracture of Soft Materials|soft material fracture]] could aid in understanding biological material fra ...15 KB (2,218 words) - 18:03, 4 October 2024
- ...math>* orbitals. This expectation explains extensive search for better NLO materials among organic crystals. ...>O<sub>4</sub>,2H<sub>2</sub>O |journal=Science and Technology of Advanced Materials|volume=6|date=March 2005|issue=5|pages=508–512|doi=10.1016/j.stam.2005.01.0 ...3 KB (385 words) - 21:16, 30 December 2023
- {{Short description|Materials with a well-defined isotopic composition}} ...isotope ratios, and in part, due to historical legacy, isotopic reference materials define the scales on which isotope ratios are reported in the [[Peer review ...83 KB (11,622 words) - 07:13, 3 November 2024
- ...on of fiber reinforcement. Another advantage is that the [[anisotropy]] of materials such as [[shale gas|gas shale]] or fiber composites can be effectively repr ...in-controlled inelastic behavior." Chapter 3 in ''Mechanics of engineering materials'', C. S. Desai and R. H. Gallagher, eds., Wiley, London, 45–59.</ref> ...11 KB (1,608 words) - 16:29, 19 February 2025
- ...s (CFD)]] modeling and simulation for [[Phase-change material|phase change materials (PCMs)]] is a technique used to analyze the performance and behavior of PCM ...emperature relationships due to the fact that they are blends of different materials, but pure PCMs have a more localized relationship, which can be approximate ...10 KB (1,502 words) - 20:01, 10 November 2024
- ...dispersion equations specify ''n'' and ''k'' for amorphous and crystalline materials as a function of photon energy ''E''. Values of ''n'' and ''k'' as a functi ...loomer dispersion equations for ''n''(''E'') and ''k''(''E'') of amorphous materials are given as: ...31 KB (4,669 words) - 23:59, 29 June 2024
Page text matches
- ...ts to span the range from [[ductility|ductile]] to [[Brittleness|brittle]] materials.<ref name="chri"/> It has a two-property form calibrated by the uniaxial [[ ....M. (2007), ''A Comprehensive Theory of Yielding and Failure for Isotropic Materials'', J. Engr. Mater. and Technol., 129, 173–181</ref> ...4 KB (500 words) - 00:13, 7 January 2024
- ...rt description|One of the failure mechanisms in fiber-reinforced composite materials}} ...| author=WJ Cantwell, J Morton | title=The impact resistance of composite materials -- a review | journal=Composites | year=1991 | volume=22 | issue=5 | pages= ...3 KB (388 words) - 15:31, 16 August 2024
- ...current became a problem and alternate materials were necessary. These new materials had a lower equivalent oxide thickness so they could retain an appropriate The EOT definition is useful to quickly compare different [[dielectric]] materials to the industry standard silicon oxide dielectric, as: ...2 KB (277 words) - 19:28, 28 February 2021
- ...le="font-size:110%;text-align:center;;background:#DACAA5;" colspan="2" | ''Materials testing'' ...formation during Vickers indentation as a measure of the toughness of hard materials, ''Arch Eisenhuettenwes'', 33 (1962) 629-333. </ref> ...2 KB (328 words) - 05:25, 18 November 2021
- ...and no real material fits this definition perfectly. However, many elastic materials of practical interest, such as steel, plastic, wood and concrete, can often == Isotropic Cauchy-elastic materials == ...5 KB (743 words) - 14:15, 27 February 2021
- ...| last2=Dubois | first2=F.| title = Discrete-Element Modeling of Granular Materials| publisher = ISTE Ltd and John Wiley & Sons Inc | date=8 March 2011 | chapt [[Category:Granularity of materials]] ...2 KB (347 words) - 19:01, 20 September 2023
- ...tjans>P. Heitjans, J. Karger, Ed, “Diffusion in condensed matter: Methods, Materials, Models,” 2nd edition, Birkhauser, 2005, pp. 1-965.</ref> Diffusion along {{Materials-stub}} ...2 KB (303 words) - 06:27, 19 October 2023
