Effects of free iron oxyhydrates and soil organic matter on copper sorption-desorption behavior by size fractions of aggregates from two paddy soils

Effects of free iron oxyhydrates （Fed） and soil organic matter （SOM） on copper （Cu^2＋） sorption-desorption behavior by size fractions of aggregates from two typical paddy soils （Ferric-Accumulic Stagnic Anthrosol （Soil H） and Gleyic Stagnic Anthrosol （Soil W）） were investigated with and without treatments of dithionite-citrate-bicarbonate and of H2O2. The size fractions of aggregates were obtained from the undisturbed bulk topsoil using a low energy ultrasonic dispersion procedure. Experiments of equilibrium sorption and subsequent desorption were conducted at soil water ratio of 1：20, 25℃. For Soil H, Cu^2＋ sorption capacity of the DCB-treated size fractions was decreased by 5.9% for fine sand fraction, by 40.4% for coarse sand fraction, in comparison to 2.9% for the bnlk sample. However, Cu^2＋ sorption capacities of the H2O2-treated fractions were decreased by over 80% for the coarse sand fraction and by 15% for the clay-sized fraction in comparison to 88% for bulk soil. For Soil W, Cu^2＋ sorption capacity of the DCB-treated size fraction was decreased by 30% for the coarse sand fraction and by over 75% for silt sand fraction in comparison to 44.5% for the bulk sample. Cu^2＋ sorption capacities of the H2O2-treated fractions were decreased by only 2.0% for the coarse sand fraction and by 15% for the fine sand fraction in comparison to by 3.4% for bulk soil. However, Cu^2＋ desorption rates were increased much in H2O2-treated samples by over 80% except the clay-sized fraction （only 9.5%） for Soil H. While removal of SOM with H2O2 tendend to increase the desorption rate, DCB- and H2O2-treatments caused decrease in Cu^2＋ retention capacity of size fractions, Particularly, there hardly remained Cu^2＋ retention capacity by size fractions from Soil H after H2O2 treatment except for clay-sized fraction. These findings supported again the dominance of the coarse sand fraction in sorption of metals and the preference of absorbed metals bound to SOM in differently stabilized status among the size fractions. Thus, enrichment and turnover of SOM in paddy soils may have great effects on metal retention and chemical mobility in paddy soils.

Relationship Between Iron Oxides and Surface Charge Characteristics in Soils

The relationship between iron oxides and surface charge characteristics in variable charge soils ( latosol and red earth ) was studied in following three ways. ( 1 ) Remove free iron oxides ( Fed ) and amorphous iron oxides ( Feo ) from the soils with sodium dithionite and acid ammonium oxalate solution respectively. ( 2 ) Add 2% glucose ( on the basis of air-dry soil weight ) to soils and incubate under submerged condition to activate iron oxides, and then the mixtures are dehydrated and air-dried to age iron oxides. ( 3 ) Precipitate various crystalline forms of iron oxides onto kaolinite. The results showed that free iron oxides ( Fed ) were the chief carrier of variable positive charges. Of which crystalline iron oxides ( Fed-Feo ) presented mainly as discrete particles in the soils and could only play a role of the carrier of positive charges, and did little influence on negative charges. Whereas the amorphous iron oxides ( Feo ) , which presented mainly as a coating with a large specific surface area, not only had positive charges, but also blocked the negative charge sites in soils. Submerged incubation activated iron oxides in the soils, and increased the amount of amorphous iron oxides and the degree of activation of iron oxide, which resulted in the increase of positive and negative charges of soils. Dehydration and air-dry aged iron oxides in soils and decreased the amount of amorphous iron oxides and the degree of activation of iron oxide, and also led to the decrease of positive and negative charges. Both the submerged incubation and the dehydration and air-dry had no significant influence on net charges. Precipitation of iron oxides onto kaolinite markedly increased positive charges and decreased negative charges. Amorphous iron oxide having a larger surface area contributed more positive charge sites and blocked more negative charge sites in kaolinite than crystalline goethite.

