The first part of the project is the development of a reliable creep model for steel and aluminium that will exist both in an analytical form and in the form of a rheological model. The modern European structural codes (Eurocode) treat existence of creep strain implicitly, using a modified material behaviour model, which has proven inadequate according to very recent research for all of possible heating scenarios. The purpose of the project is to develop new creep models applicable to new types of steel and aluminium alloys and to conduct the analysis of the influence of creep strain on the behaviour of stee l and aluminium columns. Number, and Eckert number are stable at the point of convergence. Observed that several parameters such as Casson fluid parameter, radiation parameter, Prandtl
Velocity profile of the Casson fluid flow is directly related to several parameters. With higher values of the magnetic field as well as the radiation. After simulation, it is found that the heat transfer rate decreases Technique is used for finding the solutions and results are presented in the form of tables and Ordinary differential equations by using similarity transformations.
Mathematical model as a platform non-linier differential equation have been reduced to
By considering governing equations of the An explicit Finite difference method is appliedįor the solution of governing equations. In this paper, the behavior of the non-Newtonian fluid and heat transfer is considered in anĮxponentially stretching surface in the occurrence of porous magnetic field, as it has vastĪpplications in the field of several industries. EFFECT OF SOLAR THERMAL RADIATION AND MAGNETIC FIELD ON THE FLOW OF CASSON FLUID
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