000			03975naa a22002897a 4500
001			8004
003			KOSZ 005
005			20190610114327.0
008			170304b2009 GBR||||| |||| 00| 0eng
040			_cBPK _dKOSZ 005/EG
080			_a621.791/.795
100	1		_aRATAJSKI, Jerzy. _d1996 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej, _cZakład Projektowania Materiałów i Procesów
245	1	0	_aHard coatings for woodworking tools - a review / _cJ. Ratajski, W. Gulbiński, J. Staśkiewicz, J. Walkowicz, P. Myśliński, A. Czyżniewski, T. Suszko, A. Gilewicz, B. Warcholiński.
500			_aDane z autopsji.
520			_aPurpose: The paper presents thorough analysis of the state-of the-art in the field of woodworking tools durability improvement. In comparison with the achievements of global leaders in the field, the technologies developed so far at the Institute of Mechatronics, Nanotechnology and Vacuum Technique, as well as the latest research works undertaken by the authors are presented. Design/methodology/approach: The specificity of machining conditions of wood and wood-derivative materials consists in simultaneous occurrence of very high working speed, extremely sharp cutting edges and high working temperature – on the one hand, and high anisotropy and low thermal conductivity of the machined material – on the other. The paper summarizes various ways, including selection of both tool materials and surface treatments, applied in order to increase the productivity of woodmachining. Findings: A systematic analysis has been made on the type of tool materials suitable for machining of different sorts of solid wood and wood-derivative materials. It was shown that all woodworking tool types, except for satellites, require development of dedicated surface engineering technologies improving significantly their durability. The main features of CVD and PVD surface treatment technologies were compared in relation to their application for woodmachining tools. Research limitations/implications: Based on the achievements to date IMN&VT undertook a project aimed at development of a new generation of surface treatment technologies for both cemented carbide and high speed steel tools. It is planned to develop three packages of PVD technologies for deposition of multilayer and duplex anti-wear coatings based on TiAlN, CrN and carbon. Originality/value: The paper constitutes concise but in-depth description of the contemporary trends in surface treatment of tools for woodmachining.
650		0	_aDrewno - technologia.
650		0	_aInżynieria powierzchni
700	1		_aGULBIŃSKI, Witold. _d1996 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej,
700	1		_aMYŚLIŃSKI, Piotr. _d1996 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej, _cZakład Projektowania Materiałów i Procesów
700	1		_aCZYŻNIEWSKI, Andrzej. _d1996 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej,
700	1		_aSUSZKO, Tomasz. _d1996 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej, _cZakład Fizyki
700	1		_aGILEWICZ, Adam. _d1996 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej, _cZakład Nanotechnologii Próżniowo-Plazmowej
700	1		_aWARCHOLIŃSKI, Bogdan. _d1996 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej, _cZakład Nanotechnologii Próżniowo-Plazmowej
700	1		_aSTAŚKIEWICZ, Jan. _d1973 - . _bPolitechnika Koszalińska - Instytut Mechatroniki, Nanotechnologii i Techniki Próżniowej,
773	0		_iW : _tJournal of Achievements in Materials and Manufacturing Engineering. - _g2009, Vol. 37, nr 2, s. 668-674 _x1734-8412
942			_cART _2UKD
999			_c8004 _d8004