土壤游离铁CS AAS测定方法的验证

为提高游离铁的检测效率,本研究对游离铁(Fed)的测定(DCB法)提取液在原子吸收光谱仪上的检测进行验证。使用CS AAS上机时对特征参数包括标准曲线、检出限、检出下限、精密度、准确度进行验证及确认。确定线性范围为0~7.0 mg/L,非线性拟合回归方程相关系数0.999 8、检出限0.005 3 g/kg、检出下限0.021 g/kg。普通土壤样品检测精密度相对相差小于10%,相对标准偏差小于1.9%,满足方法中平行测定质量控制要求和《化学分析方法验证确认和内部质量控制要求》。对高、中、低3个有证标准物质进行6次测定,相对误差小于10%,满足正确度的要求,上机测试数据稳定可靠。

Thermodynamic data calculation for iron phases in sulfoaluminate cementitious materials prepared using solid wastes

The preparation of sulfoaluminate cementitious materials(SCM)is a promising way to massively utilize solid wastes.Iron phases are significant in SCM system but the thermodynamic data of some key minerals,such as6 CaO·Al2 O3·2 Fe2 O3(C6 AF2)and 6 CaO·2 Al2 O3·Fe2 O3(C6 A2 F),are missing,which greatly hinders the SCM optimization in a theoretical way.This work,for the first time,calculated the standard formation enthalpy,Gibbs free energy of formation,entropy and molar heat capacity for C6 AF2 and C6 A2 F and lowered the errors to the least with the reference of C4 AF data in the literature.By building the function diagram of Gibbs free energy changes with temperature for the basic iron phase formation reactions with the obtained thermodynamic data,it is proved that the formation likeliness of C6 AF2 is higher than that of C6 A2 F,as is accordant to the literatures and verifies the correctness of obtained data.This work provides a good theoretical foundation to optimize SCM mineral system and to study relevant mechanism deeply.

Effects of Calcium and Magnesium on Phosphorus Availability in Ferralsols and Rice Production in Forest Zones of Côte d’Ivoire

Phosphorus bioavailability has long been a recurring problem in tropical acid soils. A pot experiment was carried out during three (3) successive rice production cycles at Adiopodoumé to evaluate the response of the NERICA 5 rice accession to various doses of calcium, magnesium and phosphorous. The experiment was conducted using a randomized split-plot design. The interactive effects of calcium carbonate (0, 25, 50 and 75 kg·Ca·ha-1) and magnesium sulfate (0, 25, 50 and 75 kg·Mg·ha-1) and Togo natural phosphate (0, 25, 50 and 75 kg·P·ha-1) were determined at each production cycle. The results showed that single-dose natural phosphate supplementation for three cropping cycles resulted in an average enrichment of around 2 mg·P·kg-1 after each trial following its continuous dissolution, with an increase in DSP (33.31% to 70.52%). The study revealed one strategy for managing and enhancing native P with cations and another for exogenous P: there would be a synergy of Ca/Mg on native P, whereas an antagonism would characterize the two parameters in phosphate fertilization.

Preparation and characterization of iron-ore-imbedded silicone rubber materials for radiation protection

Iron-ore-imbedded silicone rubber materials were produced for radiation shielding. Samples were tested against a Co-60 gamma source, which is widely used in nuclear technology and medicine. Decreasing the particle size of iron ore resulted in better gamma radiation protection owing to more homogenous distribution. In addition, the materials had flexible properties up to the addition of 60 wt% iron ore content. Further, 0.5 mm Pb E gamma protection was provided by using 2.06-mm-thick SDT-60 as the Co-60 source. Iron ore–silicone rubber composites are candidate materials for lead-free flexible radiation protection systems owing to their relatively inexpensive and easy production.

