Detail publikace

Electron beam surface quenching of X37CrMoV51 tool steel swages

Originální název

Electron beam surface quenching of X37CrMoV51 tool steel swages

Anglický název

Electron beam surface quenching of X37CrMoV51 tool steel swages

Jazyk

en

Originální abstrakt

X37CrMoV51 tool steel for plastic working and heat cutting is usually used in whole volume quenched state for secondary hardness. Using high-energetic sources like electron beam or laser is possible repeated surface quenching of chosen surface localities with complicated geometry. The treatment leads to local hardness improvement which results in local wear damage decrease. Delivered specimens were surface quenched using electron beam technology. The paper deals with influence of individual technological parameters of the treatment on final properties of treated localities. Final properties of treated surface were examined by light and electron microscopy and microhardness testing.

Anglický abstrakt

X37CrMoV51 tool steel for plastic working and heat cutting is usually used in whole volume quenched state for secondary hardness. Using high-energetic sources like electron beam or laser is possible repeated surface quenching of chosen surface localities with complicated geometry. The treatment leads to local hardness improvement which results in local wear damage decrease. Delivered specimens were surface quenched using electron beam technology. The paper deals with influence of individual technological parameters of the treatment on final properties of treated localities. Final properties of treated surface were examined by light and electron microscopy and microhardness testing.

BibTex


@inproceedings{BUT118859,
  author="Jiří {Matlák} and Pavel {Doležal} and Josef {Zapletal} and Ivo {Dlouhý}",
  title="Electron beam surface quenching of X37CrMoV51 tool steel swages",
  annote="X37CrMoV51 tool steel for plastic working and heat cutting is usually used in whole volume quenched state for secondary hardness. Using high-energetic sources like electron beam or laser is possible repeated surface quenching of chosen surface localities with complicated geometry. The treatment leads to local hardness improvement which results in local wear damage decrease.
Delivered specimens were surface quenched using electron beam technology. The paper deals with influence of individual technological parameters of the treatment on final properties of treated localities. Final properties of treated surface were examined by light and electron microscopy and microhardness testing.",
  booktitle="Chemicko-tepelné zpracování kovových povrchů",
  chapter="118859",
  howpublished="electronic, physical medium",
  year="2015",
  month="november",
  pages="102--110",
  type="conference paper"
}