Relationship between various enhancement strategies and the quality of joints made by ultrasonic metal welding: A review

Z. Ni; J. Ma; Z. Yuan; A.A. Nazarov; J. Yang; Y. Wang

doi:10.48612/letters/2026-1-3-22

Relationship between various enhancement strategies and the quality of joints made by ultrasonic metal welding: A review

Z. Ni

, J. Ma, Z. Yuan, A.A. Nazarov, J. Yang, Y. Wang показать трудоустройства и электронную почту

Получена 12 августа 2025; Принята 07 декабря 2025;
Эта работа написана на английском языке

Цитирование: Z. Ni, J. Ma, Z. Yuan, A.A. Nazarov, J. Yang, Y. Wang. Relationship between various enhancement strategies and the quality of joints made by ultrasonic metal welding: A review. Письма о материалах. 2026. Т.16. №1. С.3-22

BibTex https://doi.org/10.48612/letters/2026-1-3-22

Аннотация

The research results from this review will generally be useful for the engineers, researchers and future study in USMW fields.

Ultrasonic metal welding (USMW), a prominent solid-state joining technique, stands out by producing joints with high strength and minimal electrical resistance while consuming far less energy than traditional welding methods. This unique combination makes it particularly well-suited for precision welding of small components and thin metal sheets across various industries. At present, USMW attracts growing attention and adoption within the automotive industry, with a particular surge in applications for new energy vehicles. Its ability to reliably join delicate battery components, conductive materials, and lightweight structures aligns perfectly with the sector’s demands for efficiency, durability, and innovation. This paper attempts to summarize the effect of various enhancement strategies employed in UMSW on the mechanical performance of joints, including the process parameter optimization, the weldability between materials and their combinations, the methods of the thermal assistance and implanting interlayer materials between interfaces of the metal sheets. Furthermore, the related application of numerical simulation and online monitoring techniques were introduced, which provided a desirable platform for explaining the joint formation process and improving the welding process robustness. In addition, the mechanism of USMWed interface bonding evolution was discussed in detail. The research results synthesized in this review will provide valuable information for engineers developing USMW systems, researchers exploring related mechanisms, and future studies aiming to advance innovations in the USMW fields.

Ссылки (94)

1. Z. L. Ni, J. J. Yang, S. Li, X. X. Wang, F. X. Ye, A review on ultrasonic spot welding of copper alloys, Mater. Sci. Technol. 36 (2020) 264 - 283

2. Z. L. Ni, F. X. Ye, Ultrasonic spot welding of aluminum alloys: A review, J. Manuf. Process. 35 (2018) 580 - 594

3. D. Bakavos, P. B. Prangnell, Mechanisms of joint and microstructure formation in high power ultrasonic spot welding 6111 aluminium automotive sheet, Mater. Sci. Eng. A 527 (2010) 6320 - 6334

4. Z. B. Sun, Z. M. Liang, L. W. Wang, Y. Liu, Y. M. Liang, D. L. Wang, Microstructure and mechanical properties of Al-Zn-Mg-Cu alloy joints welded by ultrasonic spot welding with soft specification, J. Manuf. Process. 116 (2024) 306 - 314

5. M. D. Leon, H. Shin, Weldability assessment of Mg alloy (AZ31B) sheets by an ultrasonic spot welding method, J. Mater. Process. Tech. 243 (2017) 1- 8

6. L. Zhou, J. Min, W. X. He, Y. X. Huang, X. G. Song, Effect of welding time on microstructure and mechanical properties of Al-Ti ultrasonic spot welds, J. Manuf. Process. 33 (2018) 64 - 73

7. M. P. Satpathy, S. K. Sahoo, Mechanical performance and metallurgical characterization of ultrasonically welded dissimilar joints, J. Manuf. Process. 25 (2017) 443 - 451

8. M. Annoni, M. Carboni, Ultrasonic metal welding of AA6022-T4 lap joints: Part I - Technological characterisation and static mechanical behaviour, Sci. Technol. Weld. Joi. 16 (2013) 107 -115

