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101	Plane strain ideal plastic flow through dies Jenkins, Artis Cornell 05 1900 (has links) No description available. Strains and stresses Plasticity Deformations (Mechanics)
102	Comprehensive study of the torsional deformation of aluminum and two aluminum alloys Haas, Steven Lawrence 05 1900 (has links) No description available. Torsion Deformations (Mechanics) Aluminum Testing
103	The development and characterization of a system to impart a mechanical deformation to a culture of neural-like cells to emulate in vivo traumatic brain injury Chitre, Yougandh 12 1900 (has links) No description available. Brain Wounds and injuries Deformations (Mechanics)
104	The strain rate dependence upon grain size in coarse-grain zinc Dorman, Dennis Richard 05 1900 (has links) No description available. Deformations (Mechanics) Zinc Metals Creep
105	Deformation modeling and constitutive modeling for anisotropic superalloys Milligan, Walter W., Jr. 12 1900 (has links) No description available. Deformations (Mechanics) Materials Creep Anisotropy
106	The annealing and concurrent torsion of bainitic steel / Deep, George. January 1974 (has links) No description available. Steel. Annealing of metals. Deformations (Mechanics)
107	Plastic deformation of aluminium micro-specimens Ng, Kwok-sing. January 2008 (has links) Thesis (Ph. D.)--University of Hong Kong, 2009. / Includes bibliographical references. Also available in print.
108	Modeling of high strain rate and strain localization in FCC single crystals multiscale dislocation dynamics analyses / Shehadeh, Mu'Tasem A., January 2005 (has links) (PDF) Thesis (Ph.D.)--Washington State University. / Includes bibliographical references.
109	Análise de parâmetros adimensionais num escoamento em meio poroso visando a deformação de elementos cerâmicos / França, Antonio Carlos. January 2006 (has links) Orientador: Luiz Roberto Carrocci / Banca: José Antonio Perrella Balestieri / Banca: Marcelo Rodrigues de Holanda / Banca: Adriano Francisco Siqueira / Banca: Janaina Ferreira Batista Leal / Resumo: É comum serem identificadas trincas em alvenaria de tijolos, não somente depois de um certo tempo da construção, mas também, por vezes, durante a própria construção. Essas trincas, ou deformações estruturais ocorrem por diversos fatores de ordem técnica, dentre os quais, um deles devido à umidade absorvida pelos elementos da parede (tijolos e argamassa). Tal umidade pode vir das condições do ambiente (dia úmido), de chuvas, do solo e até do excesso da quantidade de água contida na argamassa de assentamento. Em contato com os elementos porosos da parede, tijolos e argamassa, a água concorrerá para a percolação capilar, dando origem a consideráveis esforços internos, que virão provocar deslocamentos estruturais, os quais, via de regra, são diferentes para o tijolo e para a argamassa, dessa forma, provocando o aparecimento de trincas. Os fenômenos que dão origem às deformações foram estudados em um trabalho de pesquisa por FRANÇA (2000), analisados e quantificados em laboratório, no qual se confirmou a hipótese de que a somatória dos esforços capilares provocados pelo deslocamento de um fluido em um meio poroso,pode atingir valores elevados ao ponto de causar na estrutura deslocamentos e, conseqüentemente, trincas. Por isso, o deslocamento do fluido por entre os canais existentes entre as partículas do meio poroso, processado sob a forma de uma frente de fluido se deslocando, denominada velocidade de percolação, necessitou ser visualizado e matematicamente tratado. / Abstract: The identification of cracks in brick masonry is quite common, not only after a certain period of time post-building but also, sometimes, during the building. These cracks or structural deformations are due to several factors of technical order. One of them is related to the moistness absorbed by the elements of the wall (brick and mortar). Such moistness can be the result of the environment conditions (dank day), rain, soil and even of the excess of water in the laid mortar. In contact with the wall porous elements, brick and mortar, the water will facilitate the capillary percolation, giving berth to remarkable internal efforts, which will cause structural dislocation. These dislocations are, usually, different for the brick and for the mortar, so causing the cracks. The phenomena that cause the deformations were studied in a research by FRANÇA (2000), analyzed and quantified in laboratory, which validated the hypothesis that the sum of the capillary efforts caused by the dislocation of a fluid in a porous element can reach high values to a point that causes dislocations and consequently cracks in the structure. Therefore, the dislocation of the fluid through the channels existing among the particles of the porous element, processed in a form of a dislocating front of fluid, named velocity of percolation, needed to be visualized and mathematically treated. This work aimed, as the main objective, to trace the profile of the dislocation and give to the velocity of percolation a mathematical modeling based on the general equation of Navier-Stokes. It was necessary to search for knowledge of micro world of the labyrinths formed by pores among the sand, clay and cement particles. It became indispensable to measure, in an indirect way, the size of the pores and its relation with the size of the particles. / Doutor Escoamento. Porosidade. Structural deformations. eng
110	Phase transformations and deformation metallography in dilute uranium alloys Jenkins, Brent Allan January 1988 (has links) No description available. 669

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