1,836 research outputs found
Computer Vision Based, Non-Contacting Deformation and Shape Measurements: A Revolution in Progress
The rapid expansion of computer technology in the past thirty years has impacted society in innumerable ways. Of interest for this discussion is the breath-taking change in measurement sciences that has occurred as the digital age dawned and has now become part of our daily lives. In particular, the effect on image-based, non-contacting measurements will be described and the continuing revolutionary impact that the resulting technology has engendered will be reviewed. Additionally, the unprecedented expansion of capabilities will be highlighted by presenting a set of illustrative example studies
Determination of high temperature strains using a PC based vision system
With the widespread availability of video digitizers and cheap personal computers, the use of computer vision as an experimental tool is becoming common place. These systems are being used to make a wide variety of measurements that range from simple surface characterization to velocity profiles. The Sub-Pixel Digital Image Correlation technique has been developed to measure full field displacement and gradients of the surface of an object subjected to a driving force. The technique has shown its utility by measuring the deformation and movement of objects that range from simple translation to fluid velocity profiles to crack tip deformation of solid rocket fuel. This technique has recently been improved and used to measure the surface displacement field of an object at high temperature. The development of a PC based Sub-Pixel Digital Image Correlation system has yielded an accurate and easy to use system for measuring surface displacements and gradients. Experiments have been performed to show the system is viable for measuring thermal strain
Dendritic Protein Synthesis, Synaptic Plasticity, and Memory
Considerable evidence suggests that the formation of long-term memories requires a critical period of new protein synthesis. Recently, the notion that some of these newly synthesized proteins originate through local translation in neuronal dendrites has gained some traction. Here, we review the experimental support for this idea and highlight some of the key questions outstanding in this area
Identification of viscoplastic parameters and characterization of Lüders behaviour using digital image correlation and the virtual fields method
In this study, tensile loading experiments are performed on notched steel bars at an average applied strain rate of 1s-1. Displacement fields are measured across the specimen by coupling digital image correlation (DIC) with imaging using high speed CCD cameras (4796 fps). Results from the experiments indicate the presence of local strain rates ranging from 0.1 to 10s-1 in the notched specimens. The heterogeneity of the strain rate fields provides suitable conditions for determining simultaneously all the elasto-visco-plastic constitutive parameters governing the material behavior. For that, the whole stress fields are reconstructed in the specimen using the full-field deformation measurements. This reconstruction is repeated with different constitutive parameters until the average stress in the specimen matches the one measured with the load cell response. Perzyna’s model is firstly considered for the reconstruction of stresses but it is shown to be unsuited for providing the drop in the average stress that is systematically detected at the onset of plasticity by the load cell. This drop is attributed to the sudden occurrence of plasticity in the material due to Lüders effect. A modified model for elasto-visco-plasticity taking account of Lüders behavior in the material is considered afterwards. It yields a better agreement between the reconstructed stresses and the load cell response, and a more accurate identification of the parameters driving the visco-plastic model. Eventually, it is shown how to use DIC measurements for replacing the load cell measurements when the transient effects in the test reach the resonance frequency of the load cel
Mechanical identification of layer-specific properties of mouse carotid arteries using 3D-DIC and a hyperelastic anisotropic constitutive model
The role of mechanics is known to be of primary order in many arterial
diseases; however, determining mechanical properties of arteries remains a
challenge. This paper discusses the identifiability of the passive mechanical
properties of a mouse carotid artery, taking into account the orientation of
collagen fibres in the medial and adventitial layers. On the basis of 3D
digital image correlation measurements of the surface strain during an
inflation/extension test, an inverse identification method is set up. It
involves a 3D finite element mechanical model of the mechanical test and an
optimisation algorithm. A two-layer constitutive model derived from the
Holzapfel model is used, with five and then seven parameters. The
five-parameter model is successfully identified providing layer-specific fibre
angles. The seven-parameter model is over parameterised, yet it is shown that
additional data from a simple tension test make the identification of refined
layer-specific data reliable.Comment: PB-CMBBE-15.pd
Understanding how Characteristics of the Nest Site Affect Nest Success of Wild Turkeys
