Abstract
In the current leaf spring production, side bending is an important issue affecting the quality of leaf spring. Once the leaf spring is bent, the strength of the product will be greatly reduced. Moreover, leaf springs will not be assembled and will be directly assessed as “waste products”. It is common that we will straighten the leaf spring with a punch immediately after blanking. But after the data analysis of the whole production process, we found many meaningful data. In the following processes, such as the spring eye, heating, quenching and shot blasting, there is a high probability that side bending will occur again, which greatly affects the product precision and reduces the production efficiency. After analyzing the collected data, it has been found that the application of the infrared sensitive technology in hot straightening machines can greatly improve the efficiency of the straightening machines. Besides, the transformation and upgrading of the whole production process can be promoted by solving the problem of the side bending of the leaf spring as a breakthrough. Therefore, it is of great significance to combine the infrared sensitive technology with hot straightening machines.
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References
Jayakumar, P., Alanoly, J., Johnson, R.: Three-link leaf-spring model for road loads. SAE Technical Paper, pp. 85–106 (2005)
Kong, Y.S., Omar, M.Z., Chihuahua, L.B.: Fatigue life prediction of parabolic leaf spring under various road condition. Eng. Fail. Anal. 46, 92–103 (2014)
Al-Obaidi, A.J., Ahmed, S.J., Sukar, H.M.: The effect of factors on the flexural of the composite leaf spring. Mater. Today Proc. 20(09), 566–571 (2020)
Ke, J., Qian, C., Zhenyu, W., Xudong, H., Yuan, Y.: A theoretical model used for determining the stiffness of composite leaf springs with a main spring and an auxiliary spring. J. Braz. Soc. Mech. Sci. Eng. 42(4), 1121–1129 (2019)
Cue, Z.P., Li, M., Li, Y.H.: A simplified flexible multistory dynamics for a main landing gear with flexible leaf spring. Shock Vib. 2014, 95–116 (2014)
Wang, X., Zhang, Z., Peng, Z.: Development and technology of large thickness TMCP steel plate with 390MPA grade used for engineering machinery. HSLA Steels Microalloying Offshore Eng. Steels 16(4), 816–821 (2016)
Ren, Z., Xiao, H., Liu, X., et al.: Experimental and theoretical analysis of roll flattening in the deformation zone for ultra-thin strip rolling. Ironmaking Steelmaking 45(9), 805–812 (2017)
Katoh, T., Urata, E., Nakanishi, M., et al.: Control for straightening process of seamless pipe. JSME Int. J. Ser. 3 Vib. Control Eng. Eng. Ind. 34(3), 427–432 (1991)
Maksimov, E.A., Shatalov, R.L.: A study of the parameters for hot straightening of thick steel plates on a roller straightening machine. Metallurgist 62(1–2), 132–137 (2018)
Acknowledgements
This work was supported by Key R & D projects in Zibo City (Project No. 2019ZC010063).
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Sun, Y. (2021). Application of the Infrared Sensitive Technology in Hot Straightening Machines Based on Data Analysis. In: Atiquzzaman, M., Yen, N., Xu, Z. (eds) Big Data Analytics for Cyber-Physical System in Smart City. BDCPS 2020. Advances in Intelligent Systems and Computing, vol 1303. Springer, Singapore. https://doi.org/10.1007/978-981-33-4572-0_45
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DOI: https://doi.org/10.1007/978-981-33-4572-0_45
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