Vapour deposition technologies for the fabrication of hot-forming tools: a review

This paper reports recent developments of vacuum coatings technologies for hot-forming tooling applications. Whilst well implanted in the machining and cutting industry, vacuum coatings face important challenges for the fabrication of forming tools, and more specifically in hot forming, due to the e...

Full description

Saved in:
Bibliographic Details
Published inManufacturing review (Ulis, France) Vol. 1; p. 20
Main Authors Fuentes, Gonzalo G., Almandoz, Eluxka, Rodríguez, Rafael J., Dong, Hanshan, Qin, Yi, Mato, Sonia, Pérez-Trujillo, Francisco Javier
Format Journal Article
LanguageEnglish
Published Les Ulis EDP Sciences 2014
Subjects
Borides
Chemical vapour deposition
Coatings
Cutting tools
Engineering
Formulations
High speed machining
Hot forming
Knowledge management
Laboratories
Laboratory equipment
Machining
Mechanical properties
Metal nitrides
Mixed oxides
Oxidation
Physical vapour deposition
Protective coatings
Technology transfer
Thermal cycling
Thin films
Titanium
Tool failures
Tool life
Tooling
Tools/Moulds
Tribology
Vapor deposition
Europe
Online AccessGet full text

Cover

More Information
Summary:This paper reports recent developments of vacuum coatings technologies for hot-forming tooling applications. Whilst well implanted in the machining and cutting industry, vacuum coatings face important challenges for the fabrication of forming tools, and more specifically in hot forming, due to the extreme operation conditions to be met, such as high loading forces, impact/thermal cycling, working material adhesion, etc. Present and future coatings adapted to hot work tooling are discussed in this paper: transition metal nitrides, carbon nitrides, borides and mixed oxides are among the currently postulated coating formulations for high temperature forming. The study is complemented with current strategies of characterizing the properties of the coatings in the adequate environment of high temperatures and contact loadings. To this aspect, a number of examples, from using standard laboratory equipment to the use of in-house developed tribological set-ups, are given, together with recent findings obtained from the authors’ research groups. The data available is, however, quite limited from the scientific literatures on the field trials with reliable, statistical relevance, which is, probably, attributed to the high costs normally incurred for carrying out experiments in real industrial environment. Nevertheless, we could still draw a conclusion of that vacuum coating for tooling applications is at a front edge of knowledge generation and technology transfer to industry, and while being already mature, there is still a needed effort for significant industrial up-take from the novel coatings developed or being under the development.
ISSN:2265-4224
2265-4224
DOI:10.1051/mfreview/2014019