Wild turkeys (Meleagris gallapavo) are a highly-desirable game species throughout the United States, but harvest records in the northern Black Hills, South Dakota suggest that this population is declining. We wondered whether vegetation characteristics at the nest site would affect nest fate (success/failure). We monitored 40 nests during summer 2016 to determine nest fate and 27 were successful (?1 egg hatched). At the actual or expected hatch date, we quantified characteristics of the understory vegetation at the nest bowl, namely total cover, shrub cover, woody debris, and the degree of visual obstruction. We compared these characteristics between successful and unsuccessful nests. Successful nests had slightly less woody debris and total cover than unsuccessful nests. We did not detect differences in shrub cover or the degree of visual obstruction. Our results suggest that there may be some optimal amount of total cover and woody debris at the nest bowl that contributes to a higher chance of nest success. We recommend additional research that focuses on how vegetation characteristics found at nest sites compares to what is available. This information in conjunction with our findings could provide guidance for managers regarding vegetation characteristics that may be optimal for nest success. Although these data may help manage turkey populations, nesting represents only one part of the life cycle of a wild turkey. We recommend that managers strive for a mosaic of vegetation characteristics to accommodate the needs of turkey populations throughout their life history
Regulation of Dendritic Protein Synthesis by Miniature Synaptic Events
We examined dendritic protein synthesis after a prolonged blockade of action potentials alone and after a blockade of both action potentials and miniature excitatory synaptic events (minis). Relative to controls, dendrites exposed to a prolonged blockade of action potentials showed diminished protein synthesis. Dendrites in which both action potentials and minis were blocked showed enhanced protein synthesis, suggesting that minis inhibit dendritic translation. When minis were acutely blocked or stimulated, an immediate increase or decrease, respectively, in dendritic translation was observed. Taken together, these results reveal a role for miniature synaptic events in the acute regulation of dendritic protein synthesis in neurons
Alleviation of Brain Injury-Induced Cerebral Metabolic Depression by Amphetamine: A Cytochrome Oxidase Histochemistry Study
Measurements of oxidative metabolic
capacity following the ablation of rat sensorimotor
cortex and ,he administration of amphetamine
were examined to determine their
effects on the metabolic dysfunction that
follows brain injury. Twenty-four hours after
surgery, rats sustaining either sham operations
or unilateral cortical ablation were administered
a single injection of D-amphetamine (2 mg/kg;
i.p.) or saline and then sacrificed 24 h later.
Brain tissue was processed for cytochrome
oxidase histochemistry, and 12 bilateral cerebral
areas were measured, using optical density as
an index of the relative amounts of the
enzyme. Compared with that of the control
groups, cytochrome oxidase in the injured
animals was significantly reduced throughout
the cerebral cortex and in 5 of II subcortical
structures. This injury-induced depression of
oxidative capacity was most pronounced in
regions of the hemisphere ipsilateral to the
ablation. Animals given D-amphetamine had less depression of oxidative capacity, which
was most pronounced bilaterally in the cerebral
cortex, red nucleus, and superior colliculus;
and in the nucleus accumbens, caudateputamen,
and globus pallidus ipsilaterai to the
ablation. The ability of D-amphetamine to
alleviate depressed cerebral oxidative metabolism
following cortical injury may be one mechanism
by which drugs increasing noradrenaline
release accelerate functional recovery in both
animals and humans
A Mixed-Mode I/II Fracture Criterion and Its Application in Crack Growth Predictions
A crack tip opening displacement (CTOD)-based, mixed mode fracture criterion is developed for predicting the onset and direction of crack growth. The criterion postulates that crack growth occurs in either the Mode I or Mode II direction, depending on whether the maximum in either the opening or the shear component of CTOD, measured at a specified distance behind the crack tip, attains a critical value. For crack growth direction prediction, the proposed CTOD criterion is shown to be equivalent to seven commonly used crack growth criteria under linearly elastic and asymptotic conditions. Under elastic-plastic conditions the CTOD criterion's prediction of the dependence of the crack growth direction on the crack-up mode mixity is in excellent agreement with the Arcan test results. Furthermore, the CTOD criterion correctly predicts the existence of a crack growth transition from mode I to mode II as the mode mixity approaches the mode II loading condition. The proposed CTOD criterion has been implemented in finite element crack growth simulation codes Z1P2DL and FRANC2DL to predict the crack growth paths in (a) a modified Arcan test specimen and fixture made of AL 2024-T34 and (b) a double cantilever beam (DCB) specimen made of AL 7050. A series of crack growth simulations have been carried out for the crack growth tests in the Arcan and DCB specimens and the results further demonstrate the applicability of the mixed mode CTOD fracture criterion crack growth predictions and residual strength analyses for airframe materials
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