9. K. Nishihara, T. Watanabe, T. Sasaki, Effect of weld tip geometry on ultrasonic welding between steel and aluminum alloy, Adv. Mater. Res. 89 - 91 (2010) 419 - 424

10. D. Lee, W. Cai, The effect of horn knurl geometry on battery tab ultrasonic welding quality: 2D finite element simulations, J. Manuf. Process. 28 (2017) 428 - 441

11. S. Q. Xiang, X. F. Zhang, Dislocation structure evolution under electro plastic effect, Mater. Sci. Eng. A 761 (2019) 138026

12. L. H. Nong, C. H. Shao, T. H. Kim, S. J. Hu, Improving process robustness in ultrasonic metal welding of lithium-ion batteries, J. Manuf. Syst. 48 (2018) 45 - 54

13. J. Y. Lin, S. Nambu, K. Pongmorako, T. Koseki, Effect of surface roughness on bonding interface formation of steel and Ni by ultrasonic welding, Sci. Technol. Weld. Join. 25 (2020) 157 -163

14. M. P. Satpathy, S. K. Sahoo, Microstructural and mechanical performance of ultrasonic spot welded Al-Cu joints for various surface conditions, J. Manuf. Process. 22 (2016) 108 -114

15. S. Tokita, C. Y. Liu, Y. S. Sato, Effects of material combination for ultrasonic spot welding on microstructure and strength of Al / Al, Al / Cu, and Al / Ni dissimilar joints, J. Mater. Res. Technol. 26 (2023) 7619 - 7633

16. X. M. Cheng, K. Yang, J. Wang, W. T. Xiao, S. S. Huang, Ultrasonic system and ultrasonic metal welding performance: A status review, J. Manuf. Process. 84 (2022) 1196 -1216

17. Q. C. Ma, Y. C. Chao, W. W. Zhang, W. W. Zhao, H. T. Chen, M. Y. Li, Z. M. Liang, Y. Xiao, H. J. Ji, Low energy ultrasonic welding for Cu-Cu joining accelerated via Cu nanoparticles, J. Mater. Process. Tech. 296 (2021) 117210

18. Z. L. Ni, X. X. Wang, S. Li, F. X. Ye, Mechanical strength enhancement of ultrasonic metal welded Cu / Cu joint by Cu nanoparticles interlayer, J. Manuf. Process. 38 (2019) 88 - 92

19. T. Watanabe, S. Yamashita, M. Hiraishi, Effect of surface treatment on the ultrasonic weldability of AZ31B magnesium alloy plate, Keikinzoku 51 (2001) 521- 527

20. D. W. Zhao, D. X. Ren, K. M. Zhao, S. Pan, X. L. Guo, Effect of welding parameters on tensile strength of ultrasonic spot welded joints of aluminum to steel - By experimentation and artificial neural network, J. Manuf. Process. 30 (2017) 63 - 74

21. P. G. Mongan, E. P. Hinchy, N. P. O’Dowd, C. T. McCarthy, Optimisation of ultrasonically welded joints through machine learning, Procedia CIRP. 93 (2020) 527 - 531

22. Y. Q. Meng, C. H. Shao, Physics-informed ensemble learning for online joint strength prediction in ultrasonic metal welding, Mech. Syst. Signal. Pr. 181 (2022) 109473

23. J. P. Bergmann, T. Köhler, P. Pöthig, Chapter 7 - Ultrasonic welding, In: Advanced Joining Processes, Elsevier (2021) 239 - 267

24. V. K. Patel, S. D. Bhole, D. L. Chen, Influence of ultrasonic spot welding on microstructure in a magnesium alloy, Script. Mater. 65 (2011) 911- 914

25. H. S. Shin, M. D. Leon, Parametric study in similar ultrasonic spot welding of A5052-H32 alloy sheets, J. Mater. Process. Tech. 224 (2015) 222 - 232

26. M-N. Feng, Z. Luo, Interface morphology and microstructure of high-power ultrasonic spot welded Mg / Al dissimilar joint, Sci. Technol. Weld. Join. 24 (2019) 63 - 78

