Tool steels

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Tool steels

Author : Robert LÉVÊQUE

Publication date: March 10, 2013, Review date: November 25, 2020 | Lire en français

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Overview

ABSTRACT

Given their chemical composition, with high carbon and alloy contents, tool steels are essentially developed as ingots using electrical energy and consumable electrode refusion techniques. Powder metallurgy has also made great strides in producing high wear-resistant tools for cutting and cold working. The detrimental influence of residual elements on wear properties of tool steels has led to greater use of increasingly specialized development processes, such as vacuum of slag refusion.

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AUTHOR

  • Robert LÉVÊQUE : Mining engineer - Honorary Chairman, Cercle d'Études des Métaux - École Nationale Supérieure des Mines de Saint-Étienne

 INTRODUCTION

Given their chemical composition, with high carbon and alloying element contents, tool steels are mainly produced by the electrical industry, using ingot and consumable electrode remelting techniques. A significant proportion of grades are produced by powder metallurgy.

In fact, continuous casting is only practised for certain categories of steel that are close to mechanical engineering steels (silicon manganese steels, 102Cr6 bearing steels). Continuous casting trials for high-speed steels and alloyed tool steels were carried out in the 1960s and 1980s respectively, but were abandoned for reasons of cost and industrial reliability, despite some technical successes (e.g. high-speed steel milling cutters where the central part was eliminated by machining).

The detrimental influence of residual elements on the service properties of tool steels has led to the increasing use of special manufacturing processes such as vacuum or slag remelting. Prealloyed powder metallurgy was also introduced in this class of materials, notably high-speed steels and alloyed cold-work tool steels, in the early 1970s, with the joint development of hot isostatic compaction and hydrostatic extrusion.

The combined techniques of multidirectional forging and high-temperature annealing have enabled us to reduce the segregation rates of alloying elements in forged parts, with good isotropy of mechanical characteristics, aided by the use of numerical hot deformation calculation codes.

For further details on this subject, please consult the bibliographical references presented in the documentation section of this article.

Nota

this article completes a series devoted to tool steels:

  • Chemical composition and structure [M 4 585] ;

  • Implementation [M 4 587] ;

  • Classification and evolution [M 4 588]...

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Tool steels

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"Studies and properties of metals"

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