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All issues Volume 18 / No 7 (2017) Supplement Mechanics & Industry, 18 7 (2017) 703 References
Issue
Mechanics & Industry
Volume 18, Number 7, 2017
STANKIN: Innovative manufacturing methods, measurements and materials
Article Number 703
Number of page(s) 6
DOI https://doi.org/10.1051/meca/2017050
Published online 30 December 2017
  1. G.E. Totten, C.E. Bates, M.A. Clinton, Handbook of Quenchants and Quenching Technology, Materials Park, ASM International, United States 1993 [Google Scholar]
  2. B. Liscic, H.M. Tensi, L.C.F. Canale, G.E. Totten, Quenching Theory and Technology, CRC Press, Taylor & Francis Group, Boca Raton, Florida, United States 2010 [Google Scholar]
  3. G. Ramesh, K. Narayan Prabhu, Effect of Polymer Concentration on Wetting and Cooling Performance During Immersion Quenching, Metall. end Mater. Trans. B 47 (2016) 859–881 [CrossRef] [Google Scholar]
  4. G. Ramesh, K. Narayan Prabhu, Comparative Study of Wetting and Cooling Performance of Polymer-Salt Hybrid Quench Medium With Conventional Quench Media, Exp. Heat Transf. 28 (2015) 464–492 [CrossRef] [Google Scholar]
  5. X.F. Chen, L.Y. Zhang, X.H. Jie, Y. Li, X.Y. Huang, Quenching Characteristics Of Glycerol Solution As A Potential New Quenchant, Int. J. Heat Mass Transf. 109 (2017) 209–214 [Google Scholar]
  6. N. Lior, The cooling process in gas quenching, J. Mater. Process. Technol. 155–156 (2004) 1881–1888 [CrossRef] [Google Scholar]
  7. Z. Wang, X. Wang, X. Shang, The Effects of Nozzle and Workpiece Placements on Cooling Rate in the Vacuum High-pressure Gas Quenching Furnace Based on CFD, Appl. Mech. Mater. 66–68 (2011) 673–676 [CrossRef] [Google Scholar]
  8. V. Heuer, D.R. Faron, D. Bolton, M. Lifshits, K. Loeser, Distortion Control of Transmission Components by Optimized High Pressure Gas Quenching, J. Mater. Eng. Perform. 22 (2013) 1833–1838 [CrossRef] [Google Scholar]
  9. A. Yu. Aksenenko, V.N. Klimov, N.V. Korobova, V.I. Luzgin, S. Yu. Shevchenko, Effect of electromagnetic mixing in crystallization on the structure of thixopreforms from castable aluminum alloys, Metal Sci. Heat Treat. 55 (2014) 665–669 [CrossRef] [Google Scholar]
  10. B. Liscic, Measurement and Recording of Quenching Intensity in Workshop Conditions Based on Temperature Gradients, Mater. Perform. Charac. 5 (2016) 202–219 [Google Scholar]
  11. B. Liscic, B. Smoljan, Evaluation of the Hardening Capacity of Low-Alloyed Steels Quenched by HPGQ in Vacuum Furnaces, Mater. Sci. Forum 879 (2016) 1807–1812 [CrossRef] [Google Scholar]
  12. A.G. Ksenofontov, B.A. Prusakov, S.Y. Shevchenko, Heat flow sensor, RF Patent 2221226. 7G01 K17/20, Byull. Izobr. Polezn. Modeli 1 (2004) [Google Scholar]
  13. D.V. Budrin, E.L. Sukhanov, V.M. Kondratov, Application of a prism-shape hot probe for determining the cooling capacity of quenching media, Izv. Vysh. Ucheb. Zaved. Chern. Metall. 2 (1966) 134–139 [Google Scholar]
  14. S.Y. Shevchenko, Determination of heat transfer coefficients of quenching media with the help of prismatic sensor, Tekhnol. Met. 5 (2009) 39–42 [Google Scholar]
  15. V.V. Goryushin, S.Y. Shevchenko, On The Use Of Polymer Quenchants In Industry, Metal Sci. Heat Treat. 52 (2010) 255–259 [CrossRef] [Google Scholar]
  16. N.I. Kobasko, Cooling Intensity Of Inverse Solubility Polyalkylene Glykol Polymers And Some Results Of Investigations Focused On Minimizing Distortion Of Metal Components, EUREKA: Phys. Eng. 2 (2017) 55–62 [CrossRef] [Google Scholar]
  17. M. Onan, H.I. Ünal, S.H. Atapek, C. Onan, Understanding Of Polymer Quenchant (Polyalkylene Glycol) Characteristic During Quenching Process Of Tool Steels, Int. J. Microstruct. Mater. Prop. 9 (2014) 71–78 [Google Scholar]
  18. S.Y. Shevchenko, A.E. Smirnov, I.V. Kirillov, N.A. Kurpyakova, A Study Of Quenching Cooling In Gaseous Atmospheres, Metal Sci. Heat Treat. 58 (2016) 461–465 [CrossRef] [Google Scholar]
  19. J. Jan, E. Prabhu, X. Chen, U. Weiss, Enhanced Heat Transfer Coefficient (HTC) Method to Model Air Quench Process: HTC Patching for More Accurate FEA Temperature Calculation SAE, Int. J. Passeng. Cars − Mech. Syst. 9 (2016) 489–496 [Google Scholar]
  20. B. Smoljan, D. Iljkic, G.E. Totten, Mathematical Modeling and Simulation of Hardness of Quenched and Tempered Steel, Metall. Mater. Trans. B 46B (2015) 2666–2673 [CrossRef] [Google Scholar]

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