Large-scale simulation of separation phenomena in solids such as fracture, branching, and fragmentation requires a scalable
data structure representation of the evolving model. Modeling of such phenomena can be successfully accomplished by means
of cohesive models of fracture, which are versatile and effective tools for computational analysis. A common approach to insert
cohesive elements in finite element meshes consists of adding discrete special interfaces (cohesive elements) between bulk
elements. The insertion of cohesive elements along bulk element interfaces for fragmentation simulation imposes changes in
the topology of the mesh. This paper presents a unified topology-based framework for supporting adaptive fragmentation simulations,
being able to handle two- and three-dimensional models, with finite elements of any order. We represent the finite element
model using a compact and “complete” topological data structure, which is capable of retrieving all adjacency relationships
needed for the simulation. Moreover, we introduce a new topology-based algorithm that systematically classifies fractured
facets (i.e., facets along which fracture has occurred). The algorithm follows a set of procedures that consistently perform
all the topological changes needed to update the model. The proposed topology-based framework is general and ensures that
the model representation remains always valid during fragmentation, even when very complex crack patterns are involved. The
framework correctness and efficiency are illustrated by arbitrary insertion of cohesive elements in various finite element
meshes of self-similar geometries, including both two- and three-dimensional models. These computational tests clearly show
linear scaling in time, which is a key feature of the present data-structure representation. The effectiveness of the proposed
approach is also demonstrated by dynamic fracture analysis through finite element simulations of actual engineering problems.
Redox and acid–base properties of thionine immobilized in crosslinked chitosan films are analyzed. The experimental conditions for the preparation of the films are described. Results obtained with cyclic voltammetry, spectroelectrochemistry and spectrophotometry indicate that the immobilized dye retains the redox and acid–base activity of free thionine. An acid dissociation constant (Ka) for the immobilized dye of Ka = 2.7 × 10−11 was obtained.
Due to the stable and reversible pH dependent optical signal of the studied film, this membrane can be used as a building component of an optical pH sensor. 相似文献
The investigation of possible failures in composite materials is a matter of very great importance, and the Tsai-Wu criterion is an effective criterion for analyzing those flaws in anisotropic materials and defining whether the material at a given load will or will not suffer structural failure. In this study, an optimization procedure is proposed to minimize the maximum value of Tsai-Wu of laminated composite tubes subject to axial loading. Artificial neural networks and genetic algorithms are chosen as optimization tools. The results of this study show that the developed algorithm converges faster. Then, the maximum Tsai-Wu value is used as the objective function and the fiber orientations are the constraints in the optimization process. The results yielded by them are compared and discussed. Optimal results are compared with respect to the usual initial design. The design approach is recommended for structures where composites are the key load-carrying members such as orthopedic prosthesis. 相似文献
This article proposes an approach for reconstructing physical parameters of a sample in a rectangular resonator during microwave radiation, knowing a priori, its electric field distribution. The inverse problem was solved using two global optimization algorithms and the peak signal-to-noise ratio (PSNR) criterion. First, the Self-regulated Fretwidth Harmony Search algorithm (SFHS) identified suitable resonant frequencies for a given configuration. Next, the unified Particle Swarm Optimization (UPSO) optimized said configuration. Together, they became a maximization strategy of the PSNR through a dual optimization process. Results showed the ability of the approach for estimating the height of each sample block and the resonating frequency of the cavity. This process takes longer to finish as a higher PSNR is demanded (mainly due to the aforementioned dual optimization). Even so, it allows for more similar electric field distributions between both, the direct and inverse problems. 相似文献
Carbon quantum dots (CQDs) have emerged as potential alternatives to classical metal-based semiconductor quantum dots (QDs) due to the abundance of their precursors, their ease of synthesis, high biocompatibility, low cost, and particularly their strong photoresponsiveness, tunability, and stability. Light is a versatile, tunable stimulus that can provide spatiotemporal control. Its interaction with CQDs elicits interesting responses such as wavelength-dependent optical emissions, charge/electron transfer, and heat generation, processes that are suitable for a range of photomediated bioapplications. The carbogenic core and surface characteristics of CQDs can be tuned through versatile engineering strategies to endow specific optical and physicochemical properties, while conjugation with specific moieties can enable the design of targeted probes. Fundamental approaches to tune the responses of CQDs to photo-interactions and the design of bionanoprobes are presented, which enable biomedical applications involving diagnostics and therapeutics. These strategies represent comprehensive platforms for engineering multifunctional probes for nanomedicine, and the design of QD probes with a range of metal-free and emerging 2D materials.
