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Relevant bibliographies by topics / Carbide tools

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Journal articles

Academic literature on the topic 'Carbide tools'

Author: Grafiati

Published: 28 May 2022

Last updated: 29 May 2022

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Journal articles on the topic "Carbide tools"

1

Liu, Zhan Qiang, and Qi Lin. "Numerical Analysis of Face Milling Ti6Al4V with Different Tool Materials." Materials Science Forum 723 (June 2012): 299–304. http://dx.doi.org/10.4028/www.scientific.net/msf.723.299.

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Ti6Al4V is one kind of difficult-to-machine aeronautical materials, which is generally machined by coated cemented carbide tools. A three-dimensional face milling model is developed in this paper with finite element analysis software AdvantEdge to analyze influences of tool materials on tool temperatures, cutting forces and tool stresses. The simulation results have shown that PCBN tools are the most appropriate for machining titanium alloy when it is machined with heavier cutting parameters. Cemented carbide-K tools and PCD tools are suitable for finish machining titanium alloy. The PCD tools

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2

Panov, V. S. "Cemented carbide cutting tools coated with silicon nitride." Izvestiya Vuzov. Poroshkovaya Metallurgiya i Funktsional’nye Pokrytiya (Universitiesʹ Proceedings. Powder Metallurgy аnd Functional Coatings), no. 4 (December 15, 2018): 104–9. http://dx.doi.org/10.17073/1997-308x-2018-4-104-109.

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The paper describes the technology of producing a wear resistant silicon nitride coating on cemented carbide cutting tools and factors affecting its structure and thickness. A review of domestic and foreign authors’ works is given on the properties and applications of cemented carbides in cutting, drilling, die stamping tools, wear resistant materials, for chipless processing of wood, plastics. It is noted that one of the promising ways of cutting tool development is using indexable throwaway inserts (ITI) with wear resistant coatings. The choice of silicon nitride as a material for cemented c

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3

Saydaxmedov, Ravshan, and Kutpnisa Kadirbekova. "Study of the composition and properties of vacuum coatings based on titanium carbide." E3S Web of Conferences 264 (2021): 05023. http://dx.doi.org/10.1051/e3sconf/202126405023.

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Carbide cutting tools are used for machining of machine parts made of complex alloyed materials. Application of protective composite nanostructured coatings on carbide cutting tools allows increasing the service life of cutting tools several times. The coating on their base protects the cobalt binding of carbide alloys. The low thermal conductivity of the composite nanostructured titanium carbide coating means that the heat generated when cutting workpieces is mostly transferred to the chips so that the tool does not become overheated. This is important when machining difficult alloyed, hard-t

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4

Zhang, Fei Hu, J. C. Gui, Yi Zhi Liu, and Hua Li Zhang. "Research on ELID Grinding of Nano-Cemented Carbide Tool." Key Engineering Materials 329 (January 2007): 105–10. http://dx.doi.org/10.4028/www.scientific.net/kem.329.105.

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Nano-cemented carbide is a novel material, which is superior to common cemented carbide on physical and mechanical properties, such as high hardness, toughness, flexural strength and higher wear resisting property. It is proposed to have wide application prospect to tools and mould manufacturing. In this paper, ELID grinding technique is applied to grind nano-cemented carbide tools. And the ground surface quality, cutting edge radius, and machinability of nano-cemented carbide tools are studied, compared with common cemented carbide. It is demonstrated by experimental results that nano-cemente

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5

IYORI, YUSUKE. "Cemented carbide tools." Journal of the Japan Society for Precision Engineering 52, no. 9 (1986): 1504–7. http://dx.doi.org/10.2493/jjspe.52.1504.

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6

Nestler, A., and A. Schubert. "PERFORMANCE OF DIFFERENT DIAMOND CUTTING TOOLS IN FACE MILLING OF CEMENTED CARBIDE." MM Science Journal 2021, no. 5 (2021): 5038–45. http://dx.doi.org/10.17973/mmsj.2021_11_2021150.