27. S. Kumar, C. S. Wu, G. K. Padhy, W. Ding, Application of ultrasonic vibrations in welding and metal processing: A status review, J. Manuf. Process. 26 (2017) 295 - 322

28. C. Y. Kong, R. C. Soar, P. M. Dickens, Characterisation of aluminium alloy 6061 for the ultrasonic consolidation process, Mater. Sci. Eng. A 363 (2003) 99 -106

29. D. S. Park, H. S. Jang, W. Y. Park, Tensile strength of Cu sheets welded by ultrasonic metal welding, Adv. Mater. Res. 658 (2013) 202 - 208

30. J. P. Kumar, Effect of temperature distribution in ultrasonically welded joints of copper wire and sheet used for electrical contacts, Materials 11 (2018) 1010

31. J. H. Ji, J. Z. Wang, M. Y. Li, Evolution of the bulk microstructure in 1100 aluminum builds fabricated by ultrasonic metal welding, J. Mater. Process. Technol. 214 (2014) 175 -182

32. S. Elangovan, Experimental and theoretical investigations on temperature distribution at the joint interface for copper joints using ultrasonic welding, Manuf. Rev. 1 (2014) 18

33. M. Baboi, D. Grewell, Evaluation of amplitude stepping in ultrasonic welding. Welding Journal, sponsored by the American welding society and the welding research council, 2010.

34. Z. Al-Sarraf, M. Lucas, A study of weld quality in ultrasonic spot welding of similar and dissimilar metals, J. Phys. 382 (2012) 28 - 31

35. Z. q. Zhu, K. Y. Lee, X. L. Wang, Ultrasonic welding of dissimilar metals, AA6061 and Ti6Al4V, Int. J. Adv. Manuf. Technol. 59 (2011) 569 - 574

36. M. Shakil, N. H. Tariq, M. Ahmad, M. A. Choudhary, J. I. Akhter, S. S Babu, Effect of ultrasonic welding parameters on microstructure and mechanical properties of dissimilar joints, Mater. Des. 55 (2014) 263 - 273

37. H. Li, B. Cao, Effects of welding pressure on high-power ultrasonic spot welding of Cu / Al dissimilar metals, J. Manuf. Process. 46 (2019) 194 - 203

38. H. Richter, Investigations into the processes involved when joining together metallic materials by means of ultrasonic welding, Schweiss. Und. Schneid. 22 (1970) 70 - 3.

39. A. Macwan, A. Kumar, D. L. Chen, Ultrasonic spot welded 6111-T4 aluminum alloy to galvanized high-strength low-alloy steel: Microstructure and mechanical properties, Mater. Des. 113 (2017) 284 - 296

40. Y. Y. Zhao, D. Li, Y. S. Zhang, Effect of welding energy on interface zone of Al-Cu ultrasonic welded joint, Sci. Technol. Weld. Join. 18 (2013) 354 - 360

41. C. Shao, K. T. Hyung, S. Hu. Jack, J. Jin, A. A. Bell, P. J. Spicer, Tool wear monitoring for ultrasonic metal welding of lithium-ion batteries, J. Manuf. Sci. Eng. 138 (2016) 51005

42. Y. H. Yang, Y. F. Zhang, Y. D. Cai, Q. Y. Lu, S. Coric, C. H. Shao, Hierarchical measurement strategy for cost-effective interpolation of spatiotemporal data in manufacturing, J. Manuf. Syst. 53 (2019) 159 -168

43. G. P. Liu, X. W. Hu, Y. S. Fu, Y. L. Li, Microstructure and mechanical properties of ultrasonic welded joint of 1060 aluminum alloy and T2 pure copper, Metals 7 (2017) 361

44. M. A. Murzinova, E. R. Shayakhmetova, A. A. Mukhametgalina, A. A. Sarkeeva, A. A. Nazarov, Local plastic deformation and quality of Cu-Cu joints obtained by ultrasonic welding, Metals 13 (2023) 1661

45. H. Imai, S. I. Matsuoka, Finding the optimum parameters for ultrasonic welding of aluminum alloys, Jmse. Int. J. 48 (2005) 311-316

