Keywords
Mixing ratio
Adjustment
Production efficiency
Submitted : 2025-05-07
Accepted : 2025-05-22
Published : 2025-06-06
Abstract
Through the analysis of the actual situation and process of painting industrial steel components in Hechang Company, we have modified the mixing ratio of paint, thinner, and curing agent. Additionally, we have effectively adjusted the drying time of various paint types under different seasons and temperatures. Eventually, a painting solution suitable for our company has been developed. According to this process, the painting quality has been significantly improved, costs have been saved, the labor intensity has been reduced, and production efficiency has been remarkably enhanced.
References
Wang Z, Qu Z, Ma C, et al., 2024, Optimization Design of the Process Layout in the Assembly Workshop. Engineering Construction & Design, (21): 119–121.
Gu C, Bao Z, 2020, Optimization Design and Reconstruction of the Clean Coal Belt in the Coal Preparation Plant. Famous City Painting, (2): 1.
Wu E, Mei Y, Zhang S, et al., 2023, Optimization Design of Centrifugal Cleaning Fans. Fluid Machinery, 51(4): 66–72.
Dai Z, Xie D, Wang H, et al., 2023, Numerical Simulation and Optimization Design of the Airflow Organization in an Ice-making Clean Workshop. Science Technology and Engineering, 23(28): 12225–12233.
Zhao Y, Chen Y, Tang Z, 2021, Optimization Design of the Layout of a Double-row Production Line in the Melamine-board Workshop. Machinery Design & Manufacture, (04): 301–304.
Niu Y, Cao Q, Li X, et al., 2024, Optimization Design of the Production Scheduling in the Painting Workshop Based on Plant Simulation. Industrial Control Computer, 37(12): 114–115 + 117.
Liu Y, Huang Y, Yan W, et al., 2024, Research and Implementation of Flexible Facility Layout Optimization in Machining Shop. Mechanical Engineer, (11): 14–18.
Wang W, Wu J, Wang J, et al., 2024, Optimization of Key Process Equipment in the Intelligent Assembly Workshop of Excavators. Mechanical & Electrical Engineering Technology, 53(01): 77–80.
Guo L, 2022, Research on the Energy-consumption Optimization Management System for the Sheet Metal Forming Workshop in Wheel Production. Journal of Longyan University, 40(2): 46–51.
Gao Y, Liu Z, 2020, Optimal Design of Control System for Large Power Plant Auxiliary Workshop. Chemical Industry Automation & Instrumentation, 47(06): 533–537.
Ren M, Jin J, Peng J, 2024, Influences and Countermeasures of Painting Shop Color Change Frequency. Modern Paint & Finishing, 27(03): 20–21 + 24.
Huang Y, 2024, Optimization Design of the Structure of the Unloading Hopper Based on the Inventor Parametric Model. New Century Cement Guide, 30(3): 55–59.
Ding J, Ding X, Fang Y, 2024, Research on the Intelligent Scheduling Model and Algorithm for the Workshop. Die & Mould Manufacture, 24(4): 252–254.
Han L, Qu Y, 2022, The Design Method of the Front Bush Pressure. Boiler Manufacturing, (1): 35–37.
Qi X, Lin B, Ge K et al., 2022, Optimization Design of the Fire-prevention and Explosion-proof System for the Dust-removal System in the Metal Polishing Workshop. Shandong Chemical Industry, 51(07): 177–179.