[1] Khor K A, Dong Z L, Gu Y W. Plasma sprayed functionally graded thermal barrier coatings[J]. Materials Letters, 38, 437-444(1999).

[2] Lei G L, Chen F, Zhang S T et al. Structure thermal load analysis and application research in the continuous aeroheating environment[J]. Science Technology and Engineering, 13, 3343-3349, 3371(2013).

[3] Hao J J, Li J C, Yang S H et al. TiN/Al2O3-reinforced composite coating prepared by reactive nitrogen-arc cladding process[J]. Welding in the World, 60, 169-175(2016).

[4] Neralla S, Kotoka R, Fialkova S et al. Effect of Fe and Ni nanoparticles on the structure and mechanical properties of alumina thin films[J]. Composites Part B: Engineering, 96, 255-263(2016).

[5] Mikhaylov V I, Krivoshapkina E F, Belyy V A et al. Magnetic mesoporous catalytic and adsorption active Fe-Al2O3 films[J]. Microporous and Mesoporous Materials, 284, 225-234(2019).

[6] Bai Y, Wang Z H, Zuo J J et al. Fe-based composite coating prepared by laser cladding and its heat and corrosion resistance[J]. Chinese Journal of Lasers, 47, 1002001(2020).

[7] Yue T M, Li T. Laser cladding of Ni/Cu/Al functionally graded coating on magnesium substrate[J]. Surface and Coatings Technology, 202, 3043-3049(2008).

[8] Guan Z J, Jiang J T, Yan S J et al. Sandwich-like cobalt/reduced graphene oxide/cobalt composite structure presenting synergetic electromagnetic loss effect[J]. Journal of Colloid and Interface Science, 561, 687-695(2020).

[9] Liu Y N, Gu M, Sun R L et al. Microstructure and properties of in-situ TiC/Ti2Ni composite coating prepared via laser cladding on titanium alloy[J]. Chinese Journal of Lasers, 48, 1402011(2021).

[10] Wilson J M, Shin Y C. Microstructure and wear properties of laser-deposited functionally graded Inconel 690 reinforced with TiC[J]. Surface and Coatings Technology, 207, 517-522(2012).

[11] Farotade G A, Popoola P A, Popoola O M. Compositional effect of Zr-containing ceramic on phase and microstructural evolution of Ti-SiC laser clad coatings[J]. Surface Engineering, 35, 266-272(2019).

[12] Sowdari D, Majumdar P. Finite element analysis of laser irradiated metal heating and melting processes[J]. Optics & Laser Technology, 42, 855-865(2010).

[13] He X D, Zhang J X, Pei Y et al. Effects of heat input on laser welding residual stress and distortion of TC4 titanium alloy[J]. Rare Metal Materials and Engineering, 36, 774-777(2007).

[14] Shu L S, Wang J S, Bai H Q et al. Numerical and experimental investigation on laser cladding treatment of wear shaft surface[J]. Journal of Mechanical Engineering, 55, 217-223(2019).

[15] Li J H, An X J, Yao F P et al. Simulation on thermal stress cycle in laser cladding of H13 steel Ni-based coating[J]. Chinese Journal of Lasers, 48, 1002104(2021).

[16] Chew Y, Pang J H L, Bi G J et al. Thermo-mechanical model for simulating laser cladding induced residual stresses with single and multiple clad beads[J]. Journal of Materials Processing Technology, 224, 89-101(2015).

[17] Shah K, Khurshid H, Haq I U et al. Numerical modelling of pulsed and continuous wave direct laser deposition of Ti-6Al-4V and Inconel 718[J]. The International Journal of Advanced Manufacturing Technology, 95, 847-860(2018).

[18] Farahmand P, Kovacevic R. An experimental-numerical investigation of heat distribution and stress field in single- and multi-track laser cladding by a high-power direct diode laser[J]. Optics & Laser Technology, 63, 154-168(2014).

[19] Walker T R, Bennett C J, Lee T L et al. A validated analytical-numerical modelling strategy to predict residual stresses in single-track laser deposited IN718[J]. International Journal of Mechanical Sciences, 151, 609-621(2019).

[20] Chen C, Wang J H, Yang H Q. Thermal elasto-plastic analysis of heat-processed stresses by finite element method[J]. Chinese Quarterly of Mechanics, 5, 39-46(1984).

[21] Tao W Q[M]. Heat transmission science, 4-13(2006).

[22] Cheng J H, Chen L, Yu Y S. Research progress of welding heat source model[J]. Welding Technology, 33, 13-15(2004).

[23] Rubenchik A M, Wu S S, Kanz V K et al. Temperature-dependent 780-nm laser absorption by engineering grade aluminum, titanium, and steel alloy surfaces[J]. Optical Engineering, 53, 122506(2014).

[24] Tang C M, Zhao F, Chen X X et al. THermite reaction of Al and α-Fe2O3 at the nanometer interface: ab initio molecular dynamics study[J]. Acta Physica Sinica, 62, 247101(2013).

[25] Li W T, Huang B H, Bi Z B[M]. Theoretical analysis and application of thermal stress, 59-65(2004).

[26] Zhu M X, Xu X, Li Y M et al. Research status on metal-toughed alumina ceramics[J]. China Ceramics, 48, 10-13(2012).

[27] Guo Y W. Effect of different doping on the mechanical and thermal properties of Al2O3-based composite ceramics material[D], 31-35(2019).

[28] Xu C H, Huang C Z, Deng J X et al. Oxidation behavior and strength characteristics of particle reinforced Al2O3/SiC/(W, Ti)C composite ceramic tool materials[J]. Journal of Chinese Society for Corrosion and Protection, 21, 32-39(2001).