Mechanics

Research and Development of Bidimentional Mathematical Models of Pulsing Detonation Engines for Perspective Flying Devices

In the present paper the design procedure of parameters and performances of the pulsing detonation engine with a diffuser and the ejector on different conditions and stages of its operation develops. Construction of numerical methods of a solution of a commitment by definition parameters of flow of yields of a knocking and air to the detonation engine in different instants is carried on. Determining of a general pulse of the detonation engine with a diffuser and the ejector for one clock tick of operation.

Estimation of Structure and Parameters of the Atmospheric Air Pollution Monitoring Observant Network

The estimation procedure of existing structure and parameters of the observant network on basis of results of the imitating model with use of diffusion mathematical model of impurity carrying in view of restrictions is given.

On Modelling of the Human Skin

The mechanical properties of the skin at small and finite deformations are investigated. The models are suggested approximating viscoelastic properties of the skin. The constitutive relations for three-dimensional stress-strain state are developed. Models parameters are determined by experiments in uniaxial tension of the skin specimens.

The Formulation of the Mathematical Model Deep-Water of the Oil Raiser, Interacting with Internal Flow of Gas-Liquid Mixture

A new mathematical model for calculating the characteristics of a stress-deformated state of a deepwater raiser that interacts with an inner two-phase stream of the gas-liquid mixture, is formulated. The singular-disturbance type problem of nonlinear hydroelasticity is being solved.

The Equations of Continuousness in Bidimentional Models of Filtration Liquid and Gas in the Bent Layers of Final Thickness

The finding of equation of continuousness for construction a bidimentional models of filtration a compressed liquid in the bent layers of final thickness is given, the porous environment in which can show sorb properties. As the special case is given the equation of continuousness for filtration of a compressed liquid in rather thin bent layers with sorbing and nonsorbing porous environment.

Movement of a Firm Body With a Liquid of Small Viscosity

On the basis of the approach F.L. Tchernousko the equations in the integro-differential form of spatial movement of a body with a cavity wholly filled liquid of small viscosity are received. For a special case of movement the integro-differential equation is shown to ordinary differential, and with the help of a method of averaging the approached analytical decision is received. The examples showing accuracy of the received decision and influence of parameters of system on its movement are given.