短源河流碎屑矿物在河道、河口和海滩的组分变化及其控制因素——以山东半岛辛安河为例

山东半岛诸多小河沉积物大多来源明确,矿物沉积分异相对较小,对其研究能为大河入海物源分析提供区域相似性,也可为黄、渤海陆架沉积提供山东半岛物质来源特征。本文以山东半岛东北部短源小河辛安河为例,对取自河床、河口、海滩的表层沉积样品的碎屑矿物分布规律进行了多粒级分析。研究表明,辛安河流域和海滩沉积物多为中砂和细砂,全样重矿物含量中等,在1.47%~8.19%之间。出现重矿物27种,轻矿物8种,主要重矿物为普通角闪石(41.7%)、绿帘石(16.7%)、阳起石(10.6%)和褐铁矿(6.7%),主要轻矿物为石英(49.0%)、斜长石(26.5%)和钾长石(20.7%),这些矿物的含量在河床、河口和海滩远高于其他碎屑矿物,且矿物组合保持不变,相对含量变幅不大;非主要矿物种类与碎屑粒径存在显著的非线性相关关系。辛安河矿物种类和含量受控于区域岩性物源,即酸性、中酸性侵入岩和区域变质岩。闪石族矿物在辛安河不同地貌中的相对稳定输出是其同宗同源属性所在,矿物组成变化主要受水动力控制下的粒度分选影响。山东半岛短源河流虽碎屑矿物种类和含量不尽相同,但它们来源于相似的地质地貌和岩石类型,矿物组成变化的主要控制因素为区域物源和粒度分选,其次为沉积环境差异。相比而言,黄河闪石族矿物的低含量、云母族和碳酸盐类矿物在特定粒级的高含量有别于半岛南北两侧的河源物质。

长江口表层沉积物重矿物在不同粒级中的分布与研究意义

在粒度分析基础上,以0.5Φ为间距对长江口表层沉积物的不同粒级分样进行碎屑重矿物分析,并对各粒级重矿物特征与广粒级(1.5Φ~6Φ)进行相似度分析。结果表明,长江口沉积物粒度跨度大,从粗砂到泥(黏土)均有分布,粉砂含量高。样内不同粒级分样重矿物含量、种类和组合均有一定变化,样间表现出较一致的规律性。长江口出现碎屑重矿物30种左右,粗粒级分样中矿物种数为10余种,细粒级分样中重矿物种类增至20多种;3.5Φ~4.5Φ是重矿物种类多、矿物成分复杂的粒级区段。粗粒级(粒径大于3Φ)云母族富集,其重矿物组合为云母+角闪石,随粒级变细(粒径小于4Φ)云母急剧减少;闪石族分布粒级广泛,在3Φ~5Φ粒级含量相对较高;帘石族、稳定矿物尤其是金属矿物在粒径小于3.5Φ粒级逐渐增多。长江口重矿物整体组合为普通角闪石+绿帘石+褐铁矿,榍石为特征矿物。相似度分析表明,长江口沉积物样品中主要粒级与广粒级重矿物特征相近,能代表沉积物整体重矿物特征。长江口碎屑重矿物特征深受粒度分布的影响,其矿物种类、矿物组合和矿物指数及其所蕴含的水动力和物源意义都要结合粒度特征来综合分析。

Optimizing the grain size and grain boundary morphology of (K,Na) NbO_(3)-based ceramics: Paving the way for ultrahigh energy storage capacitors

Relaxor dielectric ceramic capacitors are very attractive for high-power energy storage.However,the low breakdown strength severely restricts improvements to the energy storage density and practical application.Here,a strategy of designing small grain sizes and abundant amorphous grain boundaries is proposed to improve the energy storage properties under the guidance of phase field theory.0.925(K_(0.5)Na_(0.5))NbO_(3)-e0.075Bi(Zn_(2/3)(Ta_(0.5)Nb_(0.5))1/3)O_(3)(KNNe-BZTN)relaxor ferroelectric ceramic is taken as an example to verify our strategy.The grain sizes and grain boundaries of the KNNeBZTN ceramics are carefully controlled by the high-energy ball milling method and twoestep sintering strategy.Impedance analysis and diffusion reflectance spectra demonstrate that KNNeBZTN ceramics with a small grain size and abundant amorphous grain boundary exhibit a lower charge carrier concentration and higher band gap.As a consequence,the breakdown electric field of KNNeBZTN ceramics increases from 222 kV/cm to 317 kV/cm when the grain size is decreased from 410 nm to 200 nm,accompanied by a slightly degraded maximum polarization.KNNeBZTN ceramics with an average grain size of~250 nm and abundant amorphous grain boundaries exhibit optimum energy storage properties with a high recoverable energy density of 4.02 J/cm^(3) and a high energy efficiency of 87.4%.This successful local structural design opens up a new paradigm to improve the energy storage performance of other dielectric ceramic capacitors for electrical energy storage.