初始条件对砂含水率测试精度的影响
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摘要
采用微波法含水率测定仪在传感器安装角度10°~90°,砂含泥量0. 5%~3. 5%,细度模数2. 2~3. 2以及松散堆积和紧密堆积2种堆积状态下测试了砂的含水率。结果表明:微波法含水率测定仪传感器的安装角度介于30°~60°时测量值相对集中,误差偏小,测试精度高,最佳安装角度为40°~50°;含泥量波动对含水率测试精度影响较小,测试结果均未超出0. 3%的误差限值;砂细度模数在2. 4~2. 8波动对测试精度的影响基本可以忽略,太细或者太粗的砂则难以保证含水率的测试精度;初始含水率越高,砂的堆积状态对测试精度的影响越大。因此,微波法含水率测定仪使用前应选择与现场堆积状态相一致的砂料进行基线校准。
The moisture content of sand was measured by microwave moisture meter at the sensor installation angle of 10° ~90°, sand mud content of 0. 5%~3. 5%,f ineness modulus of 2. 2~3. 2 under two packing states of loose and tight accumulation.The results show that when the sensor installation angle of microwave moisture meter is between30° ~60°,the measurement value is relatively concentrated,the error is small,the measurement accuracy is high,and the optimum installation angle is 40° ~ 50°. The fluctuation of mud content has little influence on the accuracy of moisture content measurement and the test results do not exceed the error limit of 0. 3%. The influence of sand fineness modulus fluctuating between 2.4 and 2.8 on test accuracy can be neglected,while it is difficult for too fine or too coarse sand to guarantee the test accuracy of moisture content.The higher the initial moisture content,the greater the effect of sand packing state on test accuracy is.Therefore,we should select sand material,which state is consistent with the packing state in the field,for baseline calibration before by using the microwave moisture meter.
The moisture content of sand was measured by microwave moisture meter at the sensor installation angle of 10° ~90°, sand mud content of 0. 5%~3. 5%,f ineness modulus of 2. 2~3. 2 under two packing states of loose and tight accumulation.The results show that when the sensor installation angle of microwave moisture meter is between30° ~60°,the measurement value is relatively concentrated,the error is small,the measurement accuracy is high,and the optimum installation angle is 40° ~ 50°. The fluctuation of mud content has little influence on the accuracy of moisture content measurement and the test results do not exceed the error limit of 0. 3%. The influence of sand fineness modulus fluctuating between 2.4 and 2.8 on test accuracy can be neglected,while it is difficult for too fine or too coarse sand to guarantee the test accuracy of moisture content.The higher the initial moisture content,the greater the effect of sand packing state on test accuracy is.Therefore,we should select sand material,which state is consistent with the packing state in the field,for baseline calibration before by using the microwave moisture meter.
引文
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[2]都广雄.水泥混凝土搅拌设备砂含水率在线检测技术研究[D].西安:长安大学,2015.
[3]黄原信.砂石含水量测量系统研究[D].武汉:华中科技大学,2009.
[4]楼梁伟,朱长华,何龙,等.骨料含水率在线检测系统的开发与应用[J].铁道建筑,2016,56(1):92-95.
[5]王传忠.电阻式谷物水分检测仪机械结构对其测量精度的影响[D].合肥:安徽农业大学,2017.
[6]李作良,王慧萍,胡留现,等.电容法水分测定仪测量结果的不确定度评定[J].河南科技大学学报,2006,27(4):15-17.
[7]赵春江,王成,乔晓军.电阻式土壤含水量传感器的设计与开发[J].中国科技成果,2004,24(12):57-58.
[8]彭育,高艳斌,石敦祥.红外线在线检测细骨料含水率技术在混凝土生产中的应用[J].重庆建筑,2018,17(3):50-52.
[9]黎泽伦,黄志诚,黄友均,等.微波水分测量仪的设计[J].农业机械学报,2009,40(2):81-83.
[10]楼梁伟,朱长华,何龙,等.骨料含水率在线检测系统开发与应用[J].铁道建筑,2016,56(1):92-95.
[11]中华人民共和国国家质量监督检验检疫总局,中国国家标准化管理委员会.建筑用砂:GB/T 14684—2011[S].北京:中国标准出版社,2012.
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