46. H. S. Shin, M. D. Leon, Mechanical performance and electrical resistance of ultrasonic welded multiple Cu-Al layers, J. Mat. Process. Tech. 241 (2017) 141-153

47. H. S. Shin, M. D. Leon, Analysis of interface solid-state reaction on dissimilar ultrasonic spot welding of Al-Mg alloys, Met. Mater. Int. 23 (2017) 554 - 561

48. E. R. Shayakhmetova, M. A. Murzinova, A. A. Nazarov, Ultrasonic welding of nickel with coarse and ultrafine grained structures, Metals 11 (2021) 1800

49. E. R. Shayakhmetova, M. A. Murzinova, A. A. Mukhametgalina, A. A. Nazarov, Structure evolution in ultrafine-grained nickel induced by ultrasonic welding, Lett. Mater. 14 (2024) 91- 96

50. A. A. Mukhametgalina, Ì. A. Murzinova, A. A. Nazarov, Weld quality and microstructure development in ultrasonically welded titanium joints, Metall. Mater. Trans. A. 53 (2022) 1119 -1131

51. F. W. Müller, A. Schiebahn, U. Reisgen, Quality prediction of disturbed ultrasonic metal welds, J. Adv. Join. Process. 5 (2022) 100086

52. A. A. Mukhametgalina, E. R. Shayakhmetova, M. A. Murzinova, A. A. Nazarov, A. A. Sarkeeva, Effect of surface state on the quality of copper joints produced by ultrasonic welding, Lett. Mater. 14 (2024) 190 -197

53. K. K. Chen, Y. S. Zhang, Thermal-mechanical analysis of ultrasonic spot welding considering acoustic softening effect, Procedia. Eng. 81 (2014) 2217 - 2222

54. H. Huang, J. Chen, J. Cheng, Y. C. Lim, X. H. Hu, Z. L. Feng, X. Sun, Surface engineering to enhance heat generation and joint strength in dissimilar materials AZ31 and DP590 ultrasonic welding, Int. J. Adv. Manuf. Technol. 111 (2020) 3095 - 3109

55. Y. Luo, H. Chung, W. Cai, T. Rinker, S. J. Hu, E. Kannatey-Asibu, J. Abell, Joint formation in multilayered ultrasonic welding of Ni-coated Cu and the effect of preheating, J. Manuf. Sci. E-T. Asme 140 (2018) 111003

56. J. W. Yang, B. Cao, Investigation of resistance heat assisted ultrasonic welding of 6061aluminum alloys to pure copper, Mater. Des 74 (2015) 19 - 24

57. S. S. Lee, C. Shao, T. H. Kim, S. J. Hu, E. Kannayey-Asibu, W. Cai, J. P. Spicer, J. A. Abell, Characterization of ultrasonic metal welding by correlating online sensor signals with weld attributes, J. Manuf. Sci. Eng. - T ASME 136 (2014) 051019

58. Z. L. Ni, F. X. Ye, Dissimilar joining of aluminum to copper using ultrasonic welding, Mater. Manuf. Process. 31 (2016) 2091- 2100

59. H. M. Zhang, Y. J. Chao, Z. Luo, Effect of interlayer on microstructure and mechanical properties of Al-Ti ultrasonic welds, Sci. Technol. Weld. Join. 22 (2017) 79 - 86

60. H. Qi, F. X. Ye, H. W. Lu, Visualization of plastic flow in metal ultrasonic welding by adding interlayer, J. Manuf. Process. 83 (2022) 571- 575

61. R. Balasundaram, V. K. Patel, S. D. Bhole, D. L. Chen, Effect of zinc interlayer on ultrasonic spot welded aluminum-to-copper joints, Mater. Sci. Eng. A 607 (2014) 277 - 286

62. V. K. Patel, Bhole SD, Chen DL. Microstructure and mechanical properties of dissimilar welded Mg-Al joints by ultrasonic spot welding technique, Sci. Technol. Weld. Join. 17 (2012) 202 - 206

63. V. K. Patel, S. D. Bhole, D. L. Chen. Improving weld strength of magnesium to aluminium dissimilar joints via tin interlayer during ultrasonic spot welding, Sci. Technol. Weld. Join. 17 (2012) 342 - 347

