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The Possibility of Increasing the Wearing Resistance of Mulcher Tools

-80-228-2722-5. HNILICOVÁ, M. - HNILICA, R. - DADO, M. 2016. Technique and technology in the upbringing and cultivation of the forest. In Increasing the Life of Tools and Structural Parts of Mechanisms. Zvolen : Technická univerzita, 2016. pp. 16-26. ISBN 978-80-228-2862-8. KALINCOVÁ, D. - ŤAVODOVÁ, M. 2016. Analysis of the mulcher tools wear - methods for increasing of wear resistance. In Increasing the Life of Tools and Structural Parts of Mechanisms. Zvolen : Technická univerzita, 2016, pp. 52-58. ISBN 978-80-228-2862-8. KINGKONG-TOOLS. Available online

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Identification and Analysis of Defect in Forging Tools by Non-Destructive Detection Method

References [1] Deutsch, V., Platte, M.: Crack depth gauging with the potential probe method, Castell Publications, Wuppertal, 2003. ISBN 3-934 255-17-5. [2] Zelený, J.: Výroba zápustek a forem. MM průmyslové spektrum SPECIÁL, Duben 2001. [3] Derbas, M., Czán, A.: Renovating intensification of machining nitride layers of tools for volume forming In: TRANSCOM 2011. ISBN 978-80-554-0374-8. [4] Vasilko, K., Pilc, J.: New technological knowledge of the rotary turning tool, Journal of Manufacturing Technology, vol. 13, issue 4, 2013, pp. 571

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Methods for Increasing the Material Resistance of the Mulching Tool Body Against its Deformation in Operation

tvrdonávarov, on line [08. 01. 2017]. [4] Čičo, P. - Tolnai, R.: Vplyv pôdneho prostredia na odolnosť návarov proti opotrebeniu. In: Kvalita a spoľahlivosť strojov. Nitra 2000, s. 48. [5] Buckley, D. H.: Surface Effects in Adhesion, Friction, Wear and Lubrication. :Amsterdam-Oxford-New York. 1981. [6] Pilc, J. – Drbúl, M. – Stančeková, D. – Varga, D. – Martinček, J. – Kuždák, V.: Analysis of Potentiometric Methods Used For Crack Detection In Forging Tools. In

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New Czech & Certified Methodology „Tools of Resilience“

References Amper: Resiliency and adaptation on climate change in regional strategies. Another good practise examples [online]., 2016 [cit. 2016-29-11]. Available at: . (in Czech) Arbon, P. 2014. Developing a model and tool to measure community disaster resilience. The Australian Journal of Emergency Management, 29(4): 12-16. ISSN 1324-1540. Commission Staff Working Document, SWD(2013) 227. Action Plan for Resilience in Crisis Prone Countries 2013-2020. Cox

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Impact of selected lean management tools on work safety

-288. Gajdzik, B. (2014). 6S w przedsiębiorstwach produkcyjnych. Ewolucja praktyki 5S w kierunku bezpieczeństwa pracy. Problemy Jakości, 46(7-8), pp. 37-42. Grabowska, S. and Furman, J. (2015). Business model of steel company - focus on the innovation. In: METAL 2015: 24th International Conference on Metallurgy and Materials. Ostrava: Tanger, pp.1933. Furman, J., and Kuczyńska-Chałada, M. (2017). The influence of Lean Manufacturing tools on the product quality in the casting process – case study. In: METAL 2017: 26th International Conference on Metallurgy and

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Knowledge Tools in SMEs: A Romanian Overview

References [1] Delahaye, B.L., Human Resource Development and the Management of Knowledge Capital, Human Resource Management: Challenges and Future Directions . Brisbane: John Wiley & Sons Australia, 2003 [2] Ruggles, R., Knowledge Management Tools . Taylor & Francis, 1997 [3] Nicolescu, O. and Nicolescu, C., Organizatia si managementul bazate pe cunostinte , Bucharest, ProUniversitaria, 2011 [4] Ceptureanu E.G., Employee’s reaction to change in Romanian SMEs, Review of International Comparative Management , Vol. 16, No. 1, pp.77

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Measurements of Temperature of CNC Machine Tool Ball Screw Utilising IR Method

thermal expansion on thermally induced error of ball screw feed drive system of precision machine tools . – Int. J. of Adv. Manuf. Technol., vol.82, pp.1693–1705. [7] Maldague X. (1994): Infrared methodology and technology . – Amsterdam: Gordon and Breach Science Publishers. [8] Raznjevic K. (1964): Heat transfer charts with graphs: numerical data in units of technical and international system. – Warsaw: WNT. [9] Vollmer M. and Möllmann K.-P. (2010): Infrared thermal imaging . – Weinheim: Wiley-VCH. [10] Minkina W. and Dudzik S. (2009

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Sensorless compensation system for thermal deformations of ball screws in machine tools drives

-drive system, Int. J. Mach. Tool Manu., 39 (1999) 1087-1101. [4] J. Bryan, International status of thermal error research, Ann. CIRP 39 (2) (1990) 645-656. [5] R. Ramesh, M.A. Mannan, A.N. Po, Thermal error measurement and modeling in machine tools. Part I. Influence of varying operation conditions, Int. J. Mach. Tool Manu., 43 (2003) 391-404. [6] M. Kowal, R. Staniek, Compensation system for thermal deformation of ball screws, Proceedings of the 12th Biennial Conference on Engineering Systems Design and Analysis, ESDA 20469

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The Use of Focus-Variation Microscopy for the Assessment of Active Surfaces of a New Generation of Coated Abrasive Tools

References [1] Wang, L., Gao, R.X. (Eds.) (2006). Condition Monitoring and Control for Intelligent Manufacturing. Springer. [2] Wegener, K., Hoffmeister, H.W., Karpuschewski, B., Kuster, F., Hahmann, W.C., Rabiey, M. (2011). Conditioning and monitoring of grinding wheels. CIRP Annals-Manufacturing Technology, 60 (2), 757-777. [3] Darafon, A., Warkentin, A., Bauer, R. (2013). Characterization of grinding wheel topography using a white chromatic sensor. International Journal of Machine Tools and Manufacture, 70

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Deformation of Exposed Tool Parts for Crushing of Undesirable Advance Growth

. – ŤAVODOVÁ, M. – HNILICOVÁ, M. – VEVERKOVÁ, D. 2016. Machinery for forest cultivation – increase of resistance to abrasive wear of the tool. In MM Science Journal, no. November, pp. 1269–1272. KOTUS, M. – ČIČO, P. – DAŇKO, M. – ANDRÁSSYOVÁ, Z. – VYSOČANSKÁ, M. 2011. Increasing the wear resistance of the workpieces by hardening. In Acta Technologica Agriculturae, vol. 14, no. 1, pp. 20–23. KOVÁČ, I. – TOLNAI, R. 2004. Improvement of the mechanical properties of surface layers of steels 14 220 and 15 203 saturated boron. In Acta Technologica Agriculturae, vol. 9

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