The Experts below are selected from a list of 327 Experts worldwide ranked by ideXlab platform
S Veprek - One of the best experts on this subject based on the ideXlab platform.
-
development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc al1 xtix n a si3n4 superhard nanocomposite coatings for dry hard machining
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, Maritza G J Veprekheijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al1-xTi x N/a-Si3N4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti1-xAl x )N coatings.
-
Development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc-(Al_1−_ x Ti_ x )N/a-Si_3N_4 superhard nanocomposite coatings for dry, hard machi
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, M. G. J. Veprek-heijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al_1- x Ti_ x N/a-Si_3N_4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti_1- x Al_ x )N coatings.
Mojmir Jilek - One of the best experts on this subject based on the ideXlab platform.
-
development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc al1 xtix n a si3n4 superhard nanocomposite coatings for dry hard machining
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, Maritza G J Veprekheijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al1-xTi x N/a-Si3N4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti1-xAl x )N coatings.
-
Development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc-(Al_1−_ x Ti_ x )N/a-Si_3N_4 superhard nanocomposite coatings for dry, hard machi
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, M. G. J. Veprek-heijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al_1- x Ti_ x N/a-Si_3N_4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti_1- x Al_ x )N coatings.
Marcus Morstein - One of the best experts on this subject based on the ideXlab platform.
-
development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc al1 xtix n a si3n4 superhard nanocomposite coatings for dry hard machining
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, Maritza G J Veprekheijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al1-xTi x N/a-Si3N4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti1-xAl x )N coatings.
-
Development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc-(Al_1−_ x Ti_ x )N/a-Si_3N_4 superhard nanocomposite coatings for dry, hard machi
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, M. G. J. Veprek-heijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al_1- x Ti_ x N/a-Si_3N_4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti_1- x Al_ x )N coatings.
Pavel Holubar - One of the best experts on this subject based on the ideXlab platform.
-
development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc al1 xtix n a si3n4 superhard nanocomposite coatings for dry hard machining
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, Maritza G J Veprekheijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al1-xTi x N/a-Si3N4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti1-xAl x )N coatings.
-
Development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc-(Al_1−_ x Ti_ x )N/a-Si_3N_4 superhard nanocomposite coatings for dry, hard machi
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, M. G. J. Veprek-heijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al_1- x Ti_ x N/a-Si_3N_4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti_1- x Al_ x )N coatings.
Tibor Cselle - One of the best experts on this subject based on the ideXlab platform.
-
development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc al1 xtix n a si3n4 superhard nanocomposite coatings for dry hard machining
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, Maritza G J Veprekheijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al1-xTi x N/a-Si3N4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti1-xAl x )N coatings.
-
Development of novel coating technology by vacuum arc with rotating cathodes for industrial production of nc-(Al_1−_ x Ti_ x )N/a-Si_3N_4 superhard nanocomposite coatings for dry, hard machi
Plasma Chemistry and Plasma Processing, 2004Co-Authors: Mojmir Jilek, Tibor Cselle, Pavel Holubar, Marcus Morstein, M. G. J. Veprek-heijman, S VeprekAbstract:The development of novel superhard nanocomposite, nano-layered coatings and of the coating technology based on vacuum arc evaporation from rotating electrodes is summarized. The nc-Al_1- x Ti_ x N/a-Si_3N_4 coatings in which the nanoCrystals of the Al-rich solid solution with the Fcc Crystal structure of TiN are imbedded into a thin matrix of amorphous silicon nitride show high thermal stability, oxidation resistance and excellent performance in dry, fast machining that is superior to the state-of-the-art (Ti_1- x Al_ x )N coatings.
