REFERENCES

1. Zhu S, Du W, Wang X, Han G, Ren Z, Zhou K. Advanced additive remanufacturing technology. Chin J Mech Eng Addit Manuf Front 2023;2:100066.

2. Xu BS. The remanufacturing engineering and automatic surface engineering technology. Key Eng Mater 2008;373-4:1-10.

3. Yin J, Chen S, Wong VK, Yao K. Thermal sprayed lead-free piezoelectric ceramic coatings for ultrasonic structural health monitoring. IEEE Trans Ultrason Ferroelectr Freq Control 2022;69:3070-80.

4. Huang J, Yao M, Yao X. A novel approach to improving the electromechanical properties of PZT-based piezoelectric ceramics via a grain coating modification strategy. Ceram Int 2021;47:16294-302.

5. Chen S, Tan CKI, Tan SY, Guo S, Zhang L, Yao K. Potassium sodium niobate (KNN)-based lead-free piezoelectric ceramic coatings on steel structure by thermal spray method. J Am Ceram Soc 2018;101:5524-33.

6. Xu G, Ren ZH, Weng WJ, Du PY, Han GR. Synthesis of perovskite Pb(Zr0.52Ti0.48)O3 (PZT) powders by a modified coprecipitation method. Key Eng Mater 2007;280-3:627-30.

7. Akedo J, Lebedev M. Microstructure and electrical properties of lead zirconate titanate (Pb(Zr52/Ti48)O3) thick films deposited by aerosol deposition method. Jpn J Appl Phys 1999;38:5397.

8. Guo R, Cross LE, Park SE, Noheda B, Cox DE, Shirane G. Origin of the high piezoelectric response in PbZr1-xTixO3. Phys Rev Lett 2000;84:5423-6.

9. Schäufele AB, Härdtl KH. Ferroelastic properties of lead zirconate titanate ceramics. J Am Ceram Soc 1996;79:2637-40.

10. Breboel K, Pedersen L, Wolny W. 3-3 composites with different ceramic phases-lead titanate zirconate and lead titanate. In: IEEE International Symposium on Applications of Ferroelectrics; 1990 Jun 06-08; Urbana-Champaign, IL, USA. IEEE; 2002. p. 18-21.

11. Santos DM, Simões AZ, Zaghete MA, Paiva-santos CO, Varela JA, Longo E. Synthesis and electrical characterization of tungsten doped Pb(Zr0.53Ti0.47)O3 ceramics obtained from a hybrid process. Mater Chem Phys 2007;103:371-4.

12. Gupta R, Verma S, Singh D, Singh K, Bamzai KK. Effect of Ni/Nb on structure, electrical and ferroelectric properties of 0.5PNN-0.5PZT ceramics. Process Appl Ceram 2015;9:1-9.

13. Monga S, Sharma N, Mehan N, Mishra YK, Singh A. Qualitative analysis of PZT (52/48) MPB using different synthesis methods. Ceram Int 2022;48:31111-20.

14. Liu Z, Xing Z, Wang H, Cui X, Jin G, Chen S. Fabrication and post heat treatment of 0.5Pb (Mg1/3Nb2/3)O3-0.5Pb(Zr0.48Ti0.52)O3 coatings by supersonic plasma spray. J Eur Ceram 2017;37:3511-9.

15. Krupanidhi SB, Maffei N, Sayer M, El-Assal K. rf planar magnetron sputtering and characterization of ferroelectric Pb(Zr,Ti)O3 films. J Appl Phys 1983;54:6601-9.

16. Seveno R, Limousin P, Averty D, Chartier JL, Le Bihan R, Gundel HW. Preparation of multi-coating PZT thick films by sol-gel method onto stainless steel substrates. J Eur Ceram Soc 2000;20:2025-8.

17. Fan SQ, Li CJ, Li CX, Liu GJ, Yang GJ, Zhang LZ. Preliminary study of performance of dye-sensitized solar cell of nano-TiO2 coating deposited by vacuum cold spraying. Mater Trans 2006;47:1703-9.

18. Akedo J, Ichiki M, Kikuchi K, Maeda R. Jet molding system for realization of three-dimensional micro-structures. Sens Actuator A Phys 1998;69:106-12.

19. Chun DM, Kim CS, Choi JO, Lee GY, Lee CS, Ahn SH. Multilayer deposition of ceramic and metal at room temperature using nanoparticle deposition system (NPDS) and planarization process. Int J Adv Manuf Technol 2014;72:41-6.

20. Moridi A, Hassani-Gangaraj SM, Guagliano M, Dao M. Cold spray coating: review of material systems and future perspectives. Surf Eng 2014;30:369-95.

21. Akedo J. Aerosol deposition of ceramic thick films at room temperature: densification mechanism of ceramic layers. J Am Ceram Soc 2006;89:1834-9.

22. Chun DM, Ahn SH. Deposition mechanism of dry sprayed ceramic particles at room temperature using a nano-particle deposition system. Acta Mater 2011;59:2693-703.

23. Akedo J. Room temperature impact consolidation (RTIC) of fine ceramic powder by aerosol deposition method and applications to microdevices. J Therm Spray Tech 2008;17:181-98.

24. Akedo J, Lebedev M. Powder preparation in aerosol deposition method for lead zirconate titanate thick films. Jpn J Appl Phys 2002;41:6980.

