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催化分光光度法测定痕量钛 总被引:2,自引:0,他引:2
催化分光光度法测定痕量钛周之荣1吴伟华东地质学院应化系江西临川344000催化褪色光度法测定钛的报道较少[1],本文研究了痕量Ti(Ⅳ)催化过氧化氢氧化酸性铬蓝K褪色反应的影响因素,建立了测定痕量Ti(Ⅳ)的催化光度法,并用于测定植物及人发中钛。方法... 相似文献
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绿帘石广泛分布于碧口群的各类变质岩石中,但以变质基性岩(绿片岩和蓝片岩)为主。绿片岩中绿帘石X_(?s)=0.23—0.37,但多为0.30—0.32,在不同样品中绿帘石成分变化很大,但同一样品中绿帘石变化不明显,说明其成分与全岩成分有关。蓝片岩中绿帘石X_(?s)=0.22—0.36,其成分在同一样品中也有很大变化,一般细粒者ps分子少,而粗粒者ps分子多,且常发育环带结构,向中心ps分子减少,说明蓝片岩可能经历了一个以降压为特征的变质过程。此外,该群也偶见绿纤石,但它们均被绿帘石包裹,不能构成独立变质相。 相似文献
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过量酸性铬蓝K隐色光度法测定铜的研究 总被引:2,自引:0,他引:2
在pH 4.0的微酸性介质中,酸性铬蓝K同Cu~(2+)形成稳定的红色络合物,用H_2O_2为隐色剂可以隐去过量显色剂的颜色,消除高色度背景的影响。络合物的最大吸收波长为540nm,摩尔吸光系数为1.6×10~4L·mol~(-1)·cm~(-1),Cu量在0~1.4μg/ml范围服从比尔定律。方法已应用于测定矿样中的Cu。 相似文献
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Abstract Comparison of the stability relations of Fe-piemontite, Pm17Ps17Cz66 (Ca2Al2Mn0.5 Fe0.5Si3O12(OH)), with similar experimentally determined results on Pm33Cz67 suggests that, at moderate fo2, addition of Fe to piemontite raises its thermal stability and slightly decreases its sensitivity to oxygen fugacity. Reversal study of the reaction: Fe-piemontite + quartz = garnet (Gr33Sp27And40) + anorthite + fluid at Pfluid= 2 kbar in cold-seal apparatus using solid oxygen buffers was completed. The data indicated breakdown of Pm17Ps17Cz66 at 645°± 10° C along the Cu2O–CuO buffer, 477°± 10° C along the Cu–Cu2O buffer, and 365°± 10° C for the hematite-magnetite buffer. Mn-free clinozoisite and epidote have been shown to be stable to much higher temperatures than piemontite at moderate fo2 (< Cu–Cu2O). At very high fo2, however, the presence of Mn+3 in a distorted octahedral site may permit persistence of piemontite to higher temperatures than Mn-poor epidote minerals. The compositional range of natural Fe–Mn–Al piemontites supports these results. Cation partitioning from piemontite-bearing parageneses also indicates crystallization at high fo2, but application of the cited results should be made with caution. Synthetic phases were too fine-grained for optical or microprobe analysis, and reaction was often incomplete. The assumption that all Fe + Mn was contained in piemontite and garnet, respectively, in the low- and high-temperature assemblages is supported by the cell dimensions for these synthetic minerals, which are close to predicted values. The reaction is pseudo-univariant, as solid solution in garnet and piemontite would be fo2-dependent in a more complex chemical system. Although bulk rock and fluid compositions may also have a marked effect on the stability of natural epidote–piemontite, fo2 is the major control on Fe : Mn : Al in epidote minerals. 相似文献
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新疆西天山查岗诺尔铁矿床环带石榴子石和绿帘石的发现及意义 总被引:1,自引:0,他引:1