64. S. S. Ao, M. P. Cheng, W. Zhang, J. P. Oliveira, S. M. Manladan, Z. Zeng, Z. Luo, Microstructure and mechanical properties of dissimilar NiTi and 304 stainless steel joints produced by ultrasonic welding, Ultrasonics 121 (2022) 106684

65. H. Peng, D. L. Chen, X. F. Bai, X. W. She, D. Y. Li, X. Q. Jiang, Ultrasonic spot welding of magnesium-to-aluminum alloys with a copper interlayer, microstructural evolution and tensile properties, J. Manuf. Process. 37 (2019) 91-100

66. H. Peng, D. L. Chen, X. F. Bai, P. Q. Wang, D. Y. Li, X. Q. Jiang. Microstructure and mechanical properties of Mg-to-Al dissimilar welded joints with an Ag interlayer using ultrasonic spot welding, J. Magnes. Alloy 8 (2020) 552 - 563

67. X. Y. Gu, C. L. Sui, J. Liu, D. L. Li, Z. Y. Meng, K. X. Zhu, Microstructure and mechanical properties of Mg / Al joints welded by ultrasonic spot welding with Zn interlayer, Mater. Des. 181 (2019) 108103

68. J. Y. Lin, S. Nambu, M. Liu, T. Koseki, Influence of Al and Ni interlayers on interfacial strength evolution during ultrasonic welding of ultra-low-carbon steel and pure Ti, Mater. Sci. Eng. A 798 (2020) 140073

69. S. S. Dash, S. Biswas, H. Peng, X. Q. Jiang, D. Y. Li, D. L. Chen, Deformation behavior of dissimilar ultrasonic spot-welded joints of a clad 7075 aluminum alloy to galvanized high-strength low-alloy steel, Mater. Sci. Eng. A 894 (2024) 146179

70. T. Watanabe, H. Itoh, A. Yanagisawa, M. Hiraishi, Ultrasonic welding of heat-treatable aluminium alloy A6061 sheet, Weld. Int. 23 (2009) 633 - 639

71. J. J. Yang, Z. L. Ni, A. A. Nazarov, Effect of alcohol on the mechanical and electrical properties of ultrasonic spot welded Cu / Cu joints, Metals 13 (2023) 21

72. E. Heymann, B. Koehler, Influence of the work piece preparation on ultrasonic Welding, ZIS-Mitteilungen 11 (1969) 180 -190.

73. S. Elangovan, S. Semeer, K. Prakasan, Temperature and stress distribution in ultrasonic metal welding - An FEA-based study, J. Mater. Process. Technol. 209 (2009) 1143 -1150

74. H. Li, B. Cao, J. Liu, J. W. Yang, Modeling of high-power ultrasonic welding of Cu / Al joint, Int. J. Adv. Manuf. Technol. 97 (2018) 833 - 844

75. A. Siddiq, E. Ghassemieh, Thermomechanical analyses of ultrasonic welding process using thermal and acoustic softening effects, Mech. Mater. 40 (2008) 982 -1000

76. N. G. Shen, A. Samanta, H. T. Ding, W. W. Cai, Simulating microstructure evolution of battery tabs during ultrasonic welding, J. Manuf. Process. 23 (2016) 306 - 314

77. J. W. Yang, J. Zhang, J. Qiao, Molecular dynamics simulations of atomic diffusion during the Al-Cu ultrasonic welding process, Materials 12 (2019) 2306

78. M. Shimaalsadat, B. Franz, M. Bernd, Molecular dynamics simulation of interface atomic diffusion in ultrasonic metal welding, Int. J. Adv. Manuf. Tech. 118 (2021) 2339 - 2353

79. A. A. Nazarov, D. V. Bachurin, Z. L. Ni, Atomistic Simulation of Ultrasonic Welding of Copper, Metals 12 (2022) 2033

80. R. T. Murzaev, M. A. Idrisova, A. A. Nazarov, Simulation of ultrasonic welding of copper: effect of the amplitude of vibrations, Lett. Mater. 14 (2024) 45 - 50

