The influence of microstructure and mechanical properties on the machinability of martensitic and bainitic prehardened mould steels-Reference-Cited by-同舟云学术

The influence of microstructure and mechanical properties on the machinability of martensitic and bainitic prehardened mould steels

Published:2013-03-26 Issue:8 Volume:104 Page:748-761
ISSN:2195-8556
Container-title:International Journal of Materials Research
language:en
Short-container-title:

Author:

Hoseiny Hamed¹²,Högman Berne¹,Andrén Hans-Olof³,Klement Uta⁴,Ståhl Jan-Eric⁵,Thuvander Anders¹

Affiliation:

1. Uddeholms AB, Research and Development, Hagfors, Sweden

2. Current affiliation: Department of Corrosion Research, Research Institute of Petroleum Industry (RIPI), Tehran, Iran

3. Chalmers University of Technology, Department of Applied Physics, Göteborg, Sweden

4. Chalmers University of Technology, Department of Materials and Manufacturing Technology, Göteborg, Sweden

5. Lund University, Department of Production and Materials Engineering, Lund, Sweden

Abstract

The machinability of two prehardened mould steels, one continuously-cooled and one quenched and tempered, is compared in terms of cutting temperature, cutting force and tool life. Both materials have a hardness of ∼40 HRC which is a typical hardness for prehardened mould steels. The results of machinability tests are related to mechanical properties and microstructural features, and the material removal rate is estimated for the materials. The continuously-cooled steel with bainitic structure shows higher machinability and possesses superior impact toughness and ductility compared to the quenched and tempered steel with martensitic structure. These properties are very important for plastic mould steels. The continuously-cooled bainitic steel also has the advantage of not requiring any costly quenching and tempering processes in connection with its production.

Publisher

Walter de Gruyter GmbH

Subject

Materials Chemistry,Metals and Alloys,Physical and Theoretical Chemistry,Condensed Matter Physics

Link

https://www.degruyter.com/document/doi/10.3139/146.110926/pdf

Reference46 articles.

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