Modelling of extrusion force using the surface response method

Computational modelling of both the plane strain and the axisymmetric extrusion of lead with the PHOENICS package is reported. Initial work treated the flow of metal as the flow of a highly viscous Newtonian fluid (the mean viscosity method) but this tended to grossly over-predict the extrusion pres

## Abstract Optimization of __Nannochloropsis oculata__ growth was undertaken using the response surface method. A central composite design was defined to study the effects of temperature, pH, incident light intensity and aeration rate on the maximum growth rate of the microalga. Using statistical

A Response Surface Methodology approach to correlate the solubility data of solids in supercritical ¯uids directly to the pressure and temperature is described. Published data for 2,6dimethylnaphthalene, 2,3-dimethylnaphthalene, phenanthrene and benzoic acid in both supercritical carbon dioxide and

The most popular numerical method used for simulating aluminum alloy extrusion process is finite element method (FEM). But aluminum alloy profile extrusion process is a metal forming process with severe and large plastic deformation. If finite element method is used to simulate aluminum profile extr