查岗诺尔铁矿是新疆西天山阿吾拉勒铁矿带内的重要大型铁矿床之一。矿体赋存在下石炭统大哈拉军山组安山质火山岩中,与普遍发育的石榴子石化、阳起石化和绿帘石化时空关系密切。石榴子石和绿帘石分属不同热液成矿阶段,它们均发育丰富的环带结构,具体表现为明显地颜色、干涉色、背散射图像及成分(FeO、Al2O3、SiO2、MnO、TiO2)等差异性。石榴子石具有2个世代、3个类型。早世代石榴子石(Grt1和Grt2)产于块状石榴子石-磁铁矿蚀变岩,呈褐黄色,粒度较细,发育核-边结构,呈非均质性,显示异常干涉色,其核部(Grt1-c)均匀相对富钙铝榴石(Gro51-53And41-43Spr4-8),而边部(Grt1-r)发育振荡成分环带,总体相对富钙铁榴石(Gro18-35And60-77Spr4-6);Grt2核部(Grt2-c)呈均质性,为钙铁榴石(And99-100Spr0-1),边部显异常干涉色,发育振荡成分环带,为钙铝铁榴石(Gro34-54And38-61Spr6-9)。晚世代的石榴子石(Grt3)以细脉状或角砾胶结物形式分布,呈红褐色,自形粗粒结构,显非均质性,发育振荡成分环带,端员组分总体以钙铁榴石为主,次为钙铝榴石(Gro27-43And50-68Spr3-8)。石榴子石结构和元素含量变化表明,早期石榴子石形成于弱氧化-氧化、中性-碱性流体体系,其中向边部生长过程,由于新注入流体以及周期性压力汇聚和释放,体系的氧逸度、pH值呈振荡变化;晚期石榴子石形成于弱氧化、弱碱性、动荡的开放流体环境。绿帘石发育3个世代(Ep1、Ep2和Ep3)。Ep1发育核-边结构,核部(Ep1-c)均匀无环带,XFe值(XFe=Fe3+/(Al+Fe3+),原子比值)为0.19~0.21,w(MnO)为0.05%~0.18%,w(TiO2)为0.10%~0.12%,生长边(Ep1-r)多发育振荡环带,XFe值为0.26~0.29,w(MnO)为0.01%~0.14%,w(TiO2)为0.19%~0.26%。Ep2沿Ep1-r边缘生长,不均匀且经历了溶解-再沉淀过程,XFe值为0.15~0.20,w(MnO)为0.42%~1.19%,w(TiO2)为0.02%~0.07%。Ep3呈柱状或不规则粒状交代Ep2、贴近或穿切Ep1-r生长,较均匀、无环带结构,XFe值为0.28~0.37,w(MnO)为0.12%~0.77%,w(TiO2)为0.02%~0.10%。绿帘石成分变化表明,从Ep1-c到Ep1-r,到Ep2,再到Ep3,流体体系氧逸度经历了先增加,后降低,再升高的变化过程。同时,流体成分也在变化,先从相对贫Ti和Mn向相对富Ti贫Mn演化,而后又变为富Mn贫Ti。因此,在热液磁铁矿矿化阶段,查岗诺尔铁矿的成矿热液的物理-化学环境是不断变化的。研究显示,石榴子石和绿帘石结构和成分研究可以刻画热液成矿系统的流体演化历史。 相似文献
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以一批进口土耳其铬矿石为例,对所取的40个样品进行0~ 10 mm、10 ~ 50 mm、50 ~ 150 mm、150~ 250 mm及大于250 mm五个区间的粒度筛分,分析粒度不均匀的铬矿石在各粒度区间内组分含量和所占质量百分比的差异情况.根据分析结果对40个样品在50 ~ 150 mm区间内的质量百分比与样品总组分含量进行相关性分析,结果表明:两者的相关系数为0.466,相关系数的显著性概率为0.002,小于0.01,说明在50~150 mm粒度区间内矿石的质量百分比与样品的总含量的相关性是高度显著的,提出为了提高粒度不均匀的铬矿石取样代表性,应首先保证在所含矿石质量百分比与总组分含量相关性最大的粒度区间内(50 ~ 150 mm),所取矿石样品与实际货物中矿石的质量百分比相一致. 相似文献
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滇东南红石岩矿区处于NW向文山-麻栗坡和SN向马关走滑断裂的交汇处,受区域动力变质作用和深大断裂的影响,矿区内绿帘石岩较为发育。在总结矿床地质特征的基础上,笔者对矿区绿帘石岩的主量元素、微量元素和稀土元素进行了分析。结果表明:绿帘石岩具富FeO*、MnO、CaO,而Al2O3和TiO2含量较低的特征;大离子亲石元素(LILE)、Th富集,Sr、Ta、Nb、Y等元素亏损,显示火山弧玄武岩的特征,微量元素原始地幔标准化蛛网图呈"隆起"型,高场强元素(HFSE)丰度较低,低场强元素(LFSE)丰度较高,(Rb/Yb)N平均值为31.72≥1,为强不相容元素富集型,稀土元素具有ΣREE较低(平均110.05×10-6)、LREE富集(LREE/HREE平均8.34)的右倾型,轻重稀土分馏较为明显((La/Sm)N均值为4.04,∑Ce/∑Y>3)。综合主量和微量元素分析,认为研究区绿帘石岩的原岩为弧后盆地拉斑玄武岩。 相似文献
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在建立巯基棉富集-分光光度法联用系统的基础上,对螯合反应的pH、吸附酸度、显示剂用量、显色温度及体系稳定性等进行了优化选择,并将联用系统成功地应用于实际样品的富集分离分析。在盐酸介质中,α-呋喃二肟与钯得黄色络合物,于λmax=380nm处测定其吸光度,HSCT与铂反应生成2:1稳定络合物,于λmax=540nm处测定其吸光度,对Pt,Pd的检测限(3)分别为0.01μg/ml,0.005μg/ml,对国家一级标准物质进行验证,结果与标准值相符,加标回收率98.0%~102.5%,相对标准偏差为3.88%~8.97%。应用于实际样品的测定.结果满意。 相似文献