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More and more forming and punching tools as well as wear parts are made from cemented carbide. The large variety and the geometry of these components are often reasons for finish machining by milling, but the tool wear is very high. For the investigations, end mills with different diamond material tips or coatings are used. The cemented carbide specimens exhibit an average tungsten carbide particle size of 2.5 μm and the binder material is cobalt with a proportion of 20 %. The cutting parameters are kept constant. For all tools a surface roughness depth Rz smaller than 1 μm is achieved. The de

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7

Xu, Qingzhong, Jichen Liu, Gangjun Cai, Dewen Jiang, and Jian Zhou. "A Fuzzy Evaluation of Tool Materials in the Turning of Marine Steels." Metals 11, no. 11 (2021): 1710. http://dx.doi.org/10.3390/met11111710.

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To recommend one suitable tool material for the cutting of marine steels under special conditions and requirements in emergency rescues of capsized steel ships, the cermet tools, cemented carbide tools and coated carbide tools were evaluated using a fuzzy evaluation method concerning cutting force, cutting temperature, surface roughness and tool wear. Experimental results indicate that the tool cutting performance was diverse and difficult to evaluate with a single evaluation index. The cemented carbide tools presented bad cutting performance with severe wear. Compared with the cemented carbid

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8

KIDUNG TIRTAYASA, PUTRA PANGESTU, WAYAN DARMAWAN, DODI NANDIKA, IMAM WAHYUDI, LUMONGGA DUMASARI, and USUKI HIROSHI. "PERFORMANCE OF COATED TUNGSTEN CARBIDE IN MILLING COMPOSITE BOARDS." WOOD RESEARCH 66(4) 2021 66, no. 4 (2021): 606–20. http://dx.doi.org/10.37763/wr.1336-4561/66.4.606620.

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The purpose of this research was to analyze the performance (wear resistance, surface roughness, chip formation, and noise level) of AlCrN, TiN, and TiAlN coated tungsten carbides in cutting composite boards. The composite boards of wood plastic composite, laminated veneer lumber, andorientedstrand board were cut by the coated tungsten carbide tools in a computer numerical control router. The results show that the differences in structure among the composite boards resulted in the difference in clearance wear, chip formation, surface roughness, and noise level phenomenon. The abrasive material

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9

Huan, Hai Xiang, Jiu Hua Xu, Hong Hua Su, Yu Can Fu, and Ying Fei Ge. "Experimental Study on Milling of Titanium Matrix Composites." Key Engineering Materials 589-590 (October 2013): 281–86. http://dx.doi.org/10.4028/www.scientific.net/kem.589-590.281.

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Titanium matrix composites (TMCs) possess many outstanding properties and have increasing and potential application in aerospace, automobile and other industries. However, TMCs are typical difficult-to-machining material due to the rapid tool wear rate and excessive machining induced defects. In this paper, tool wear, cutting forces, cutting temperature and surface roughness were investigated when milling TMCs with Polycrystalline Diamond (PCD) and carbide tools. The results showed that the values of surface roughness obtained by carbide tools were higher than that of PCD tools under the same

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10

Batako, Andre, Anatoliy Matveevich Adaskin, Victor Nikolaevich Butrim, Alexey Anatolevich Vereschaka, and Anatoliy Stepanovich Vereschaka. "Influence of Carbide Substrate Properties on Wear Resistance of Tool with Multilayer Coating in Machining of Chromium-Based Heat-Resistant Alloy." Materials Science Forum 876 (October 2016): 59–68. http://dx.doi.org/10.4028/www.scientific.net/msf.876.59.

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Thispaper presents the results of the studies of the combined influence of properties of carbide substrate and composite coatings on tool wear resistance in machining of chromium-based heat-resistant alloys. It was established that the efficiency of carbide tools with coatings is determined by a combination of the properties of the carbide substrate and the coating itself. For carbides with relatively low strength and crack resistance, the efficiency of coatings appeared to be unsatisfactory because of brittle fracture of the substrate and thus intensive failure of coating. High heat resistanc

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