25. Ma K, Li CJ, Li CX. Narrow and thin copper linear pattern deposited by vacuum cold spraying and deposition behavior simulation. J Therm Spray Tech 2021;30:571-83.

26. Patil DR, Annapureddy V, Kaarthik J, Thakre A, Akedo J, Ryu J. Piezoelectric thick film deposition via powder/granule spray in vacuum: a review. Actuators 2020;9:59.

27. Fan SQ, Yang GJ, Li CJ, Liu GJ, Li CX, Zhang LZ. Characterization of microstructure of nano-TiO2 coating deposited by vacuum cold spraying. J Therm Spray Technol 2006;15:513-7.

28. Wang YY, Liu Y, Li CJ, Yang GJ, Kusumoto K. Electrical and mechanical properties of nano-structured TiN coatings deposited by vacuum cold spray. Vacuum 2012;86:953-9.

29. Chen X, Qiao X, Zhang L, et al. Temperature dependence of ferroelectricity and domain switching behavior in Pb(Zr0.3Ti0.7)O3 ferroelectric thin films. Ceram Int 2019;45:18030-6.

30. Shakeri A, Abdizadeh H, Golobostanfard MR. Effects of calcination parameters on the microstructure and morphology of PZT nanoparticles prepared by modified sol-gel method. Adv Mater Res 2012;576:326-9.

31. Surowiak Z, Kupriyanov MF, Czekaj D. Properties of nanocrystalline ferroelectric PZT ceramics. J Eur Ceram Soc 2001;21:1377-81.

32. Damjanovic D, Taylor DV, Setter N. Crystal structure and texture effects on piezoelectric and dielectric properties of PZT thin films. MRS Proc 1999;596:529-34.

33. Li P, Zhai J, Zeng H, Shen B, Li W, Zhao K. Crystallographic orientation dependence of piezoelectric and dielectric properties of BNT-based thin films. J Eur Ceram Soc 2016;36:3139-45.

34. Oikawa T, Aratani M, Funakubo H, Saito K, Mizuhira M. Composition and orientation dependence of electrical properties of epitaxial Pb(ZrxTi1-x)O3 thin films grown using metalorganic chemical vapor deposition. J Appl Phys 2004;95:3111-5.

35. Singh S, Kaur A, Kaur P, Singh L. Oxygen vacancies induced anomalies in the structural, ferroelectric and magnetic behaviour of sol-gel derived LaCoO3 modified Na0.5Bi0.5TiO3 ceramics. Mater Chem Phys 2022;279:125754.

36. Mar GL, Timbrell PY, Lamb RN. Factors influencing the chemical vapor deposition of oriented ZnO films using zinc acetate. Chem Mater 1995;7:1890-6.

37. Samantaray KS, Amin R, Ayaz S, et al. Room temperature magneto-dielectric coupling in the CaMnO3 modified NBT lead-free ceramics. Appl Phys A 2023;129:237.

38. Wang X, Wang S, Qi L, et al. Enhanced dielectric and piezoelectric properties of RF sputtered Pb(Zr0.60,Ti0.40)O3 thin films deposited on sol-gel derived Pb1+x(Zr0.40,Ti0.60)O3 seed layer with various lead contents. J Alloys Compd 2019;807:151660.

39. Ctibor P, Pala Z, Boldyryeva H, Sedláček J, Kmetík V. Microstructure and properties of plasma sprayed lead zirconate titanate (PZT) ceramics. Coatings 2012;2:64-75.

40. Okazaki K, Nagata K. Effects of grain size and porosity on electrical and optical properties of PLZT ceramics. J Am Ceram Soc 1973;56:82-6.

41. Singh P, Jha RK, Goswami M, Singh BR. Integration of perovskite Pb[Zr0.35Ti0.65]O3/HfO2 ferroelectric-dielectric composite film on Si substrate. Microelectron Int 2020;37:155-62.

42. Liu Y, Yang T, Wang H. Effect of La doping on structure and dielectric properties of PLZST antiferroelectric ceramics. J Mater Sci Mater Electron 2020;31:1509-14.

43. Zahn M. Physics of dielectrics for the engineer: by Roland Coelho, Fundamental Studies in Engineering, Vol. 1, Elsevier, Amsterdam, 1978, xi + 175 pages, Price US $ 40.00/Dfl. 90.00, ISBN 0-444-41755-9. J Electrostat 1979;6:381-5.

44. Xi XJ, Wang SY, Liu WF, et al. Modulation of electric conduction in La-Mg codoped multiferroic BiFeO3 ceramics. J Alloy Compd 2014;603:224-9.

45. Barick BK, Mishra KK, Arora AK, Choudhary RNP, Pradhan DK. Impedance and Raman spectroscopic studies of (Na0.5Bi0.5)TiO3. J Phys D Appl Phys 2011;44:355402.

46. Pansara PR, Raval PY, Vasoya NH, Dolia SN, Modi KB. Intriguing structural and magnetic properties correlation study on Fe3+-substituted calcium-copper-titanate. Phys Chem Chem Phys 2018;20:1914-22.

47. Ramesh R, Aggarwal S, Auciello O. Science and technology of ferroelectric films and heterostructures for non-volatile ferroelectric memories. Mater Sci Eng R Rep 2001;32:191-236.

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