2Kulka M, Pertek A, Makuch N. The concentration-depth profile beneath iron fatigue strength[J]. Materials Science and 528($29-30) : 8 641-8 650 importance borides for Engineering of carbon low-cycle A, 2011,. 被引量:1
3Selcuk B, Ipek R, Karamis M B,et al. An investigation on surface properties of treated low carbon and alloyed steels ( boriding and carburizing) [J]. Journal of Materials Processing Technology, 2000, 103(99) :310-317. 被引量:1
4Sen S, Sen U. The effect of boronizing and boro-ehromizing on tribologieal performance of AISI 52100 bearing steels [J]. Industrial Lubrication and Tribology, 2009, 61 (3) :146 - 153. 被引量:1
5Matsushita M. Boronization and carburization of superplastic stainless steel and titanium-based alloys [J]. Materials, 2011, 4 (7) : 1 309-1 320. 被引量:1
6Yu L G, Chen X J, Khor K A, et al. FeB/Fe2B phase transformation during SPS paek-boriding: boride layer growth kinetics[J]. Acta Materialia, 2005, 53(8) : 2 361 -2 368. 被引量:1
8Kulka M, Pertek A. Microstructure and properties of borocarburized 15CrNi6 steel after laser surface modification[J]. Applied Surface Science, 2004, 236 (S1-4) : 98-105. 被引量:1
9Kulka M, Pertek A. Gradient formation of beride layers by borocarburizing [J]. Applied Surface Science, 2008,254 ( 16 ) : 5 281-5 290. 被引量:1
10Kulka M, Makuch N, Pertek A, et al. An alternative method of gas boriding applied to the formation of borocarburized layer [J]. Materials Characterization, 2012,72(7) : 59 - 67. 被引量:1
