146 research outputs found
Universality in dynamic wetting dominated by contact line friction
We report experiments on the rapid contact line motion present in the early
stages of capillary driven spreading of drops on dry solid substrates. The
spreading data fails to follow a conventional viscous or inertial scaling. By
integrating experiments and simulations, we quantify a contact line friction
(), which is seen to limit the speed of the rapid dynamic wetting. A
scaling based on this contact line friction is shown to yield a universal curve
for the evolution of the contact line radius as a function of time, for a range
of fluid viscosities, drop sizes and surface wettabilities
Roughness of moving elastic lines - crack and wetting fronts
We investigate propagating fronts in disordered media that belong to the
universality class of wetting contact lines and planar tensile crack fronts. We
derive from first principles their nonlinear equations of motion, using the
generalized Griffith criterion for crack fronts and three standard mobility
laws for contact lines. Then we study their roughness using the self-consistent
expansion. When neglecting the irreversibility of fracture and wetting
processes, we find a possible dynamic rough phase with a roughness exponent of
and a dynamic exponent of z=2. When including the irreversibility,
we conclude that the front propagation can become history dependent, and thus
we consider the value as a lower bound for the roughness exponent.
Interestingly, for propagating contact line in wetting, where irreversibility
is weaker than in fracture, the experimental results are close to 0.5, while
for fracture the reported values of 0.55--0.65 are higher.Comment: 15 pages, 6 figure
Hydrodynamic theory of de-wetting
A prototypical problem in the study of wetting phenomena is that of a solid
plunging into or being withdrawn from a liquid bath. In the latter, de-wetting
case, a critical speed exists above which a stationary contact line is no
longer sustainable and a liquid film is being deposited on the solid.
Demonstrating this behavior to be a hydrodynamic instability close to the
contact line, we provide the first theoretical explanation of a classical
prediction due to Derjaguin and Levi: instability occurs when the outer, static
meniscus approaches the shape corresponding to a perfectly wetting fluid
Asymptotic theory for a moving droplet driven by a wettability gradient
An asymptotic theory is developed for a moving drop driven by a wettability
gradient. We distinguish the mesoscale where an exact solution is known for the
properly simplified problem. This solution is matched at both -- the advancing
and the receding side -- to respective solutions of the problem on the
microscale. On the microscale the velocity of movement is used as the small
parameter of an asymptotic expansion. Matching gives the droplet shape,
velocity of movement as a function of the imposed wettability gradient and
droplet volume.Comment: 8 fig
Partial level density of the n-quasiparticle excitations in the nuclei of the 39< A <201 region
Level density and radiative strength functions are obtained from the analysis
of two-step cascades intensities following the thermal neutrons capture. The
data on level density are approximated by the sum of the partial level
densities corresponding to n quasiparticles excitation. The most probable
values of the collective enhancement factor of the level density are found
together with the thresholds of the next Cooper nucleons pair breaking. These
data allow one to calculate the level density of practically any nucleus in
given spin window in the framework of model concepts, taking into account all
known nuclear excitation types. The presence of an approximation results
discrepancy with theoretical statements specifies the necessity of rather
essentially developing the level density models. It also indicates the
possibilities to obtain the essentially new information on nucleon correlation
functions of the excited nucleus from the experiment.Comment: 29 pages, 8 figures, 2 table
The Research on the Heterogeneity of Carbon Plasma Flow of the Facility UVNIPA-1-001
The main goal of this research is to investigate the carbon plasma flow of facility UVNIPA-1-001, analyse its structure and consider the magnetic separation as a way to enhance the quality of vacuum ion-plasma deposition method of film coating
Front pinning in capillary filling of chemically coated channels
The dynamics of capillary filling in the presence of chemically coated
heterogeneous boundaries is investigated, both theoretically and numerically.
In particular, by mapping the equations of front motion onto the dynamics of a
dissipative driven oscillator, an analytical criterion for front pinning is
derived, under the condition of diluteness of the coating spots. The criterion
is tested against two dimensional Lattice Boltzmann simulations, and found to
provide satisfactory agreement as long as the width of the front interface
remains much thinner than the typical heterogeneity scale of the chemical
coating.Comment: 7 pages, 4 figures, submitted to Physical Review
Comparison of energy consumption in modern production technologies of steel
The main power expenses in a modern civilization are concentrated in production technologies of steel. Our civilization can not exist without steel and other metals. The data on power expenses by production of steel by various methods applied now are provided.Основные энергозатраты в современной цивилизации сосредоточены в технологиях производства стали. Без стали и других металлов наша цивилизация существовать не может. Приведены данные по энергозатратам при производстве стали различными методами, применяемые в настоящее время
Ecosystem and human health assessment to define environmental management strategies: The case of long-term human impacts on an Arctic lake
Abstract There are rich deposits of mineral and fossil natural resources in the Arctic, which make this region very attractive for extracting industries. Their operations have immediate and vast consequences for ecological systems, which are particularly vulnerable in this region. We are developing a management strategy for Arctic watersheds impacted by industrial production. The case study is Lake Imandra watershed (Murmansk oblast, Russia) that has exceptionally high levels of economic development and large numbers of people living there. We track the impacts of toxic pollution on ecosystem health and then -human health. Three periods are identified: (a) natural, pre-industrial state; (b) disturbed, under rapid economic development; and (c) partial recovery, during recent economic meltdown. The ecosystem is shown to transform into a qualitatively new state, which is still different from the original natural state, even after toxic loadings have substantially decreased. Fish disease where analyzed to produce and integral evaluation of ecosystem health. Accumulation of heavy metals in fish is correlated with etiology of many diseases. Dose-effect relationships are between integral water quality indices and ecosystem health indicators clearly demonstrates that existing water quality standards adopted in Russia are inadequate for Arctic regions. Health was also poor for people drinking water from the Lake. Transport of heavy metals from drinking water, into human organs, and their effect on liver and kidney diseases shows the close connection between ecosystem and human health. A management system is outlined that is based on feedback from indices of ecosystem and human health and control over economic production and/or the amount of toxic loading produced. We argue that prospects for implementation of such a system are quite bleak at this time, and that more likely we will see a continued depopulation of these Northern regions
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