Sentence examples for shell solution from inspiring English sources

The shell solution is based on a layer-wise approach and the second order differential equations are solved using the redouble of variables and the exponential matrix method.

Thereafter, the proposed exact 3D shell solution is employed with confidence to provide results for one-layered and multilayered plates, cylinders, cylindrical shell panels and spherical shell panels.

It is seen for the case of a shell with one end pinned and the other end free that the buckling solution collapses to the long shell solution, for geometries of practical interest.

So, in the co-electrospinning, the shell solution acts as a protective layer and surrounds the core layer.

Electrohydrodynamic (EHD) co-casting Eu-containing shell solution (Solution I) and Fe-containing core solution (Solution II) was performed by using the coaxial needle.

These results verify that high-quality nanofibers could be produced as a result of the electrospinnability of the core fluid, regardless of the inability to create solid materials from the shell solution alone via a single-fluid electrospinning.

Numerical examples exhibit optimal rates of convergence for linear elasticity problems and convergence to thin elastic shell solutions.

Various HCNFs are synthesized using co-axial electrospinning of styrene-co-acrylonitrile (core) and poly acrylonitrile) (shell) solutions and subsequent thermal treatments.

Besides the obvious option of increasing segment thickness, an investigation is made into the technical and economic feasibility of double shell solutions as well as that of high performance or ultra-high performance concretes from the standpoints of structural engineering, TBM technology, process engineering, material technology and construction cost.

Initial optimization experiments were performed with shell solutions containing only PVP.

At the fixed electrospinning flow rate of core and shell solutions, the pulled out rate of both precursor solutions in the outward coaxial nozzle system might be much higher than those in the cases of normal and inward coaxial nozzle system, leading to a larger diameter of the nanofibers.