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1

A study of MHD fluid with second order slip and thermal flow over a nonlinear stretching sheet

Jauhri Shefali, Mishra Upendra

International Journal of Applied Mechanics and Engineering

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2022

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Vol. 27, no. 2

98--114

EN

An electrically conducted viscous incompressible nanofluid flow caused by the nonlinear stretching surface with stagnation flow has been investigated numerically. The effect of Brownian motion and thermophoresis on the nanofluid is also incorporated. The governing partial differential equations with nonlinear second order boundary conditions are solved by the fourth order Runge-Kutta technique using MATLAB programming. The effect of the radiation parameter (Rd), stretching parameter (n), Brownian motion parameter (Nb), thermophoresis parameter (Nt) on temperature, velocity and mass transfer are shown graphically. The influence of some of these parameters on the local Nusselt number (−𝜃′(0)) and local Sherwood number (−𝜙′(0)) are shown by the graphs.

2

Needle type GMR sensor in biomedical applications

Kurnicki A.

Przegląd Elektrotechniczny

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2013

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R. 89, nr 3b

297--299

EN

This paper presents two biomedical applications in which a needle-type GMR sensor with spin valve was proposed to estimate magnetic fluid weight density inside large tumors and to detect magnetic field generated by low current signals in medicine. First application is hyperthermia therapy, a form of cancer treatment. In second application GMR needle-type sensor was used for measurement of magnetic field generated by nervous systems.

PL

Artykuł prezentuje dwie propozycje zastosowania czujnika GMR z zaworem spinowym: do estymacji ciężaru właściwego płynu magnetycznego doprowadzanego do komórek nowotworowych oraz do pomiaru pola magnetycznego generowanego przez przepływ prądu o małym natężeniu, zachodzący w zjawiskach medycznych. Pierwsza aplikacja dotyczy leczenia nowotworów metodą hipertermiczną. Druga aplikacja jest związana z pomiarem pól magnetycznych generowanych przez układ nerwowy.

3

Numerical simulation of anisotropic particles behavior in magnetic fluids

Barski M., Chwał M., Kędziora P.

Przetwórstwo Tworzyw

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2012

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[R.] 18, nr 3

127-130

EN

The magnetic fluids consist of ferromagnetic particles immersed in a carried fluid. Under external magnetic field, these particles formulate the cluster structures inside the carried fluid. Usually, the isotropy of the magnetic permeability is assumed. As the result of computational simulation, the single, isolated thin chains of the particles are obtained. In the present work the influence of the local anisotropy of magnetic permeability on the final distribution of particles is discussed. Now the pattern of particles is more irregular and for the sufficient large value of volume fraction the clusters of particles can be observed. The Molecular Dynamic methods are applied. In order to describe the anisotropic properties of the effective magnetic permeability the matrix with dimension 3x3 is introduced. The values of the elements of the mentioned matrix are evaluated with aid of the numerical homogenization method. Further, the theoretical model of magnetic fluid, physical interactions acting on each particle taken under consideration and equation of motion is formulated.

PL

Płyn magnetyczny jest to zawiesina ferromagnetycznych cząstek w płynie nośnym. Pod wpływem zewnętrznego pola magnetycznego cząstki te formułują regularne struktury przypominające łańcuchy. W większości prac zakładana jest izotropia własności magnetycznych w otoczeniu pojedynczej cząstki. Jako rezultat symulacji uzyskać można proste, regularne łańcuchy cząstek. W obecnej pracy rozważano wpływ lokalnej anizotropii własności magnetycznych na ostateczny kształt struktury wewnętrznej. Obecnie wynik symulacji jest jakościowo inny. Struktury są nieregularne przez co bardziej przypominają te, jakie zaobserwować można w praktyce. Wykorzystano metodę dynamiki molekularnej. Do opisu anizotropii wykorzystano macierz współczynników, których wartości wyznaczono w oparciu o wyniki dokonanej wcześniej homogenizacji numerycznej. Przedstawiono również teoretyczny model cieczy magnetycznej oraz podstawowe rodzaje uwzględnionych oddziaływań.

4

Magnetic fluid pressure on fingering phenomenon through homogeneous porous media

Shah R. C.

International Journal of Applied Mechanics and Engineering

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2004

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Vol. 9, no 3

613-618

EN

This paper studied theoretically the net effect of pressure and the consequences arising due to the addition of a layer of a magnetic fluid to the fingering phenomenon through homogeneous porous media by comparing the model with the conventional one.

5

Magnetic fluid based squeze film behaviour between rotating porous circular plates with a concentric circular pocket and surface roughness effects

Patel R. M., Deheri G. M.

International Journal of Applied Mechanics and Engineering

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2003

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Vol. 8, no 2

271-277

EN

Efforts have been made to analyze the magnetic fluid based squeeze film between rotating porous circular plates with a concentric pocket. The porous housing is considered to be elastically negligibly deformable with its contact surface rough. The stochastic film thickness characterizing the roughness is considered to be asymmetric with zero mean and non-zero variance. The modified Reynolds' equation is solved in order to get pressure distribution which in turn, is used to obtain the expression for load carrying capacity. Then by making use of this expression we find the response time. These expressions are numerically computed and the results are presented graphically as well as in a tabular form. It is observed that the presence of pocket and the roughness of the surfaces affect the performance of the bearing adversely. However, the performance of the bearing gets enhanced due to negatively skewed roughness and the magnetic fluid.

6

Magnetic fluid based porous inclined slider bering with velocity slip

Shah R. C., Bhat R.

International Journal of Applied Mechanics and Engineering

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2003

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Vol. 8, no 2

331-336

EN

A theoretical study was made of a porous inclined slider with a magnetic fluid as lubricant considering velocity slip. Expressions were obtained for pressure, load capacity, friction on the moving slider, the coefficient of friction and the position of the centre of pressure. Computed values showed that load capacity and friction decreased when the slip parameter increased. The coefficient of friction attains an optimum for a certain value of the slip parameter which affects a little the position of the centre of pressure.