Detail publikace

Mechanical Properties of Powder Deposits Compacted by Cold Spray Technology

Originální název

Mechanical Properties of Powder Deposits Compacted by Cold Spray Technology

Anglický název

Mechanical Properties of Powder Deposits Compacted by Cold Spray Technology

Jazyk

en

Originální abstrakt

Cold spray is a novel coating deposition method with extended range of possibilities for industrial applications. Due to its low-temperature character, it has many advantages and a high potential to replace the high-temperature thermal spray processes like HVOF and plasma spraying. The presented work analyzes the microstructure and phase composition of selected metal coatings deposited by cold spraying and evaluates their mechanical properties.

Anglický abstrakt

Cold spray is a novel coating deposition method with extended range of possibilities for industrial applications. Due to its low-temperature character, it has many advantages and a high potential to replace the high-temperature thermal spray processes like HVOF and plasma spraying. The presented work analyzes the microstructure and phase composition of selected metal coatings deposited by cold spraying and evaluates their mechanical properties.

BibTex


@misc{BUT111237,
  author="Igor {Moravčík} and Jakub {Piňos} and Jan {Čížek} and Ivo {Dlouhý}",
  title="Mechanical Properties of Powder Deposits Compacted by Cold Spray Technology",
  annote="Cold spray is a novel coating deposition method with extended range of possibilities for industrial applications. Due to its low-temperature character, it has many advantages and a high potential to replace the high-temperature thermal spray processes like HVOF and plasma spraying. The presented work analyzes the microstructure and phase composition of selected metal coatings deposited by cold spraying and evaluates their mechanical properties.",
  address="Sintering 2014",
  booktitle="SINTERING 2014",
  chapter="111237",
  howpublished="print",
  institution="Sintering 2014",
  year="2014",
  month="august",
  pages="308--308",
  publisher="Sintering 2014",
  type="abstract"
}