Overview
ABSTRACT
The article presents all the metallurgical operations by which liquid iron can be obtained for the casting of iron parts, and the different operations necessary for the preparation of liquid alloy, in quantity and quality, to fill the molds prepared on casting sites. These different casting sites require different workflows, which justify the use of different means of melting. The choice of these means of melting, optimization of metal loads and the treatment of liquid iron can minimize the cost of producing the liquid metal. The production of cast iron with lamellar graphite and spheroidal graphite are described along with the workshop inspections that ensure the quality of these materials.
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Read the articleAUTHOR
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Alex RÉMY: Arts et Métiers engineer - Professor - École Nationale Supérieure d'Arts et Métiers, Paris, France
INTRODUCTION
Casting begins with the choice of the basic chemical composition. This composition determines the raw materials to be used in the melting process, the treatment of the cast iron in its liquid state, and the determination of loss or gain on ignition. As a general rule, the specifications of the cast part to be supplied are characterized by the mechanical and physical properties of the material used to manufacture it. These characteristics depend on both the final chemical composition and the microstructure of the cast iron. This microstructure is largely influenced by cooling rates during solidification and in the solid state, and by the material's treatments in the liquid state. It is up to the melter to choose the initial basic chemical composition and the melting media to be used to meet the specifications. The choice of melting means used also depends on the flow of liquid alloy to be supplied to the casting site, and on its flexibility.
Some of the required characteristics can only be achieved by using high alloying element contents. For special cast irons, alloying element contents are governed by standards; in SNCF brake shoes, for example, phosphorus content is tightly specified for lamellar graphite cast iron.
Workshop controls are set up to predict the microstructure and composition of the cast iron in order to optimize the cost of production and to intervene by treating the cast iron in its liquid state. These pre-casting controls help avoid rejects due to non-conformity of chemical composition or microstructure.
The article describes all the metallurgical operations involved in obtaining a liquid cast iron suitable for casting, and the various operations required to prepare the liquid alloy, in terms of quantity and quality, to fill the molds prepared on the casting sites.
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Thermal analysis equipment for foundries is marketed by :
Novacast with the ATAS software for Adaptative Thermal Analysis System (in which an expert system is used to interpret the curves). Novacast is one of the pioneers of thermal analysis;
Foseco-Vesuvius and ProserviceSrl for ITACA 8 (Thermal analysis Software) ;
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Websites
Fontes Moulées Information Center :
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Association Technique de Fonderie :
...Standards and norms
- Classification du graphite par analyse visuelle - Norme NF EN ISO 945-1 - (mai 2009) :
- Classification and designation of pig iron – Symbolic and numerical designations - Norme NF EN 10001 : -
- Foundry – Cast iron designation systems - Norme NF EN 1560 - (avril 2011) :
- Foundry – Flake-graphite cast irons - Norme NF EN 1561 - (décembre 2011) :
- Foundry – Malleable cast iron - Norme NF EN 1562...
Patents
Desulfurizing agent for cast iron, consisting of calcium carbide and organic binder (EP 0511121 A1).
Product for desulfurizing cast irons and steels (EP 0029038 B1)
Anti-micro-retassure inoculant alloy for treatment of cast irons (EP 1499750 A2).
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Foseco SAS, 77437 Marne La Vallée, France
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