干湿循环下花岗岩残积土胶结物溶蚀-微结构演化规律与力学行为

花岗岩残积土中的游离氧化铁粒间胶结作用使其具有高结构性和水敏性.因此,在干湿循环过程中,粒间胶结氧化物被溶蚀,残积土表现出结构崩解重组和复杂的剪切变形特性.为进一步研究干湿循环过程中花岗岩残积土中游离氧化铁溶蚀造成的土体组构变化及其对力学性能弱化的影响,进行一系列的宏微观试验以揭示不同干湿循环次数(0、1、2、4)下残积土的复杂力学特性.研究结果表明,随着干湿循环次数的增加,花岗岩残积土的应力-应变关系将由弱应变硬化型逐渐转变为应变软化状态.微观分析表明游离氧化铁会促使黏土颗粒胶结形成团聚体,随着干湿循环的进行其含量逐渐降低最终趋于稳定.此外,原状残积土粒度分布(PSD)曲线呈现明显的双峰,然后在干湿循环或去除氧化铁后转变为单峰曲线.反复干湿循环会削弱残积土的胶结结构特性,进而导致土体出现明显的软化特征.在剪切过程中,残积土首先表现出剪切收缩特性,随后出现明显的扩张趋势.随着干湿循环次数增加,残积土的有效黏聚力逐渐减小,但有效内摩擦角呈现逐渐增加的趋势.干湿循环过程中花岗岩残积土复杂的力学性能特点是不可逆的体积收缩和胶粒含量的变化以及微裂缝发展之间的耦合效应.

卟啉类化合物和游离铁对鸡胸肉肌原纤维蛋白理化特性的影响

为了解卟啉铁及其产生的原卟啉和游离铁对鸡胸肉肌原纤维蛋白(MP)和肉品品质的影响,本研究分别用原卟啉(PPIX)、卟啉铁(Hemin)和游离铁(FeCl3)结合加热处理鸡胸肉,并测定鸡胸肉肌原纤维蛋白的结构和理化性质的变化。结果表明,卟啉铁、游离铁和原卟啉会使MP的溶解度显著降低(P<0.05),浊度增加,平均粒径从空白加热组的531 nm分别增加到1 280 nm、955 nm和712 nm,说明鸡胸肉肌原纤维蛋白发生了交联聚集;卟啉铁和游离铁能促进蛋白质羰基的生成(P<0.05),而原卟啉处理对蛋白质羰基含量没有显著改变(P>0.05),但三者均可引起蛋白质疏水性提高;卟啉类化合物和游离铁处理能显著降低蛋白质分子间氢键和离子键含量,提高疏水相互作用力和二硫键含量,减弱肌动蛋白和肌球蛋白的相互作用,促使肌动蛋白-肌球蛋白发生解离;卟啉铁和游离铁对蛋白质理化特性的改变破坏了蛋白质凝胶结构,降低了蛋白质的黏度、弹性模量和黏度损耗模量。本研究为明确卟啉类化合物对肌原纤维蛋白特性和肉品品质的影响提供了参考,为调控鸡肉嫩度提供了理论依据。

基于孔内剪切试验的游离氧化铁对红黏土抗剪强度影响研究

游离氧化铁的胶结作用及其与土颗粒形成的特殊结构与红黏土力学性能密切相关。为了研究原位状态下游离氧化铁对红黏土力学性质的影响,采用连二亚硫酸钠−柠檬酸钠−重碳酸钠(dithionite-citrate-bicarbonate,简称DCB)溶液对红黏土中的游离氧化铁进行选择性溶解,再结合孔内剪切试验(borehole shear test,简称BST)获得了不同除铁效果下各深度处的红黏土抗剪强度指标。结果表明,游离氧化铁含量FIOC(free iron oxide content)与DCB溶液浸泡时间具有较好的相关性,其特点是除铁速度前期快、后期慢。由BST试验得到红黏土应力−位移关系曲线呈应变硬化变形特征;在同一测试深度下,红黏土抗剪强度随着浸泡时间的递增而降低,浸泡4 d的抗剪强度降幅已达整个试验降低幅度的79.0%左右,再继续浸泡其抗剪强度降低幅度逐渐趋缓;在同一浸泡时间和测试深度下,红黏土的抗剪强度随着法向应力的增大而增大;在同一浸泡时间和法向应力下,红黏土的抗剪强度随着深度的增加而增加;随着浸泡时间的增加,以“包膜”、“桥”或“单粒”的形式赋存的游离氧化铁逐渐被去除,微观上表现为红黏土结构性被破坏,原本致密、紧凑结构出现孔隙、裂隙、疏松的情况,宏观上表现为红黏土力学强度的降低。

