Drinking water-type fluorosis is the most harmful endemic disease in China with the largest number of sufferers. Although the implementation of the policy to alter water sources to lower fluoride level has effectively...Drinking water-type fluorosis is the most harmful endemic disease in China with the largest number of sufferers. Although the implementation of the policy to alter water sources to lower fluoride level has effectively controlled the spread of this kind of endemic disease,its prevalence could not thoroughly be stopped because the high-fluoride environmental background in these endemically diseased areas could still do harm to human health through food chain. Therefore,it is necessary to conduct a more deep-going study on the drinking water-type fluoro-sis. To investigate the effect of high fluorine environmental background on crops and human health in the hot spring-type fluorosis-diseased areas,local water,paddy soil,rice,whole vegetables and soils around their roots were sampled for analysis. The results were compared with those of the control groups in fluorosis-free areas which are similar to the fluorosis-diseased areas both in natural background and in social background. It is indicated that rice and vegetables can accumulate water-soluble fluorine either in soils or in irrigating water,and different crops have different abilities of fixing fluorine. The contents of fluorine in different parts of vegetables in the fluorosis-diseased and fluorosis-free areas were statistically categorized. The results showed that the fluorine contents of roots,tubers,leaves and flowers of vegetables in the fluorosis-diseased areas are 3.56,1.17,3.07 and 3.23 mg/kg,respectively. However,comparisons showed that in the fluorosis-free areas,the fluorine contents are 2.17,0.70,1.91 and 2.52 mg/kg,respectively. Moreover,different parts of a crop also show significantly different fluorine fixation abilities. It is demonstrated that the fluorine contents of the strongly metabolic parts are relatively high. For example,the fluo-rine contents of roots,leaves and flowers of vegetables are much higher than those of stems. The fluorine fixation ability of seeds is very weak. In order to reduce the risk of human body’s exposure to fluoride,the impact of hot spring water on the capability of crops to fix fluorine should be reduced as much as possible. It is of great importance to prevent crops from being irrigated with hot spring water and it is advisable to grow crops with relatively low ca-pabilities to enrich fluorine,such as those with seeds or tubers as the main edible parts in the areas which are se-verely affected by hot spring water.展开更多
In this paper,we investigate the effective properties of three-phase(matrix/coating/fiber)cylindrical piezoelectric composites with imperfect interfaces under anti-plane mechanical and in-plane electrical loads.By usi...In this paper,we investigate the effective properties of three-phase(matrix/coating/fiber)cylindrical piezoelectric composites with imperfect interfaces under anti-plane mechanical and in-plane electrical loads.By using the electromechanically coupling spring-type interface model and the generalized self-consistent method(GSM),we analytically derived the effective electroelastic moduli.The present solutions include as special cases the three-phase cylindrical piezoelectric composites with perfect interfaces as well as the two-phase(matrix/fiber)case with imperfect or perfect interfaces.Selected calculations are graphically shown to demonstrate dependence of the effective moduli on the interfacial properties.The particular size-dependent characteristic due to the interfacial imperfection is also discussed.展开更多