81. Y. Q. Meng, M. Rajagopal, G. Kuntumalla, R. Toro, H. Y. Zhao, H. C. Chang, S. Sundar, S. Salapaka, N. Miljkovic, P. Ferreira, S. Sinha, C. H. Shao, Multi-objective optimization of peel and shear strengths in ultrasonic metal welding using machine learning-based response surface methodology, Math. Biosci. Eng. 17 (2020) 7411- 7427

82. P. S. Mantra, B. M. Swayam, K. S. Susanta, Ultrasonic spot welding of aluminum-copper dissimilar metals: a study on joint strength by experimentation and machine learning techniques, J. Manuf. Process. 33 (2018) 96 -110

83. D. W. Zhao, K. M. Zhao, D. X. Ren, X. L. Guo, Ultrasonic welding of magnesium-titanium dissimilar metals: a study on influences of welding parameters on mechanical property by experimentation and artificial neural network, J. Manuf. Sci. Eng. - T ASME 139 (2017) 031019

84. Y. H. Yang, C. H. Shao. Hybrid multi-task learning-based response surface modeling in manufacturing, J. Manuf. Syst. 59 (2021) 607 - 616

85. S. S. Ao, C. J. Li, W. Zhang, M. P. Wu, Y. Dai, Y. Chen, Z. Luo. Microstructure evolution and mechanical properties of Al / Cu ultrasonic spot welded joints during thermal processing, J. Manuf. Process. 41 (2019) 307 - 314

86. X. M. Cheng, K. Yang, S. Z. Liu, S. L. Ji, J. Wang, Effect of ultrasonic welding process parameters on properties of copper conductor joint, Chin. J. Nonferr. Metal. 32 (2022) 3341- 3351

87. H. T. Fujii, H. Endo, Y. S. Sato, H. Kokawa, Interfacial microstructure evolution and weld formation during ultrasonic welding of Al alloy to Cu, Mater. Charact. 139 (2018) 233 - 240

88. Y. L. Li, Z. H. Chu, X. W. Li, Y. L. Pan, T. Yamaguchi, W. Q. Wang, Swirl-like Cu-Sn phase formation and the effects on the ultrasonic spot welded joint of Sn-coated Cu plates, J. Mater. Process. Technol. 288 (2021) 116911

89. J. W. Yang, B. Cao, Q. H. Lu, The effect of welding energy on the microstructural and mechanical properties of ultrasonic-welded copper joints, Materials 10 (2017) 193

90. Z. J. Zhang, K. F Wang, J. J. Li, Y. Qian, W. Cai, Investigation of interfacial layer for ultrasonic spot welded aluminum to copper joints, Sci. Rep. 7 (2017) 12505

91. S. S. Lee, T. H. Kim, S. J. Hu, W. W. Cai, J. A. Abell, J. Li, Characterization of joint quality in ultrasonic welding of battery tabs, J. Manuf. Sci. Eng. - T ASME 135 (2013) 021004

92. C. Q. Zhang, J. D. Robson, P. B. Prangnell, Dissimilar ultrasonic spot welding of aerospace aluminum alloy AA2139 to titanium alloy TiAl6V4, J. Mater. Process. Tech. 231 (2016) 382 - 388

93. K. K. Chen, Y. S Zhang, H. Z. Wang, Effect of acoustic softening on the thermal-mechanical process of ultrasonic welding, Ultrasonics 75 (2017) 9 - 21

94. G. S. Kelly, S. G. Advani, J. W. Gillespie, T. A. Bogetti, A model to characterize acoustic softening during ultrasonic consolidation, J. Mater. Process. Tech. 213 (2013) 1835 -1845

Финансирование на английском языке

1. National Natural Science Foundation of China - 52575380,51905171
2. Program for Science & Technology Innovation Talents in Universities of Henan Province - 24HASTIT045
3. National Foreign Experts Program - S20240015
4. State Assignment of the Institute for Metals Superplasticity Problems of the Russian Academy of Sciences - 124022900006-2

Relationship between various enhancement strategies and the quality of joints made by ultrasonic metal welding: A review

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Финансирование на английском языке

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