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A Computer-Aided System for Melt Quality and Shrinkage Propensity Evaluation Based on the Solidification Process of Ductile Iron
The present work develops a new method for pre-evaluating melt quality of ductile irons and for predicting their metallurgical behavior

Effect of mould inoculation on the formation of chunky graphite in heavy-section spheroidal graphite cast iron parts
The manufacturing process of heavy section ductile iron castings is strongly influenced by the risk of graphite degeneration under slow

Safety cast components for the automotive industry. The metallic charge, the presence of micro elements and their most relevant effects
The Automotive Industry keeps on demanding increasing requirements to the cast components. The critical situation generated by the extraordinary price

Influence of moulding conditions and mould characteristics on the contraction defects appearance in ductile iron castings
Shrinkage defects appearance in cast iron has traditionally been related to the solidification processes of the metal and the feeding

Analysis of the solidification process of ductile iron
The interest about all the physical and chemical phenomena related with ductile iron solidification processes have increased due to the

Prediction of solid state structure based on eutectic and eutectoid transformation parameters in spheroidal graphite irons
The aim of the present work is to predict experimentally the structural trend of liquid iron based on its solidification

Inorganic materials applied in the manufacture of castings
Castings manufacturing techniques have been an art passed down from generation to generation until relatively few years ago. However, the

Magneto-structural studies and thermal analysis of the 4-aminopyridinium tetrabromocuprate(II) monohydrate
Dark violet crystals suitable for X-ray analysis of the complex (4-apyH)2[Cu-Br4] ∗d H2O, where 4-apyH+ is 4-aminopyridinium, were prepared by