游离氧化铁对崩岗不同土层土壤胀缩特性的影响

【目的】研究游离氧化铁对崩岗不同土层土壤胀缩特性的影响。【方法】利用无荷膨胀试验、线性收缩试验和计算土壤胶体扩散双电层中滑动层厚度,分析游离氧化铁对崩岗不同土层土壤胀缩特性的影响。【结果】游离氧化铁含量与崩岗土壤无荷膨胀率呈线性递增关系(P<0.01),与土壤线性收缩率呈线性递减关系(P<0.05);在电解质浓度相同的条件下,崩岗土壤滑动层厚度随着游离氧化铁含量的提高而增大;游离氧化铁含量不同的红土层、砂土层的土壤滑动层厚度与无荷膨胀率均呈显著正相关(P<0.05),与线性收缩率呈显著负相关(P<0.05)。【结论】游离氧化铁含量影响土壤滑动层厚度,进而影响土壤的胀缩性能。

DCB溶液作用下膨胀土裂隙面力学特性试验研究

为了探究水化学作用下膨胀土裂隙面力学特性的变化,选取引江济淮工程菜子湖C003标段膨胀土,通过特定的制样方式赋予试样预设裂隙面,采用连二亚硫酸钠-柠檬酸钠-碳酸氢钠(DCB)溶液对含裂隙土样进行淋滤,并对淋滤后的试样进行抗剪强度试验研究,探究裂隙面强度变化与淋滤时间的关系,揭示淋滤后膨胀土裂隙面强度变化的微观机理。试验结果表明:DCB溶液沿着预设裂隙面和试样内部淋滤不同天数后,试样形貌特征出现了不同的变化;裂隙面抗剪强度降低速率随着淋滤时间的增加先变快后变慢,在淋滤28 d后裂隙面抗剪强度指标下降明显,黏聚力和内摩擦角分别下降51.5%和45.9%;对淋滤后试样表面灰绿土样和直剪试验后剪切面土样进行微细观研究发现,淋滤后灰绿土和剪切面Fe_(2)O_(3)含量下降明显,且黏土矿物衍射峰强度有一定程度的升高。微观机理分析可知,DCB溶液通过氧化还原作用对土中游离氧化铁进行去除,使试样外观形貌出现较大变化,破坏了土中大的团聚体与颗粒之间的黏结力,从而导致土体力学特性劣化。

游离氧化铁对花岗岩残积土崩解和抗剪强度的影响

为分析游离氧化铁对花岗岩残积土的力学性质的影响,以桂东南地区花岗岩残积土为研究对象,通过连二亚硫酸钠-柠檬酸钠-碳酸氢钠(DCB法)溶液去除花岗岩残积土中的游离氧化铁,并制备了不同游离氧化铁含量的重塑土样。研究表明:游离氧化铁含量的增加显著提高了花岗岩残积土的抗剪强度,同时显著降低了其水稳定性和抗崩解性能。基于试验结果,建立了游离氧化铁含量与崩解特性及抗剪强度之间的拟合关系,有效反映了土体性质随游离氧化铁含量的变化趋势。

莱赛尔织物柠檬酸-聚氨酯无甲醛免烫整理工艺

采用易于原纤化的G100型莱赛尔(Lyocell)织物作为研究对象,借助柠檬酸与聚氨酯的协同应用提升Lyocell织物的抗皱性和服用性能。研究确定柠檬酸-聚氨酯免烫整理的加工工艺:柠檬酸用量120 g/L,聚氨酯用量20 g/L,柠檬酸-聚氨酯免烫整理加工后面料的甲醛含量为ND(未检出),5次水洗后面料的平整度为3.2级。此外,研究过程中采用红外、热重及X-射线衍射等技术手段表征整理前后纤维性能的变化。

