Abstract
Taking Company A as an example, there are a total of 43 extrusion production lines with an annual production capacity of over 300000 tons. The iterative improvement of aluminum extrusion technology promotes the improvement of production efficiency, but also brings huge challenges to safety production. Aluminum extruders are prone to safety accidents during the processes of aluminum rod feeding, rod heating, die extrusion, quenching, interrupted cutting, traction, sawing and packaging, and crane lifting, where operators are exposed to risks during production. This article proposes safety management measures from three aspects through risk assessment and risk control of various operation links of aluminum extrusion machines. Firstly, it strengthens the intrinsic safety improvement of equipment; Secondly, establish a safety management system and regularly conduct safety training and emergency drills. The third is to strengthen the safety management of the team and establish a safety culture atmosphere for all employees. Safe production is the foundation of enterprise operation, and only by ensuring safety can normal production be guaranteed. This study provides a reference path for improving the safety management of aluminum extrusion lines.
References
[1] Yang, A., Yang, C., Xie, K., Xin, S., Xiong, Z., Li, K., You, Y. (2023) Benchmarking the safety performance of organic electrolytes for rechargeable lithium batteries: A thermochemical perspective. ACS Energy Letters, 8(1), 836-843.
[2] Wei, R., Yao, S. (2021) Enterprise financial risk identification and information security management and control in big data environment. Mobile Information Systems, 2021(1), 7188327.
[3] Zhou, W., Shao, Z., Yu, J., Lin, J. (2021) Advances and trends in forming curved extrusion profiles. Materials, 14(7), 1603.
[4] Ferrari, A., Gurrì, S., Vento, O. (2024) Injected Fuel Mass and Flow Rate Control in Internal Combustion Engines: A Systematic Literature Review. Energies, 17(24), 6455.
[5] Bhowmik, P. K., Sabharwall, P. (2023) Sizing and Selection of Pressure Relief Valves for High-Pressure Thermal-Hydraulic Systems. Processes, 12(1), 21.
[6] Amyotte, P. R., Khan, F. I. (2021) The role of inherently safer design in process safety. The Canadian Journal of Chemical Engineering, 99(4), 853-871.
[7] Min, S. N., Kim, S., Kang, C. (2023) Efficient safety management plan for industrial accident prevention of hazardous machinery: focus on safety certification system and regulations in South Korea. Safety science, 165, 106201.
[8] Bristol-Alagbariya, B., Ayanponle, O. L., Ogedengbe, D. E. (2022) Developing and implementing advanced performance management systems for enhanced organizational productivity. World Journal of Advanced Science and Technology, 2(1), 39-46.
[9] Tambare, P., Meshram, C., Lee, C. C., Ramteke, R. J., Imoize, A. L. (2021) Performance measurement system and quality management in data-driven Industry 4.0: A review. Sensors, 22(1), 224.
[10] Akano, O. A., Hanson, E., Nwakile, C., Esiri, A. E. (2024) Integrating sustainability and safety in high-risk industries: A framework for balancing operational efficiency and environmental responsibility. Global Journal of Research in Multidisciplinary Studies, 2(02), 027-037.
Share and Cite
Shan, H. (2024) Research on Risk Management Strategies for Aluminum Profile Extrusion Production Lines. Scientific Research Bulletin, 1(6), 36-50.