998 resultados para Bruckner, Johann Jakob, 1696-1770.
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Mode of access: Internet.
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O estilo de época Sturm und Drang, o primeiro movimento literário genuinamente alemão, surgido na segunda metade do século XVIII, possibilitou a emancipação literária da Alemanha e introduziu naquele país o conceito de gênio original. A partir da descoberta da obra do gênio inglês Shakespeare (possibilitada pelas traduções de Christoph Martin Wieland), os alemães se depararam com o modelo de revolução literária que necessitavam para instituir as bases da originalidade literária alemã. Pautando-se na estrutura dramática shakespeariana, Johann Wolfgang von Goethe e Friedrich Schiller elaboraram seus dramas de estreia, obras foco da presente pesquisa: Götz von Berlichingen e Os bandoleiros, respectivamente. O presente estudo propõe-se, por conseguinte, a analisar as obras supracitadas à luz da temática do gênio original. Mas, primeiramente, são observados os fatores (como a ascenção do romance inglês) e escritores (como Gothold Ephraim Lessing, Johann Jakob Bodmer, Johann Jakob Breitinger, Friedrich Gottlieb Klopstock, Johann Joachim Winckelmann, Wieland e Johann Gottfried von Herder) que colaboraram para a instituição da era genial na Alemanha
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Cranach (Lucas). Passional, cité
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Durand (Jean). Album amicorum (1583-1592)
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Este libro escrito junto al explorador y naturalista suizo Johann Jakob von Tschudi (Juan Diego de Tshudi) es la obra de difusión más conocida de Rivero y Ustáriz, tanto por sus bellas ilustraciones como por su importancia en la historia de la arqueología peruana y latinoamericana. La obra incluye cinco láminas de la estatuaria del macizo Colombiano, conocida actualmente como "San Agustín".
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Prevention and treatment of osteoporosis rely on understanding of the micromechanical behaviour of bone and its influence on fracture toughness and cell-mediated adaptation processes. Postyield properties may be assessed by nonlinear finite element simulations of nanoindentation using elastoplastic and damage models. This computational study aims at determining the influence of yield surface shape and damage on the depth-dependent response of bone to nanoindentation using spherical and conical tips. Yield surface shape and damage were shown to have a major impact on the indentation curves. Their influence on indentation modulus, hardness, their ratio as well as the elastic-to-total work ratio is well described by multilinear regressions for both tip shapes. For conical tips, indentation depth was not statistically significant (p<0.0001). For spherical tips, damage was not a significant parameter (p<0.0001). The gained knowledge can be used for developing an inverse method for identification of postelastic properties of bone from nanoindentation.
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Tissue grafts are implanted in orthopedic surgery every day. In order to minimize infection risk, bone allografts are often delipidated with supercritical CO2 and sterilized prior to implantation. This treatment may, however, impair the mechanical behavior of the bone graft tissue. The goal of this study was to determine clinically relevant mechanical properties of treated/sterilized human trabecular bone grafts, e.g. the apparent modulus, strength, and the ability to absorb energy during compaction. They were compared with results of identical experiments performed previously on untreated/fresh frozen human trabecular bone from the same anatomical site (Charlebois, 2008). We tested the hypothesis that the morphology–mechanical property relationships of treated cancellous allografts are similar to those of fresh untreated bone. The morphology of the allografts was determined by μCT. Subsequently, cylindrical samples were tested in unconfined and confined compression. To account for various morphologies, the experimental data was fitted to phenomenological mechanical models for elasticity, strength, and dissipated energy density based on bone volume fraction (BV/TV) and the fabric tensor determined by MIL. The treatment/sterilization process does not appear to influence bone graft stiffness. However, strength and energy dissipation of the bone grafts were found to be significantly reduced by 36% to 47% and 66% to 81%, respectively, for a broad range of volume fraction (0.14 < BV/TV < 0.39) and degree of anisotropy (1.24 < DA < 2.18). Since the latter properties are strongly dominated by BV/TV, the clinical consequences of this reduction can be compensated by using grafts with lower porosity. The data of this study suggests that an increase of 5–10% in BV/TV is sufficient to compensate for the reduced post-yield mechanical properties of treated/sterilized bone in monotonic compression. In applications where graft stiffness needs to be matched and strength is not a concern, treated allograft with the same BV/TV as an appropriate fresh bone graft may be used.
