出 处:《农业工程学报》2016年第21期271-276,共6页Transactions of the Chinese Society of Agricultural Engineering
基 金:国家自然科学基金项目(51265001);甘肃省自然科学基金(1506RJZA021);甘肃农业大学伏羲青年英才培养计划项目(FXYC20130103);甘肃农业大学青年导师基金项目(GAU-QNDS-201405)
摘 要:植物磨料磨损是辊式制粉工业中磨辊磨损失效的主要原因,热处理工艺是磨辊材料(低铬白口铁)表面硬度强化的一般手段。该文选用与辊式制粉工况相似的磨损试验机进行试验,利用正交试验考察了不同工艺参数热加工对低铬白口铁抗小麦粉料磨损性能的影响,并择选出最优工艺组合。基于最优工艺组合,以低铬白口铁原始件为参照,综合质量损失、磨痕特征及扫描电镜形貌等手段提取磨损特征,考察最优热处理工艺对低铬白口铁抗小麦粉料磨损性能的强化效果。试验推荐最优热处理工艺组合为:960℃(1 h)空淬+250℃(2 h)回火,实际生产推荐最优热处理工艺组合为:基于960℃淬火+250℃回火的表面热加工;经最优热加工工艺处理的低铬白口铁的磨损质量损失约为原始试样质量损失的42%,铸态组织内共晶碳化物断网现象明显,以半连续网状或孤立块状分布于基体;被磨面沟槽宽深度与棱脊峰谷值等磨痕特征及金属元素含量有所降低,试样硬度显著增加;磨损形式主要为微观切削、多次塑性变形与低周期疲劳磨损。该研究可为磨辊耐磨性能的提升以及降低加工过程对面粉的金属污染提供参考。The wear of plant abrasive is the main reason to roller wear failure in wheat roller milling industry, while the heat treatment is the general strengthening means of surface hardness of low chromium white iron which is usually used as roller material. In this paper, 3 principles of abrasive wear were applied, and low chromium white iron was chosen as the test samples and wheat powder was chosen as abrasive. The wear test was conducted on wear test machine under the similar work process of industrial roller milling. The test was divided into 2 phases. In the first phase, 9 groups of samples were heat treated with different process parameters according to the design of orthogonal test, and then cooled to the room temperature by air cooling. The wear tests of wheat powder were conducted for all 9 groups of samples under room temperature condition for 2 h. The wear tests repeated 3 times and the average quality losses were recorded. The various factors of heat treatment process were sorted by SPSS(statistical product and service solutions) statistical analysis software. The effects of the factors in heat treatment process were analyzed, and the optimum process was obtained using Duncan multiple comparison. In the second phase, 2 groups of samples under identical conditions were contrasted. The first group of samples had not been heat treated, and the second had been heat treated according to the optimum heat treatment process. The wear test in the second phase contained 5 test cycles, and each cycle was conducted for 2 h. The various wear characteristics were analyzed, such as wear quality losses, and feature of wear surface; the metallographic examination, the energy dispersive spectrometer analysis and the scanning electron microscope morphology were performed. Then the reinforcement effects of heat treatment under the optimum heat treatment technology were investigated. The results showed that the optimum heat treatment technology is 960 ℃ with 1 h air quenching and 250 ℃ with 2 h tempering. The recommenda
关 键 词:机械化 优化 农作物 磨料磨损 小麦制粉 磨辊 白口铁 热处理
分 类 号:TH117.1[机械工程—机械设计及理论]
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