Carbon and titanium based layers for wood-based materials

• Autorzy: Kaczorowski W. , Batory D.
• Języki publikacji: PL

Abstrakty

EN

Purpose: The main purpose of this work was to work out the technology of manufacturing carbon and titanium based layers on the surfaces of sintered carbides machining edges used in furniture industry. Design/methodology/approach: A hybrid deposition system employing DC magnetron sputtering and radio frequency plasma assisted chemical vapour deposition (RF PACVD) in one reaction chamber was used to manufacture Ti:C gradient layers. For the laboratory investigation layers were deposited on sintered carbide samples. Friction coefficient and SEM EDS analysis were made. For the exploitation tests layers were deposited on the commercial sintered carbide tools widely used in furniture industry. Findings: As the result of investigation it was noticed that Ti and C based gradient layers deposited on sintered carbides surfaces seems to be a very interesting alternative for standard non modified machining tools because of they noticeably decreased friction coefficient and improved durability. Practical implications: Presented technology is dedicated for furniture industry as a layer improving the cutting properties of the machining tools Originality/value: Application of carbon and titanium based layers deposited by hybrid deposition method on sintered carbide cutting edges for wood and wood-based materials machining.

Słowa kluczowe

PL

cienkie powłoki; powłoki grube; obróbka wiórowa; węgliki spiekane; węgiel

EN

thin coatings; thick coatings; chipboards machining; sintered carbide; carbon

• Wydawca: International OCSCO World Press
• Czasopismo: Journal of Achievements in Materials and Manufacturing Engineering
• Rocznik: 2008
• Tom: Vol. 27, nr 2
• Strony: 187--190
• Opis fizyczny: Bibliogr. 15 poz., wykr.

Twórcy

autor

Kaczorowski W.

autor

Batory D.

• Institute of Materials Science and Engineering, Technical University of Lodz, ul. Stefanowskiego 1/15, 90-924 Lódź, Poland,

Bibliografia

• [1] E. Cappelli, S. Orlando, F. Pinzari, A. Napoli, S. Kaciulis, WC-Co cutting tool surface modifications induced by pulsed laser treatment, Applied Surface Science 138-139 (1999) 376-382.
• [2] H. K. Tönshoff, A. Mohlfeld, C. Gey, J. Winkle, Surface modification of cemented carbide cutting tools for improved adhesion of diamond coatings, Surface and Coatings Technology 108-109 (1998) 543-550.
• [3] L. A. Dobrzański, L. Wosiłska, K. Gołombek, J. Mikuła, Structure of multicomponent and gradient PVD coatings deposited on sintered tools materials, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 99-102.
• [4] L. A. Dobrzański, L. W. Żukowska, Properties of the multicomponent and gradient PVD coatings, Archives of Materials Science and Engineering 28/10 (2007) 621-624.
• [5] W. Grzesik, Z. Zalisz, S. Król, Tribological behaviour of TiAlN coated carbides in dry sliding tests, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 181-184.
• [6] S. K. Sarangi, A. Chattopadhyay, A. K. Chattopadhyay, Effect of pretreatment, seeding and interlayer on nucleation and growth of HFCVD diamond films on cemented carbide tools, International Journal of Refractory Metals and Hard Materials 26/3 (2008) 220-231.
• [7] G. Cabral, J. C. Madaleno, E. Titus, N. Ali, J. Grácio, Diamond chemical vapour deposition on seeded cemented tungsten carbide substrates, Thin Solid Films 515/1 (2006) 158-163.
• [8] W. Tang, Q. Wang, S.Wang, F. Lu, A comparison in performance of diamond coated cemented carbide cutting tools with and without a boride interlayer, Surface and Coatings Technology 153/2-3 (2002) 298-303.
• [9] F. H. Sun,Z. M. Zhang, M. Chen, H. S. Shen, Effects of surface pretreatments on the deposition of adherent diamond coatings on cemented tungsten carbide substrates "Diamond & Related Materials" 16/3 (2007) 461-466.
• [10] R. Polini, F. Bravi, F. Casadei, P. D'Antonio, E. Traversa, Effect of substrate grain size and surface treatments on the cutting properties of diamond coated Co-cemented tungsten carbide tools, Diamond and Related Materials 11 (2002) 726-730.
• [11] R. A. Hay, C. D. Dean, Y. Tzeng, M. Yoshikawa, M. Murakawa, A. Feldman, Applications of Diamond Films and Related Materials, Elsevier, Amsterdam, The Nederlands (1991) 53-60.
• [12] P. Niedzielski, J. Grabarczyk, W. Kaczorowski, NCD coatings on cemented carbides, Material Engineering 6/119 (2000) 370-372 (in Polish).
• [13] J. Grabarczyk, D. Batory, P Louda, P. Couvrat, I. Kotela, K. Bakowicz-Mitura, Carbon coatings for medical implants, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 107-111.
• [14] W. Okrój, M. Kamińska, L. Klimek, W. Szymański, B. Walkowiak, Blood platelets in contact with nanocrystalline diamond surfaces Diamond & Related Materials 15/10 (2006) 1535-1539.
• [15] M. Cłapa, D. Batory, Improving adhesion and wear resistance of carbon coatings using Ti:C gradient layers, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 415-418.