非晶合金-取向硅钢组合铁心结构设计及其磁-振动特性分析

非晶合金和取向硅钢是制作配电变压器铁心常用的两种软磁材料,各有优劣。采用非晶合金-取向硅钢组合铁心结构可以综合两者的优势。该文以非晶合金和取向硅钢铁心并排的组合结构为基础,选取组合铁心的取向硅钢占比和尺寸参数为自由变量,提出一种基于自由参数扫描法的组合铁心结构设计方法。首先,根据非晶合金-取向硅钢组合铁心结构特点,建立组合铁心的等效双非线性磁路模型;其次,采用磁路法迭代求解组合铁心的磁通密度分布,并制定组合铁心的结构设计流程;最后,根据结构设计结果制作了组合铁心的实验模型,采用实验和有限元仿真结合的方法分析了其磁-振动特性,验证了所提设计方法的准确性,并与传统纯非晶合金和纯取向硅钢铁心进行对比分析,阐述了组合铁心的优势。

火焰原子吸收光谱法测定土壤中游离铁含量

土壤游离铁是成土母质风化、迁移转化的产物,其形态和活化、老化程度能够反映成土过程和成土环境,可以直接反映土壤的形成环境、形成过程和气候变化。因此,准确测定土壤中的游离铁含量具有重要的现实意义。目前采用紫外分光光度法测定游离铁实验流程长,需要将高价铁还原为低价铁,加之需要显色时间24h,耗费时间长,检测效率较低。本文采用火焰原子吸收光谱法(FAAS)测定土壤中的游离铁含量,系统研究了实验条件对游离铁测定的影响,通过优化样品测定过程中碳酸氢钠的用量、反应温度、反应时间以及清洗次数,确定了称样量为0.5g,加入柠檬酸钠溶液20mL和碳酸氢钠溶液2mL,反应温度75~80℃,反应时间15~30min,再用饱和氯化钠溶液和2mL 1mol/L氯化钠溶液清洗各一次为最佳实验条件。经验证,该方法检出限(3σ)为0.05g/kg,定量限为0.20g/kg,标准曲线线性相关系数为0.9995,方法精密度(RSD,n=6)为1.95%~3.76%,标准样品测定误差小于5%,符合土壤调查样品分析测试要求,可推广应用于土壤调查中土壤和沉积物样品分析。

预浸对烧结钕铁硼HEDP电镀铜的影响

[目的]烧结钕铁硼(Nd Fe B)的电镀前处理技术还不够成熟,开发适宜的前处理工艺极其重要。[方法]在电镀铜前,先采用以羟基乙叉二膦酸(HEDP)为主配位剂的溶液对NdFeB进行预浸。预浸液组成和工艺条件为:HEDP 20~30 g/L,氢氧化钾20~25 g/L,碳酸钾10~15 g/L,葡萄糖酸钾1~2 g/L,乙酸0.5~1.0 g/L,室温,时间60 s。通过电化学测试对比了Nd Fe B基体有无预浸处理时,铜在其表面的电沉积行为,并通过金相显微镜、扫描电镜、能谱仪和荧光光谱测厚仪,对比了有无预浸处理的Nd FeB基体表面Cu镀层的宏观和微观表面形貌、截面形貌、元素分布及厚度分布均匀性。[结果]Nd Fe B基体预浸后表面被活化,静态电位降低。预浸液能够填满基体表面的孔隙并形成一层水薄膜,在后续电镀铜时保护基体不被腐蚀。预浸处理的Nd Fe B基体表面所得Cu镀层均匀、致密,不易氧化发黑,结合力和耐蚀性较好。[结论]对烧结钕铁硼进行预浸处理,能够保证其在后续电镀铜过程不被腐蚀,提高Cu镀层的综合性能。