为优化不同降水年型下春小麦高产稳产和高效利用水氮资源的管理决策方案,利用2009-2012年内蒙古自治区额尔古纳市上库力农场试验站与拉布大林农场试验站春小麦(内麦19)的试验观测资料,确定APSIM-wheat模型中小麦生长发育关键参数;基于...为优化不同降水年型下春小麦高产稳产和高效利用水氮资源的管理决策方案,利用2009-2012年内蒙古自治区额尔古纳市上库力农场试验站与拉布大林农场试验站春小麦(内麦19)的试验观测资料,确定APSIM-wheat模型中小麦生长发育关键参数;基于校准后的APSIM-wheat模型模拟分析1967-2017年雨养条件下春小麦生长发育过程,并依据降水量划分了3种降水年型(干旱、平水和湿润年型),根据土壤水分亏缺指数(soil water deficit on photosynthesis,SWD_(ef))确定最优水分管理时期;设计8个灌溉量梯度(15、30、45、60、90、120、150和180 mm)和13个施N量梯度(30、45、60、75、90、105、120、150、180、210、240、270和300 kg·hm^(-2))情景模式,结合水氮管理决策的遴选关键指标[水分利用效率(water use efficiency,WUE)、氮肥利用效率(nitrogen use efficiency,NUE)和产量],探究不同气候年型下最优春小麦水氮管理模式。结果表明:(1)校准后的APSIM-wheat模型春小麦发育期模块(出苗期、抽穗期和成熟期)模拟值与观测值的均方根误差(root mean square error,RMSE)在1.17~3.64 d范围内,归一化均方根误差(normalized root mean square error,NRMSE)在0.82%~1.90%范围内;产量模块模拟值与观测值的RMSE为371.50 kg·hm^(-2),NRMSE为8.54%,说明APSIM-wheat模型可以较好地反映不同降水年型下小麦的动态生长发育过程。(2)雨养条件下春小麦分蘖期—拔节期、拔节期—抽穗期和抽穗期—开花期的SWD_(ef)较低,且在生育期内仅灌溉一次的前提下,拔节期灌溉可以减轻干旱胁迫并显著提高产量。(3)干旱、平水和湿润年型春小麦拔节期最优水氮管理模式分别为灌溉量60 mm和施氮量105 kg·hm^(-2)、灌溉量60 mm和施氮量120 kg·hm^(-2)、灌溉量30 mm和施氮量150 kg·hm^(-2),其产量分别为4810.96±551.43、5378.06±768.86和6421.33±454.09 kg·hm^(-2)。展开更多
通过工业生产试验,使用FEI Explorer 4自动扫描电镜,研究不同冶炼工艺对弹簧钢55SiCr盘条夹杂物的影响。结果表明,与使用普通合金、Si-Al脱氧、RH真空工艺的55SiCr相比,取消RH工艺55SiCr盘条氧化物夹杂物成分变化小,但数量密度、面积分...通过工业生产试验,使用FEI Explorer 4自动扫描电镜,研究不同冶炼工艺对弹簧钢55SiCr盘条夹杂物的影响。结果表明,与使用普通合金、Si-Al脱氧、RH真空工艺的55SiCr相比,取消RH工艺55SiCr盘条氧化物夹杂物成分变化小,但数量密度、面积分数大幅升高(升幅超过150%),平均成分为35%CaO-27%SiO_(2)-31%Al_(2)O_(3)的氧化物夹杂物在RH工序去除效率69.5%。与使用普通合金、Si-Al脱氧工艺的55SiCr相比,使用优质合金、Si脱氧工艺55SiCr钢中[Al]含量由60×10^(-6)降低到17×10^(-6),平均成分发生明显变化17%CaO-49%SiO_(2)-25%Al_(2)O_(3)氧化物夹杂物变形性能较好,CaO-Al_(2)O_(3)-MgO系氧化物夹杂物几近消失,数量密度、面积分数大幅减少(降幅超过80%)。随着钢中[Ti]含量升高(12×10^(-6)、61×10^(-6)、67×10^(-6)),55SiCr盘条中TiN类夹杂物数量密度(0.02、0.46、0.64个/mm^(2))、面积分数(0.00001%、0.00035%、0.00057%)均呈升高趋势。对于弹簧钢55SiCr氧化物夹杂物控制,可选择Si-Al脱氧+RH真空工艺,也可选择Si脱氧+LF精炼工艺,使用优质合金可降低钢中[Al]、[Ti]含量,大幅减少CaO-Al_(2)O_(3)-MgO系和TiN类夹杂物数量密度。展开更多
基金financially supported jointly by the National Natural Science Foundation of China (Grant No.40601004)the Scientific and Technological Project of the Educa-tion Department of Jiangxi Province (No. GJJ08032)+1 种基金the K.C. Wong Education FoundationHong Kong and China’s Post-doctoral Science Funds
文摘Drinking water-type fluorosis is the most harmful endemic disease in China with the largest number of sufferers. Although the implementation of the policy to alter water sources to lower fluoride level has effectively controlled the spread of this kind of endemic disease,its prevalence could not thoroughly be stopped because the high-fluoride environmental background in these endemically diseased areas could still do harm to human health through food chain. Therefore,it is necessary to conduct a more deep-going study on the drinking water-type fluoro-sis. To investigate the effect of high fluorine environmental background on crops and human health in the hot spring-type fluorosis-diseased areas,local water,paddy soil,rice,whole vegetables and soils around their roots were sampled for analysis. The results were compared with those of the control groups in fluorosis-free areas which are similar to the fluorosis-diseased areas both in natural background and in social background. It is indicated that rice and vegetables can accumulate water-soluble fluorine either in soils or in irrigating water,and different crops have different abilities of fixing fluorine. The contents of fluorine in different parts of vegetables in the fluorosis-diseased and fluorosis-free areas were statistically categorized. The results showed that the fluorine contents of roots,tubers,leaves and flowers of vegetables in the fluorosis-diseased areas are 3.56,1.17,3.07 and 3.23 mg/kg,respectively. However,comparisons showed that in the fluorosis-free areas,the fluorine contents are 2.17,0.70,1.91 and 2.52 mg/kg,respectively. Moreover,different parts of a crop also show significantly different fluorine fixation abilities. It is demonstrated that the fluorine contents of the strongly metabolic parts are relatively high. For example,the fluo-rine contents of roots,leaves and flowers of vegetables are much higher than those of stems. The fluorine fixation ability of seeds is very weak. In order to reduce the risk of human body’s exposure to fluoride,the impact of hot spring water on the capability of crops to fix fluorine should be reduced as much as possible. It is of great importance to prevent crops from being irrigated with hot spring water and it is advisable to grow crops with relatively low ca-pabilities to enrich fluorine,such as those with seeds or tubers as the main edible parts in the areas which are se-verely affected by hot spring water.
