[3] B。J。 Grifiths, Manufacturing Surface Technology – Surface Integrity & Functional Performance, Prenton Press – Kogan Page Ltd。, London, UK, 2001, 152-89。

[4] B。J。 Grifiths, Mechanisms of white layer generation with reference to machining Processes and Deformation Processes, Trans。 ASME - Journal Tribology 109/3, (1987) 525-39。

[5] C。R。 Liu, M。M。 Barash, The mechanical state of the sublayer or a surface generated by chip-removal process。 Trans。 of the ASME – Journal of Engineering for Industry 98/4 (1976) 1202-8。

[6] W。 Konig, R。 Komanduri, H。K。 Tönshoff, G。 Ackershott, Machining of hard materials, Ann。 CIRP 33/2 (1984) 417-27。

[7] H。K。 Tönshoff, C。 Arendt, R。  Ben  Amor,  Cutting of hardened steel, Ann。 CIRP 49/2 (2000) 547-566。

[8] H。 K。 Tönshoff, H。G。 Wobker, D。 Brandt, Hard turning - influence on the workpiece properties, Transactions of the NAMRI/SME 23 (1995) 215–20。

[9] M。A。 Fleming, C。 Sweeney, T。J。 Valentine, R。  Simpkin。 PCBN hard turning and workpiece surface integrity, Industrial Diamond Review 4/98 (1998) 128–33。

[10] A。M。 Abrao, D。K。 Aspinwall, M。L。 Wise, Tool Life and Workpiece Surface Integrity Evaluations when Machining Hardened AISI H13 and AISI E52100 Steels with Conventional Ceramic and PCBN Tool Materials, Proceedings of NAMRC XXIII Conference, Houghton, Michingan, USA, 1995, SME Technical Paper MR95-159。

[11] A。M。 Abrao, et al。, The tool wear, the cutting forces and temperature in the machining of roaling hardened steel, Máquinas e Metais 364 (1996) 84-97 (In Portuguese)。

[12] A。M。 Abrao, D。 Aspinwall, The  surface  integrity  of turned and ground hardened bearing steel, Wear 196 (1996) 279-84。

[13] Y。K。 Chou, Ch。J。 Evans, M。M。 Barash, Experimental investigation on CBN turning of hardened AISI 52100 steel, Journal of Materials Processing Technology 124 (2002) 274-83。

[14] F。 Klocke, E。 Brinksmeier, K。 Weinert, Capability profile of hard cutting and grinding processes, Ann。 CIRP 54/2 (2005) 557-80。

[15] G。 S。 Galoppi, M。 Stipkovic Filho, G。 F。 Batalha, Hard turning of tempered DIN 100Cr6 steel with coated and no coated CBN inserts, Journal of Materials Processing Technology 179/1-3(2006) 146-53。

[16] T。 Özel, Modeling of hard part preparation for CBN effect of inserts edge preparation for CBN cutting tools, Journal of Materials Processing Technology 141/2 (2003) 284–93。

[17] D。 Ulutan, B。E。 Alaca, I。 Lazoglu, Analytical modelling of residual stresses in machining, Journal of Materials Processing Technology183 (2007) 77-87。

[18] J。 Hua, D。 Umbrello, R。 Shivpuri, Investigation of cutting conditions and cutting edge preparations for enhanced compressive subsurface residual stress in the hard turning of bearing steel, Journal of Materials Processing Technology 171 (2006) 180-187。

[19] S。 Dolinsek, S。 Ekinovic, J。 Kopac, A contribution to the understanding of chip formation mechanism in high speed cutting of hardened steel, Journal of Materials Processing Technology 157-158 (2004) 485-490。

[20] W。 Grzesik, J。 Rech, T。 Wanat, Surface integrity of hardened steel parts in hybrid machining operations, Journal of Achievements in Materials and Manufacturing Engineering 18 (2006) 367-70。

[21] J。 Kopac, A。 Stoic, M。 Lucic,  Dynamic  instability  of the hard turning process, Journal of Achievements in Materials and Manufacturing Engineering 18 (2006) 373-76。

[22] F。 Gunnberg, M。 Escursell, M。 Jacobson, The influence of cutting parameters on residual stresses and surface topography during hard turning of 18MnCr5 case carburized steel, Journal of Materials Processing  Technology 174 (2006) 82-90。