1,075 research outputs found
Compression of thick laminated composite beams with initial impact-like damage
While the study of compression after impact of laminated composites has been under consideration for many years, the complexity of the damage initiated by low velocity impact has not lent itself to simple predictive models for compression strength. The damage modes due to non-penetrating, low velocity impact by large diameter objects can be simulated using quasi-static three-point bending. The resulting damage modes are less coupled and more easily characterized than actual impact damage modes. This study includes the compression testing of specimens with well documented initial damage states obtained from three-point bend testing. Compression strengths and failure modes were obtained for quasi-isotropic stacking sequences from 0.24 to 1.1 inches thick with both grouped and interspersed ply stacking. Initial damage prior to compression testing was divided into four classifications based on the type, extent, and location of the damage. These classifications are multiple through-thickness delaminations, isolated delamination, damage near the surface, and matrix cracks. Specimens from each classification were compared to specimens tested without initial damage in order to determine the effects of the initial damage on the final compression strength and failure modes. A finite element analysis was used to aid in the understanding and explanation of the experimental results
Fôropptak, produksjon og energiutnyttelse hos Norsk Rødt Fe (NRF) og Sidet Trønder og Nordlandsfe (STN) i rasjoner med og uten kraftfôr
Daglig opptak av surfôrtørrstoff, energi og protein var langt høgere hos NRF kyrne enn STN kyrne. NRF kyrne hadde også et påviselig høgere opptak av grovfôr og NDF enn STN kyrne uttrykt per 100 kg kroppsvekt.STN kyrne la mer på seg enn NRF kyrne, og kyrne som fikk kraftfôr la mer på seg enn kyr uten kraftfôr, men verken rase eller kraftfôrnivå hadde signifikant effekt på dyras vektendring. Det ble ikke påvist noen signifikante samspilleffekter mellom rase og
kraftfôrnivå på noen av opptaksparametrene.Som forventet produserte NRF kyrne mer mjølk og EKM enn STN kyrne, men
innholdet av fett og protein i mjølka var høgest hos STN kyrne. Daglig produksjon av fett og protein var imidlertid høgest hos NRF kyrne enn STN kyrne pga høgere mjølkeproduksjon. Hverken rase eller kraftfônivå viste signifikant forskjell på fôrutnytting, bruttoenergieffektivitet og partiell utnytting av fôrenergien til mjølkeproduksjo
BAKTRAK: Backtracking drifting objects using an iterative algorithm with a forward trajectory model
The task of determining the origin of a drifting object after it has been
located is highly complex due to the uncertainties in drift properties and
environmental forcing (wind, waves and surface currents). Usually the origin is
inferred by running a trajectory model (stochastic or deterministic) in
reverse. However, this approach has some severe drawbacks, most notably the
fact that many drifting objects go through nonlinear state changes underway
(e.g., evaporating oil or a capsizing lifeboat). This makes it difficult to
naively construct a reverse-time trajectory model which realistically predicts
the earliest possible time the object may have started drifting. We propose
instead a different approach where the original (forward) trajectory model is
kept unaltered while an iterative seeding and selection process allows us to
retain only those particles that end up within a certain time-space radius of
the observation. An iterative refinement process named BAKTRAK is employed
where those trajectories that do not make it to the goal are rejected and new
trajectories are spawned from successful trajectories. This allows the model to
be run in the forward direction to determine the point of origin of a drifting
object. The method is demonstrated using the Leeway stochastic trajectory model
for drifting objects due to its relative simplicity and the practical
importance of being able to identify the origin of drifting objects. However,
the methodology is general and even more applicable to oil drift trajectories,
drifting ships and hazardous material that exhibit non-linear state changes
such as evaporation, chemical weathering, capsizing or swamping. The
backtracking method is tested against the drift trajectory of a life raft and
is shown to predict closely the initial release position of the raft and its
subsequent trajectory.Comment: 28 pages, 8 figures, 2 table
Ocean wave tracing v.1: a numerical solver of the wave ray equations for ocean waves on variable currents at arbitrary depths
Lateral changes in the group velocity of waves propagating in oceanic or coastal waters cause a deflection in their propagation path. Such refractive effects can be computed given knowledge of the ambient current field and/or the bathymetry. We present an open-source module for solving the wave ray equations by means of numerical integration in Python v3. The solver is implemented for waves on variable currents and arbitrary depths following the Wentzel–Kramers–Brillouin (WKB) approximation. The ray tracing module is implemented in a class structure, and the output is verified against analytical solutions and tested for numerical convergence. The solver is accompanied by a set of ancillary functions such as retrieval of ambient conditions using OPeNDAP, transformation of geographical coordinates, and structuring of data using community standards. A number of use examples are also provided.</p
Assimilation of radar altimeter data in numerical wave models: an impact study in two different wave climate regions
An operational assimilation system incorporating significant wave height observations in high resolution numerical wave models is studied and evaluated. In particular, altimeter satellite data provided by the European Space Agency (ESA-ENVISAT) are assimilated in the wave model WAM which operates in two different wave climate areas: the Mediterranean Sea and the Indian Ocean. The first is a wind-sea dominated area while in the second, swell is the principal part of the sea state, a fact that seriously affects the performance of the assimilation scheme. A detailed study of the different impact is presented and the resulting forecasts are evaluated against available buoy and satellite observations. The corresponding results show a considerable improvement in wave forecasting for the Indian Ocean while in the Mediterranean Sea the assimilation impact is restricted to isolated areas
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