Microstructure and Friction and Wear Properties of Laser Cladded Fe-Cr-Mo-Si Alloy Coating

Yue Dong; Linsen Shu; Ran Lin

doi:10.3788/LOP202158.1914007

[1] Min H. The study on the weldability of 1MnCrMoNi alloy steel and Q235 carbon steel[J]. Key Engineering Materials, 861, 71-76(2020).

[2] Li Y, Li Y L, Li X W. Microstructure and properties of Fe-based amorphous coating on Q235 steel substrate by TIG welding[J]. Materials Reports, 34, 18135-18138(2020).

[3] Cao F J, Zhang Y, Shen Y F et al. Effects of beam offset on the macro defects, microstructure and mechanical behaviors in dissimilar laser beam welds of SDSS2507 and Q235[J]. Journal of Manufacturing Processes, 55, 335-347(2020).

[4] Qin Z B, Wu Z, Hu W B. Application and progress of surface engineering technology[J]. The Chinese Journal of Nonferrous Metals, 29, 2192-2216(2019).

[5] Wang J S, Shu L S. Laser cladding remanufacturing and repair of agricultural tractor spindle[J]. Laser & Optoelectronics Progress, 57, 071404(2020).

[6] Xu B S, Xia D, Tan J Y et al. Status and development of intelligent remanufacturing in China[J]. China Surface Engineering, 31, 1-13(2018).

[7] Zhang K Z, He C W, Lin Y Y et al. Microstructures and mechanical properties of laser cladding repaired 5A06 alloys[J]. Laser & Optoelectronics Progress, 57, 011408(2020).

[8] Zhu H M, Hu J P, Li B C et al. Research progress of laser cladding stainless steel coating on Fe-based substrate[J]. Surface Technology, 49, 74-84(2020).

[9] Tong W H, Zhang X Y, Li W X et al. Effect of laser process parameters on the microstructure and properties of TiC reinforced Co-based alloy laser cladding layer[J]. Acta Metallurgica Sinica, 56, 1265-1274(2020).

[10] Xu Z F, Jiao J K, Zhang Z et al. Research on laser repair process of Ni-based superalloy[J]. Materials Reports, 33, 3196-3202(2019).

[11] Wang Z W, Zhang H, Zhao C. Study on microstructure and properties of TiC-Fe45-based composite coating by argon tungsten-arc cladding[J]. Surface Technology, 43, 51-54, 75(2014).

[12] Chen J F, Li X P, Xue Y P. Friction and wear properties of laser cladding Fe901 alloy coating on 45 steel surface[J]. Chinese Journal of Lasers, 46, 0502001(2019).

[13] Qi Q, Chai R X, Zhang H J et al. Effect of rotating speed on wear resistance of laser cladding iron base alloy[J]. Applied Laser, 40, 50-55(2020).

[14] Fu H, Zhu W, Zheng S W et al. Effects of load on friction and wear properties of Cf/SiC composites prepared by SLS[J]. China Mechanical Engineering, 30, 2604-2610(2019).

[15] Wang W, Cui H Z, Wang Z N et al. Microstructure and wear mechanism of induction quenching 50CrMo4 steel[J]. Transactions of Materials and Heat Treatment, 36, 62-68(2015).

[16] Liu S, Jiang X, Zhao H C et al. Corrosion resistance and wear property of graphene-epoxy coatings[J]. Tribology, 35, 598-605(2015).

[17] Rahiman A H S, Smart D S R, Wilson B et al. Dry sliding wear analysis of Al5083/CNT/Ni/MoB hybrid composite using DOE Taguchi method[J]. Wear, 460, 203471(2020).

[18] Xu D H, Li F X, Li X N et al. Mesoscale modeling of the crystallization parameters identification during the iron-based catalyst preparation process: the dilute concentration case[J]. Applicable Analysis, 99, 2191-2209(2020).

[19] Zhao D P, Guo J Q, Li X. Structure and wear behavior of Cu/graphite composite coating electroplated on TC4 alloy[J]. Rare Metal Materials and Engineering, 49, 2861-2868(2020).