采用电子称量法,以铁红防锈漆为工质,研究了高压无气喷涂中雾化压力、喷嘴等效孔径、喷涂距离等主要工艺参数对涂料转移率的影响规律。结果表明,高压无气喷涂的涂料转移率随喷嘴等效孔径的增大而增大,随喷涂距离的增大而减小,随雾化压力的增大呈现先增大后减小的变化趋势。在多参数共同影响下,涂料转移率存在一个最优点,喷嘴等效孔径为0.48mm,雾化压力为12MPa,喷涂距离为250mm时可得到最优的涂料转移率。
The influencing laws of high-pressure airless spraying working parameters such as spray pressure, equivalent diameter of nozzle and spray distance on the transfer efficiency of paint were studied by electronic weighing method and iron red antirust paint as working fluid. Experimental results show that the transfer efficiency of paint for high-pressure airless spraying increased with the increase of the equivalent diameter of nozzle, decreased with the increase of the spray distance, and increased firstly and then decreases with the spray pressure. With the comprehensive influence of multiple parameters, the transfer efficiency of paint showed an optimal point, at which the working parameters for the equivalent diameter of nozzle was 0.48 ram, the atomizing pressure was 12 MPa and the spray distance was 250 ram. The study results can provide the reference for working parameter selection of high pressure airless spraying.
参考文献
| [1] | 张明.浅谈机器人喷涂的膜厚控制[J].现代涂料与涂装,2006(06):31-33. |
| [2] | 赵瑞海.水工金属结构设备防腐高压无气喷涂施工工艺[J].水科学与工程技术,2011(03):90-91. |
| [3] | 李敏风.重防腐涂料无气喷漆法的若干技术关键[J].上海涂料,2010(05):44-48. |
| [4] | 曾敏生.影响涂料利用率因素及改进措施[J].涂料工业,2005(05):54-56. |
| [5] | Michael W.Plesniak;Paul E.Sojka;Anshul K.Singh .Transfer Efficiency for Airless Painting Systems[J].JCT research,2004(2):137-145. |
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