‘Movement’ in Architecture can mean different things, and the idea of ‘expressed movement’ has, alone, been variously conceived. This article attempts to distinguish between these notions and propose a taxonomy. Two general categories are defined: ‘contained movement’, where it is not the architecture that is thought of as moving, but the eye, mind, imagined body or forces; and ‘represented movement’, where there is an implication or illusion that the architecture is in motion. It is argued that different kinds of movement often work together. These ideas are illustrated and situated through a brief historiographical survey, first outlining the tradition of discussing expressed movement in western architecture, then extending to writings on the arts and architecture of India. An analysis of movement in Indian temple architecture is put forward in order to demonstrate how an interpretation of a particular kind of architecture in terms of specific movement patterns can be substantiated, primarily by communicating these patterns unambiguously through visual means. Finally, current thinking about architectural movement is touched upon. It is suggested that openness to the diversity of conceptions of how movement is expressed may both sharpen the analysis of architecture and extend the possibilities for its creation. 相似文献
This paper proposes a Pendulum-Based Cutting Test (PBCT) methodology which allows quick cutting tests for surface integrity evaluation along with providing cutting energies associated with particular level of workpiece surface damage, this is backed by an unified cutting energy model that links damage level of machined surface with energy partition in the cutting area. PBCT method could rapidly define the energy transferred to the workpiece that incurs particular magnitude of surface damage without using conventional machine tools and monitor the cutting process while only limited amount of materials is required. A demonstration of the proposed method is presented for Inconel718. 相似文献
A correlative approach is employed to simultaneously assess structure and chemistry of (carbide and boride) precipitates in a set of novel Co/Ni-base superalloys. Structure is derived from electron backscatter diffraction (EBSD) with pattern template matching, and chemistry obtained with energy dispersive X-ray spectroscopy (EDS). It is found that the principal carbide in these alloys is Mo and W rich with the M6C structure. An M2B boride also exhibiting Mo and W segregation is observed at B levels above approximately 0.085 at. pct. These phases are challenging to distinguish in an SEM with chemical information (EDS or backscatter Z-contrast) alone, without the structural information provided by EBSD. Only correlative chemical and structural fingerprinting is necessary and sufficient to fully define a phase. The identified phases are dissimilar to those predicted using ThermoCalc. We additionally perform an assessment of the grain boundary serratability in these alloys, and observe that significant amplitude is only obtained in the absence of pinning intergranular precipitates.
The effect of grain boundary (GB) morphology on the cavitation behavior in a Ni-based superalloy, RR1000, was studied during elevated temperature dwell-fatigue at 700 °C. Following a solution heat treatment, the material was control cooled at two different rates, resulting in high angle GB morphologies that were tailored as either serrated or planar. The resulting γ′ precipitate structures were characterized near GBs and within grains. Along serrated GBs coarsened and elongated γ′ precipitates formed and consequently created adjacent regions that were denuded of γ′ precipitates. Cyclic dwell-fatigue experiments were performed at low and high stress amplitudes to vary the amount of imparted strain on the specimens. A combination of electron backscatter diffraction and digital image correlation were used to resolve strain localization relative to the GBs, in which strain accumulation was found to precede cavity formation. Additionally, the regions denuded of the γ′ precipitates were observed to localize strain and to be initial sites of cavitation. These results present a quantitative strain analysis between two variants of an RR1000 alloy, which provides the micromechanical rationale to assess the increased proclivity for serrated GBs to form cavities.
The nucleotide sequence of the cytochrome oxidase subunit 2 (cox2) and val-tRNA genes and surrounding regions from Kluyveromyces lactis mitochondrial DNA is reported. Analysis of the coding region shows that the codons CUN (Thr), CGN (Arg) and AUA (Met) are absent in this gene. A single sequence, ATATAAGTAA, identical to the baker's yeast mtRNA polymerase recognition site, was detected upstream of val-tRNA. This sequence is absent from regions between val-tRNA-cox2 and cox2-cox1. In addition a sequence AATAATATTCTT, identical to the mRNA processing site in other yeast mitochondrial genomes is present 32-43 bp downstream to the TAA stop codon for the cox2 gene. Another short conserved sequence of 5 bp, TCTAA, is present upstream of the coding regions of cox2 genes in several yeasts, including K. lactis, but is not present upstream of other genes. Comparison of cox2 sequences from other organisms indicates that the mitochondrial DNA of K. lactis is closely related to that of Saccharomyces cerevisiae. 相似文献
The results of an analysis of second-order gratings used as distributed Bragg reflectors in surface-emitting lasers are presented. The gratings provide reflection, output coupling, and power transmission to other gain segments for purposes of injection locking. The analysis determines these quantities for arbitrary-shaped grating teeth and includes the presence of a substrate reflector to reduce the radiated power in that direction. The reflector is shown to be effective, but only if it can be precisely positioned. Examples illustrating variations in dimensions, tooth shapes and heights, waveguide loss, and detuning are included. Second-order, square gratings, whose conventional coupling coefficient is identically zero, exhibit substantial reflectivity which is primarily produced by the radiation reaction. The analysis also forms the basis for calculating the far-field grating coupled radiation patterns 相似文献
ABSTRACT Instability problems in both shale and petroleum derived middle distillate jet fuels have been correlated with the presence of peroxidic species. Although a good body of knowledge exists concerning the formation of peroxides in the liquid phase, relatively little is known about the reaction/ decomposition pathways available when other functional groups are present, since sulfur is the most abundant heteroatam present in jet fuels, the reaction of t-butyl hydroperoxide (tBKP) and/or oxygen with thiophenol in the presence of the active olefin, styrene, was examined in deaerated benzene at 120°C. The complex product mixture was analyzed by combined capillary column GC/MS. Major products included acetone, t-butanol and isdbutylene from the tBHP. Thiophenol and styrene combined to form addition products. Phenyl disulfide was observed from the thiophenol. The results indicated that although the product slate was complex, it was possible to explain the product mix in terms of a few competing reactions. 相似文献
The optimization of the hydrogen loading process in a multi-tubular sodium alanate hydride reactor equipped with longitudinal fins is investigated numerically. The effect of the number, thickness and tip clearance of the fins on the hydrogen charging rate is assessed, so that the fin optimal geometric properties are determined by the compromise between the hydrogen loading rate and the fin contribution to the weight and the volume of the storage system. Simulation results have shown that the hydrogen loading rate corresponding to this optimized configuration is 41% greater than the case without fins if we suppose a perfect interconnectivity between the fin tips and the internal walls of the hydride tubes. Otherwise, the amount of stored hydrogen decreases drastically. The loading of hydrogen under high charging pressures results in higher hydrogen loading rates and there is an interaction between the geometric and operating parameters leading to the optimized amount of stored hydrogen. 相似文献