- ...math>* orbitals. This expectation explains extensive search for better NLO materials among organic crystals. ...>O<sub>4</sub>,2H<sub>2</sub>O |journal=Science and Technology of Advanced Materials|volume=6|date=March 2005|issue=5|pages=508–512|doi=10.1016/j.stam.2005.01.0 ...3 KB (385 words) - 21:16, 30 December 2023
- ...date = 2008-10-07}}.</ref> The formula was devised by Eugene Meyer of the Materials Testing Laboratory at the Imperial School of Technology, [[Charlottenburg]] ...rdened]] materials, and 2.5, for fully [[Annealing (metallurgy)|anneal]]ed materials. It is roughly related to the strain hardening coefficient in the equation ...3 KB (491 words) - 22:05, 16 December 2021
- ...properties|mechanical properties]] of materials is to design and fabricate materials exhibiting strength close to the theoretical limit. ...th is often approximated as: <ref>{{Cite book|title=Mechanical behavior of materials|last=H.|first=Courtney, Thomas|date=2005|publisher=Waveland Press|isbn=978- ...4 KB (613 words) - 06:46, 16 November 2022
- ...rials and the interference of the stresses placed on the materials, where "materials" is not necessarily the raw goods or parts, but can be an entire system. S ...3 KB (395 words) - 04:39, 15 February 2025
- {{short description|Property of materials at small scales}} ...t2=Huajian|date=October 1997|title=Indentation size effects in crystalline materials: A law for strain gradient plasticity|journal=Journal of the Mechanics and ...5 KB (658 words) - 20:33, 12 August 2023
- ...e-crystal elastic constants of cubic (3C) SiC to 1000°C|journal=Journal of Materials Science|date=July 1987|volume=22|issue=7|pages=2557–2559|doi=10.1007/BF0108 ...bradt" /><ref>{{cite book| author=L. B. Freund; S. Suresh| title=Thin Film Materials Stress, Defect Formation and Surface Evolution| publisher=Cambridge Univers ...6 KB (823 words) - 06:47, 24 September 2024
- ...nternational|others=Campbell, F. C. (Flake C.)|isbn=9780871708670|location=Materials Park, Ohio|oclc=608624525}}</ref> [[Temperature gradient]]s, [[thermal expa ...sher=ASM International|others=Paul, Donald E.|isbn=9780871703996|location=[Materials Park, Ohio]|oclc=555222029}}</ref> ...4 KB (673 words) - 18:15, 24 October 2024
- ...uthor2=Karl-Heinz Thomas |language=German}}</ref>}}) describes the [[Slip (materials science)|slip]] plane and the slip direction of a [[Stress (mechanics)|stre ...e=1935|publisher=Springer|isbn=978-3662342619|url=https://www.springer.com/materials/special+types/book/978-3-662-34261-9|edition=1st|author2=Walter Boas |langu ...3 KB (358 words) - 02:09, 4 November 2024
- ...ss of the emergent scaling property of random RC network models of complex materials | journal= Journal of Physics D: Applied Physics | year=2009 | volume=42 | ...observed. The power law emergent region is the key feature of the UDR. In materials or systems exhibiting UDR, the overall dielectric response from high to low ...5 KB (683 words) - 16:53, 29 July 2024
- ...st it decreases with higher loads. For [[Annealing (metallurgy)|anneal]]ed materials the Meyer hardness increases continuously with load due to strain hardening The Meyer hardness test was devised by Eugene Meyer of the Materials Testing Laboratory at the Imperial School of Technology, [[Charlottenburg]] ...3 KB (450 words) - 16:03, 22 April 2020
- ...in the bi-isotropic class. The twist effect of the class of bi-isotropic materials is caused by the [[Chirality (electromagnetism)|chirality]] and non-[[Recip ...E'' fields, while the ''B'' and ''H'' fields remain related by a constant. Materials where either pair of fields is not parallel are called anisotropic. ...6 KB (842 words) - 04:27, 25 February 2025
- *[[List of piezoelectric materials]] ...836 bytes (105 words) - 00:58, 18 July 2024
- ...heories]], which is widely used for [[Anisotropy|anisotropic]] [[composite materials]] which have different strengths in tension and compression. The Tsai-Hill [[Category:Composite materials]] ...2 KB (301 words) - 12:56, 13 May 2024