The present study focuses on modelling, optimisation and experimental investigation into properties and microstructure of supersolidus liquid phase sintered Cu-28Zn brass from prealloyed powder. The experiments are designed using response surface methodology based on central composite rotatable design to evaluate the effect of process variables on liquid phase sintering of prealloyed brass powder. Three variables namely temperature, time and atmosphere were changed during sintering. The mathematical equations were derived to predict densification and impact energy using second order regression analysis. The optimum condition was predicted when the sintering variables were set at about 876uC, 43 min and N 2 atmosphere. Selecting optimum sintering parameters is an important factor for achieving improved properties and relatively homogeneous microstructure. Gravitational force has a detrimental influence on homogeneity which is reflected by a graded structure that is formed especially at higher sintering temperature and extended time. Also structural coarsening occurs at higher sintering temperatures and longer times. It is concluded that both gravitational effect and structural coarsening should be considered in manufacturing of Cu-28Zn alloy parts. Furthermore, a combination of modelling and experimental investigation provide a new concept for better understanding and analysing the sintering process of brass and related structures.
An investigation has been made to use response surface methodology and
central composite rotatable design for modeling and optimizing the effect of
sintering variables on densification of prealloyed Cu28Zn brass powder
during supersolidus liquid phase sintering. The mathematical equations were
derived to predict sintered density, densification parameter, porosity
percentage and volumetric change of samples using second order regression
analysis. As well as the adequacy of models was evaluated by analysis of
variance technique at 95% confidence level. Finally, the influence and
interaction of sintering variables, on achieving any desired properties was
demonstrated graphically in contour and three dimensional plots. In order to
better analyze the samples, microstructure evaluation was carried out. It
was concluded that response surface methodology based on central composite
rotatable design, is an economical way to obtain arbitrary information with
performing the fewest number of experiments in a short period of time.
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