A new method for the analysis of both total and bound SO(2) in wine is proposed, based on a quartz crystal microbalance (QCM), and it is compared with the widely used Ripper method. The proposed method is faster than the Ripper's, and the instrumentation is either home-made or widely available. When both methods are applied to the same sample, the results obtained using the QCM method are bracketed in an interval less than one-tenth the size of that obtained using the Ripper method. Although the SO(2) concentrations found using the QCM method correlate well with the ones obtained with the Ripper method, the results are systematically higher, which can be explained as due to the absence of interferences known to affect the Ripper method. 相似文献
This paper presents three projects involving the design and fabrication of architectural structures through the use of different
parametric software and digital manufacturing methods. The first project is a flexible partition composed of interlocking
elements shaped using a laser-cutter. The second project is a university exhibition unit made with various wooden panels manufactured
through a computer numerical controlled (CNC) system. The third project is a system of metal sheets folded by digital machines
to create urban circulation spaces. The three works develop a parametric programming of geometry based on certain technical
factors, enabling the recognition of patterns of interaction between formal and constructive issues involved in the definition
of shapes through parametric controls. Differences in materials and processes are contrasted by similarities of function and
conditions involved, creating a system of local, global, productive and environmental parameters that produces a repertoire
of self-similar dimensions and variations as well as multiple possibilities of initial setups and final configurations. It
suggests a specific field of design exploration focusing on the development of differentiated components and variable architectural
configurations, in a kind of open parametric system. 相似文献
College students (n = 140) were examined to test whether sensation seeking and perceived stress would predict abuse of the Internet. Previous studies have found that disinhibition, boredom susceptibility, and total sensation seeking scores were related to Internet abuse ( 9 and 30). Because stress has been documented to have a negative effect on students ( Pierceall & Keim, 2007), and may be linked to Internet use ( Lavoie & Pychyl, 2001), it was tested as a possible predictor of Internet abuse. This study also analyzed abuse of the Internet for sexual purposes, because sexuality is prevalent online, and college students are in an age of sexual exploration. Results of stepwise regression analyses revealed that disinhibition and total perceived stress were predictive of Internet abuse for sexual purposes, and perceived hopelessness and boredom susceptibility were predictive of Internet abuse for non-sexual purposes. Implications for students and Internet abuse are discussed. 相似文献
The main objective of this paper is to relieve the power system engineers from the burden of the complex and time-consuming process of power system stabilizer (PSS) tuning. To achieve this goal, the paper proposes an automatic process for computerized tuning of PSSs, which is based on an iterative process that uses a linear matrix inequality (LMI) solver to find the PSS parameters. It is shown in the paper that PSS tuning can be written as a search problem over a non-convex feasible set. The proposed algorithm solves this feasibility problem using an iterative LMI approach and a suitable initial condition, corresponding to a PSS designed for nominal operating conditions only (which is a quite simple task, since the required phase compensation is uniquely defined). Some knowledge about the PSS tuning is also incorporated in the algorithm through the specification of bounds defining the allowable PSS parameters. The application of the proposed algorithm to a benchmark test system and the nonlinear simulation of the resulting closed-loop models demonstrate the efficiency of this algorithm. 相似文献