DCB浸提-土壤中游离铁三种检测方法的比较与分析

土壤中游离铁的测试方法有电感耦合等离子体发射光谱法、原子吸收分光光度法、比色法等。通过对比实验,发现三种方法各项指标均能满足检测要求,电感耦合等离子体发射光谱法测定RSD=0.50%,相关系数为1.0000,流程更简单,检出限更低,线性范围更宽,精密度更高,准确度更好。本文指出,在实际检测生产中,采用DCB浸提-电感耦合等离子体发射光谱法,既可确保结果准确可靠,又可大幅提高检测效率。该方法更适合大批量土壤样品中游离铁的测定。

二价铁活化分子氧体系中溶解氧对活性自由基产生及污染物降解的影响

构建了Fe^(2+)/O_(2)/三聚磷酸钠(STPP)高级氧化体系,通过曝气实验与固定初始DO实验,分别探究了体系在持续曝气与有限溶解氧的条件下活性自由基产生能力与污染物降解效果.结果表明,在以150mL/min流量充分曝气时,Fe^(2+)-STPP浓度由3mmol/L增加至20mmol/L,体系在中性条件下羟基自由基(HO•)的产量从0.185mmol/L增加至0.256mmol/L,对苯酚的去除率由81.4%增加到91.5%.在密闭环境中固定初始DO浓度且Fe^(2+)-STPP浓度足量时,O_(2)转化为HO•的转化率约为10.60%~18.05%,转化率随DO浓度增加而增大;明确了体系中HO•产生量、Fe^(2+)消耗量、污染物降解量与初始DO浓度间的响应关系,并建立了线性方程(R^(2)>0.99).

血清铁调素结合红细胞内游离原卟啉水平对缺铁性贫血的诊断效能

目的 探讨血清铁调素结合红细胞内游离原卟啉(FEP)水平对缺铁性贫血的诊断效能。方法 选择2022年3月-2023年4月昆山市第一人民医院收治的85例缺铁性贫血患者为研究组,另选择医院同时间段体检健康人群53例为对照组。对比研究组与对照组血清铁调素、FEP水平,对比不同程度缺铁性贫血患者血清铁调素、FEP水平,分析血清铁调素、FEP水平及二者联合对缺铁性贫血的诊断效能。结果 研究组平均红细胞体积(MCV)、红细胞计数(RBC)、平均血红蛋白量(MCH)水平比对照组低(P<0.05),而研究组红细胞分布宽度(RDW)水平比对照组高(P<0.05);重度贫血组血清铁调素水平低于轻度贫血组、中度贫血组(P<0.05),中度贫血组血清铁调素水平低于轻度贫血组(P<0.05);重度贫血组血清FEP水平高于轻度贫血组、中度贫血组(P<0.05),中度贫血组血清FEP水平高于轻度贫血组(P<0.05);血清铁调素、FEP水平及二者联合诊断缺铁性贫血的曲线下面积(AUC)值分别为0.778、0.774、0.906(P<0.05),且二者联合诊断的AUC值更高(P<0.05)。结论 血清铁调素、FEP水平可用于诊断缺铁性贫血,且二者联合具有更高的诊断效能。

应用电感耦合等离子体光谱法的土壤中游离态铁测定

目的:结合应用电感耦合等离子体光谱法,对土壤中的游离状态下的铁元素进行识别测定。方法:结合采集的数据和样本信息,进行检出限的标准计算,通过ICAP 7400型ICP-OES仪和邻菲啰啉显色方法,结合Fe 238.204谱线进行比色分析,基于此,综合游离态铁的线条变化,计算出各个周期检出限的标准差值。在线性范围之内,通过ICP-OES法和应用电感耦合等离子体光谱法计算出游离态铁的测定精密度值,并依据在低、中、高三种游离态铁含量样本背景条件下,计算出最终游离态铁的测定回收比,结合不同样本得出的数据,比对验证分析。结果:在低、中、高三种游离态铁含量样本测定中,最终得出的回收比均可以达到15以上。结论:针对所选择的3个样品,最终结合应用电感耦合等离子体光谱法得出的土壤中游离态铁测定的回收比均可以达到15以上,说明此次所设计的游离态铁测定方法更具针对性和稳定性,实际的应用效果更佳,具有实际的应用价值。