Fatigue properties of 48MnV steel with twin arc spraying 3Cr13 coatings

Guo-qing Zhang; Bing Su; Geng-qiang Pu; Cheng-tao Wang

doi:10.1007/s11771-005-0021-1

Journal of Central South University ›› 2005, Vol. 12 ›› Issue (2) : 112 -118. DOI: 10.1007/s11771-005-0021-1

Closed-ling Product Life Cycle Monitoring And Marinntenance

Fatigue properties of 48MnV steel with twin arc spraying 3Cr13 coatings

Author information +

History +

PDF

Abstract

The fatigue behaviors of 48MnV steel, both uncoated and coated with different thicknesses of 3Cr13 deposits using twin arc spraying, were investigated. The fatigue properties of the 48MnV steel, determined under axial loading conditions, can be substantially decreased by coating 3Cr13 films, deposited by twin arc spraying. And the fatigue behavior of the thinner coatings is better than that of the thicker ones, of which the fatigue limits decrease by 9%–14%. The decrease in fatigue life attributes to the less mechanical properties of the coatings in comparison with those of the substrate, their relative bad bonding strength and trapped oxide or Al₂O₃ particles retain in the matrix after blasting responsible for the initiation of fatigue cracks.

Keywords

48MnV steel / 3Cr13 stainless steel / fatigue / arc spraying

Cite this article

Download citation ▾

Guo-qing Zhang, Bing Su, Geng-qiang Pu, Cheng-tao Wang. Fatigue properties of 48MnV steel with twin arc spraying 3Cr13 coatings. Journal of Central South University, 2005, 12(2): 112-118 DOI:10.1007/s11771-005-0021-1

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	XuBing-shi, LiuShi-can, MaShi-ming, et al.Surface Engineering [M], 2001, Beijing, Mechanical Industry Press(in Chinese)

[2]	Jandin G, Liao H, Coddet C. Chinese surface engineering society[A]. Proceedings of International Conference on Advanced Manufacturing Technology[C]. Xi’an, 1999. 102–105. (in Chinese)

[3]	QU Bin, ZHU Shi-gen, GU Wei-sheng, et al. An review on arc spraying technology[J]. Machinery Design & Manufacture, 2004, (6): 86–88. (in Chinese)

[4]	ZHANG Xiu-hui, SUO Shuang-fu, QI Chun-ying, et al. Advances and applications of arc spraying technology[J]. New Technology and Process, 2003, (12): 42–44. (in Chinese)

[5]	Berrios J A, Teer D G, Puchi-Cabrera E S. Fatigue properties of a 316L stainless steel coated with different TiN_x deposits[J]. Surface and Coatings Technology, 2001, (148): 179–190.

[6]	Padilla K, Velasquez A, Berrlos J A, et al. Fatigue behavior of a 4140 steel coated with a NiMoAl deposit applied by HVOF thermal spray[J]. Surface and Coatings Technology, 2002, (150): 151–162.

[7]	Guzmana C, Dlaza N, Berrlosb J A, et al. Fatigue properties of a SAE 4340 steel coated with a Nimet HP autocatalytic nickel deposit[J]. Surface and Coatings Technology, 2000, (133–134): 561–571.

[8]	Baragetti S, La Vecchia G M, Terranov A. Fatigue behavior and FEM modeling of thin-coated components [J]. International Journal of Fatigue, 2003, (25): 1229–1238.

[9]	Stoibera M, Panzenböckb M, et al. Fatigue properties of Ti-based hard coatings deposited onto tool steels [J]. Surface and Coatings Technology, 2001, 142–144: 117–124.

[10]	GaoZhen-tongFatigue Property Tests[M], 1980, Beijing, Industry of National Defense Press(in Chinese)

[11]	DuanFu-chang. Study on the propertie s of 3Crl3 tube liner coatings prepared by high speed electrie arc spraying[J]. Journal of Xiangtan Normal University, 1999, 20(6): 86-88

[12]	DONG Li-xian, WANG Yong, et al, Influence of arc spraying parameters on stability of 3Cr13 coatings [J]. Pipeline Technique and Equipment, 2005, (1): 33–35. (in Chinese)

[13]	XuYi, et al.. Study on active protection arc spray technology[J]. Journal of Tongji University, 2001, 29(9): 1122-1125(in Chinese)

[14]	LiangXiu-bing, XuBin-shi, et al.. Measurement and analysis of high velocity arc spraying technique characteristics [J]. Chinese Journal of Mechanical Engineering, 2002, 38(2): 57-60