基金supported by the National Natural Science Foundation of China(Grant No.11372227)Specialized Research Fund for the Doctoral Program of Higher Education(Grant No.20130072110037)Partial support from the Fundamental Research Funds for the Central Universities is also acknowledged
文摘In this paper,we investigate the effective properties of three-phase(matrix/coating/fiber)cylindrical piezoelectric composites with imperfect interfaces under anti-plane mechanical and in-plane electrical loads.By using the electromechanically coupling spring-type interface model and the generalized self-consistent method(GSM),we analytically derived the effective electroelastic moduli.The present solutions include as special cases the three-phase cylindrical piezoelectric composites with perfect interfaces as well as the two-phase(matrix/fiber)case with imperfect or perfect interfaces.Selected calculations are graphically shown to demonstrate dependence of the effective moduli on the interfacial properties.The particular size-dependent characteristic due to the interfacial imperfection is also discussed.
文摘为优化不同降水年型下春小麦高产稳产和高效利用水氮资源的管理决策方案,利用2009-2012年内蒙古自治区额尔古纳市上库力农场试验站与拉布大林农场试验站春小麦(内麦19)的试验观测资料,确定APSIM-wheat模型中小麦生长发育关键参数;基于校准后的APSIM-wheat模型模拟分析1967-2017年雨养条件下春小麦生长发育过程,并依据降水量划分了3种降水年型(干旱、平水和湿润年型),根据土壤水分亏缺指数(soil water deficit on photosynthesis,SWD_(ef))确定最优水分管理时期;设计8个灌溉量梯度(15、30、45、60、90、120、150和180 mm)和13个施N量梯度(30、45、60、75、90、105、120、150、180、210、240、270和300 kg·hm^(-2))情景模式,结合水氮管理决策的遴选关键指标[水分利用效率(water use efficiency,WUE)、氮肥利用效率(nitrogen use efficiency,NUE)和产量],探究不同气候年型下最优春小麦水氮管理模式。结果表明:(1)校准后的APSIM-wheat模型春小麦发育期模块(出苗期、抽穗期和成熟期)模拟值与观测值的均方根误差(root mean square error,RMSE)在1.17~3.64 d范围内,归一化均方根误差(normalized root mean square error,NRMSE)在0.82%~1.90%范围内;产量模块模拟值与观测值的RMSE为371.50 kg·hm^(-2),NRMSE为8.54%,说明APSIM-wheat模型可以较好地反映不同降水年型下小麦的动态生长发育过程。(2)雨养条件下春小麦分蘖期—拔节期、拔节期—抽穗期和抽穗期—开花期的SWD_(ef)较低,且在生育期内仅灌溉一次的前提下,拔节期灌溉可以减轻干旱胁迫并显著提高产量。(3)干旱、平水和湿润年型春小麦拔节期最优水氮管理模式分别为灌溉量60 mm和施氮量105 kg·hm^(-2)、灌溉量60 mm和施氮量120 kg·hm^(-2)、灌溉量30 mm和施氮量150 kg·hm^(-2),其产量分别为4810.96±551.43、5378.06±768.86和6421.33±454.09 kg·hm^(-2)。
文摘通过工业生产试验,使用FEI Explorer 4自动扫描电镜,研究不同冶炼工艺对弹簧钢55SiCr盘条夹杂物的影响。结果表明,与使用普通合金、Si-Al脱氧、RH真空工艺的55SiCr相比,取消RH工艺55SiCr盘条氧化物夹杂物成分变化小,但数量密度、面积分数大幅升高(升幅超过150%),平均成分为35%CaO-27%SiO_(2)-31%Al_(2)O_(3)的氧化物夹杂物在RH工序去除效率69.5%。与使用普通合金、Si-Al脱氧工艺的55SiCr相比,使用优质合金、Si脱氧工艺55SiCr钢中[Al]含量由60×10^(-6)降低到17×10^(-6),平均成分发生明显变化17%CaO-49%SiO_(2)-25%Al_(2)O_(3)氧化物夹杂物变形性能较好,CaO-Al_(2)O_(3)-MgO系氧化物夹杂物几近消失,数量密度、面积分数大幅减少(降幅超过80%)。随着钢中[Ti]含量升高(12×10^(-6)、61×10^(-6)、67×10^(-6)),55SiCr盘条中TiN类夹杂物数量密度(0.02、0.46、0.64个/mm^(2))、面积分数(0.00001%、0.00035%、0.00057%)均呈升高趋势。对于弹簧钢55SiCr氧化物夹杂物控制,可选择Si-Al脱氧+RH真空工艺,也可选择Si脱氧+LF精炼工艺,使用优质合金可降低钢中[Al]、[Ti]含量,大幅减少CaO-Al_(2)O_(3)-MgO系和TiN类夹杂物数量密度。