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In this study, we have deduced the thermal history of the subducting Neotethys from its eastern margin, using a suite of partially hydrated metabasalts from a segment of the Nagaland Ophiolite Complex (NOC), India. Located along the eastern extension of the Indus‐Tsangpo suture zone (ITSZ), the N–S‐trending NOC lies between the Indian and Burmese plates. The metabasalts, encased within a serpentinitic mélange, preserve a tectonically disturbed metamorphic sequence, which from west to east is greenschist (GS), pumpellyite–diopside (PD) and blueschist (BS) facies. Metabasalts in all the three metamorphic facies record prograde metamorphic overprints directly on primary igneous textures and igneous augite. In the BS facies unit, the metabasalts interbedded with marble show centimetre‐ to metre‐scale interlayering of lawsonite blueschist (LBS) and epidote blueschist (EBS). Prograde HP/LT metamorphism stabilized lawsonite + omphacite (XJd = 0.50–0.56 to 0.26–0.37) + jadeite (XJd = 0.67–0.79) + augite + ferroglaucophane + high‐Si phengite (Si = 3.6–3.65 atoms per formula unit, a.p.f.u.) + chlorite + titanite + quartz in LBS and lawsonite + glaucophane/ferroglaucophane ± epidote ± omphacite (XJd = 0.34) + chlorite + phengite (Si = 3.5 a.p.f.u.) + titanite + quartz in EBS at the metamorphic peak. Retrograde alteration, which was pervasive in the EBS, produced a sequence of mineral assemblages from omphacite and lawsonite‐absent, epidote + glaucophane/ferroglaucophane + chlorite + phengite + titanite + quartz through albite + chlorite + glaucophane to lawsonite + albite + high‐Si phengite (Si = 3.6–3.7 a.p.f.u.) + glaucophane + epidote + quartz. In the PD facies metabasalts, the peak mineral assemblage, pumpellyite + chlorite + titanite + phengitic white mica (Si = 3.4–3.5 a.p.f.u.) + diopside appeared in the basaltic groundmass from reacting titaniferous augite and low‐Si phengite, with prehnite additionally producing pumpellyite in early vein domains. In the GS facies metabasalts, incomplete hydration of augite produced albite + epidote + actinolite + chlorite + titanite + phengite + augite mineral assemblage. Based on calculated T–M(H2O), T–M(O2) (where M represents oxide mol.%) and P–T pseudosections, peak P–T conditions of LBS are estimated at ~11.5 kbar and ~340 °C, EBS at ~10 kbar, 325 °C and PD facies at ~6 kbar, 335 °C. Reconstructed metamorphic reaction pathways integrated with the results of P–T pseudosection modelling define a near‐complete, hairpin, clockwise P–T loop for the BS and a prograde P–T path with a steep dP/dT for the PD facies rocks. Apparent low thermal gradient of 8 °C km?1 corresponding to a maximum burial depth of 40 km and the hairpin P–T trajectory together suggest a cold and mature stage of an intra‐oceanic subduction zone setting for the Nagaland blueschists. The metamorphic constraints established above when combined with petrological findings from the ophiolitic massifs along the whole ITSZ suggest that intra‐oceanic subduction systems within the Neotethys between India and the Lhasa terrane/the Karakoram microcontinent were also active towards east between Indian and Burmese plates. 相似文献