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F Klocke (2009)
Manufacturing processes 2: grinding, honing, lapping
EM Taleff, M Nagao (1996)
High-strain-rate superplasticity in ultrahigh-carbon steel containing 10 wt.% Al (UHCS-10Al)Scripta Mater, 34
J Webster, M Tricard (2004)
Innovations in abrasive products for precision grindingCIRP Ann, 53
B Denkena, T Grove, MA Dittrich, C Beiler, M Lahres (2015)
Effects of alloying elements in UHC-steels and consequences for the machinabilityCIRP J Manuf Sci Technol, 10
B Denkena, J Koehler, MA Dittrich (2014)
Chip formation and tool wear in turning of aluminum-alloyed UHC-steelsProd Eng Res Dev, 8
T Oyama, OD Sherby (1984)
Application of the divorced eutectoid transformation to the development of fine-grained, spheroidized structures in ultrahigh carbon steelsScripta Metall Mater, 18
K Nadolny (2015)
Wear phenomena of grinding wheels with sol–gel alumina abrasive grains and glass ceramic vitrified bond during internal cylindrical traverse grinding of 100Cr6 steelInt J Adv Manuf Technol, 77
B Denkena, T Grove, M-A Dittrich (2015)
Flow stress and temperature considerations for orthogonal cutting of an aluminium-alloyed UHC-steelProd Eng Res Dev, 9
Recently developed aluminum-alloyed ultra-high carbon steels (UHC-steels) show a high potential for industrial lightweight applications due to their exceptional mechanical properties at a reduced density of 6.7–6.9 g/cm3. However, due to its low thermal conductivity and embedded carbides, the grinding of this material is challenging. In this paper, the grindability of UHC-steel with conventional grinding wheels with a resin bond is investigated. It was shown that it is possible to productively grind UHC-steel if highly porous grinding wheels are used with sintered alumina as abrasive material.
The International Journal of Advanced Manufacturing Technology – Springer Journals
Published: Oct 18, 2017
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