Publication detail

Fatigue properties of materials with protective thermally deposited layers

MATĚJKOVÁ, M. ČÍŽEK, J. KAY, C. KARTHIKEYAN, J. KURODA, S. KOVÁŘÍK, O. SIEGL, J. LOKE, K. KHOR, K.

Czech title

Únavové vlastnosti materiálů s ochrannými vrstvami nanesenými technologiemi žárového nanášení

English title

Fatigue properties of materials with protective thermally deposited layers

Type

conference paper

Language

en

Original abstract

spray technologies were used: plasma spray, warm spray, low-pressure cold spray and portable cold spray. The specimens were then tested for the influence of the coatings deposition on the fatigue lives. The results were compared to as-received set and grit-blasted set and the causes of the failure were investigated for each set. It was found that the grit-blasting did not alter the fatigue lives of the steel specimens (1% increase as compared to the as-received set), while all thermal spray technologies significantly increased the measured fatigue lives. The thermal technologies led to relative lives increase of 210% (portable cold spray), 234% (lowpressure cold spray), 303% (plasma spray) and 355% (warm spray). The increase in relative lives of the individual sets could be attributed to a combination of fatigue resistant coatings and introduction of compressive peening stresses into the substrates.

Czech abstract

spray technologies were used: plasma spray, warm spray, low-pressure cold spray and portable cold spray. The specimens were then tested for the influence of the coatings deposition on the fatigue lives. The results were compared to as-received set and grit-blasted set and the causes of the failure were investigated for each set. It was found that the grit-blasting did not alter the fatigue lives of the steel specimens (1% increase as compared to the as-received set), while all thermal spray technologies significantly increased the measured fatigue lives. The thermal technologies led to relative lives increase of 210% (portable cold spray), 234% (lowpressure cold spray), 303% (plasma spray) and 355% (warm spray). The increase in relative lives of the individual sets could be attributed to a combination of fatigue resistant coatings and introduction of compressive peening stresses into the substrates.

English abstract

spray technologies were used: plasma spray, warm spray, low-pressure cold spray and portable cold spray. The specimens were then tested for the influence of the coatings deposition on the fatigue lives. The results were compared to as-received set and grit-blasted set and the causes of the failure were investigated for each set. It was found that the grit-blasting did not alter the fatigue lives of the steel specimens (1% increase as compared to the as-received set), while all thermal spray technologies significantly increased the measured fatigue lives. The thermal technologies led to relative lives increase of 210% (portable cold spray), 234% (lowpressure cold spray), 303% (plasma spray) and 355% (warm spray). The increase in relative lives of the individual sets could be attributed to a combination of fatigue resistant coatings and introduction of compressive peening stresses into the substrates.

Keywords in Czech

Cold spray, warm spray, plasma spray, grit-blast, titan, únava

Keywords in English

Cold spray, warm spray, plasma spray, grit-blast, titanium, fatigue

RIV year

2015

Released

28.05.2015

Location

Brno

ISBN

978-80-214-5146-9

Book

Multi-scale design of advanced materials

Pages from–to

109–116

Pages count

8

BIBTEX


@inproceedings{BUT114754,
  author="Michaela {Matějková} and Jan {Čížek} and Charles {Kay} and Jeganathan {Karthikeyan} and Seiji {Kuroda} and Ondřej {Kovářík} and Jan {Siegl} and Kelvin {Loke} and Khiam Aik {Khor},
  title="Fatigue properties of materials with protective thermally deposited layers",
  booktitle="Multi-scale design of advanced materials",
  year="2015",
  month="May",
  pages="109--116",
  address="Brno",
  isbn="978-80-214-5146-9"
}