砂-粉混合料的分数阶塑性本构模型

砂-粉混合料是自然界和岩土工程中常见的非均质土,密实程度、应力水平和细粒含量等因素对其颗粒接触状态和力学性能具有显著影响。为了能够较为全面地描述砂-粉混合料在细粒含量阈值内的复杂力学特性(FC<FCthre),基于分数阶微积分理论确定了能够统一描述相关联和非相关联的塑性流动法则,并采用等效骨架孔隙比的概念,将等效骨架状态参数嵌入剪胀方程和塑性模量中,进而建立了考虑细粒含量和状态相关的分数阶塑性本构模型。模型预测结果与试验数据对比分析表明,所建立的分数阶塑性模型能够有效反映砂-粉混合料在排水剪切条件下的应变软化(应变硬化)和剪胀(剪缩)等特性。同时,不排水条件下的关键特征,如流动和非流动行为也可以得到合理地描述。

山东半岛近海不同粉砂粒级含量分布的空间差异性及其沉积学意义

粉砂是现代陆架和河口沉积物最主要的粒级组分,但由于其复杂的沉积动力学行为,我们对于不同粉砂粒级的沉积学特征和行为并没有完全掌握。本文分析了山东半岛近海表层沉积物中不同粉砂粒级组分含量的空间分布特征,探讨了其控制因素。结果表明,山东半岛周边近海沉积物类型以泥质沉积为主,但不同粉砂粒级组分具有明显的空间分布差异性。极细粉砂、细粉砂与黏土组分的含量变化一致,表明了其相似的沉积动力学行为。粗粉砂组分的含量空间变化最大,在山东半岛的北部泥质条带、东部"泥楔"和南部近岸具有明显的高含量,其含量与其他各粉砂组分具有明显的负相关性。从表层沉积物的粒度组分与分布规律,可以证明研究区表层沉积物主要以黄河携带物质为主,但流入本区的一些中小型河流也明显提供了部分物源,只是其提供物质的扩散范围有限。结合水动力分析和物理海洋学等方面的认识,我们认为造成不同粉砂组分空间分布差异性的原因主要受物源、区域水动力学条件、局部地形(底形)等因素控制。另外,还发现了山东半岛"泥楔"沉积物的粗粉砂组分含量偏高、现代沉积速率也偏大,这些现象在空间上与"海洋锋面"位置一致,对于海洋锋面的沉积学意义还需要进一步的调查研究和数值模拟工作。

泥质粉砂沉积物—天然气水合物混合体系的力学特性

天然气水合物开采过程中,厘清储层力学参数的演化特征是进行工程地质风险评估的基础,但目前针对中国南海含天然气水合物泥质粉砂储层力学性质评价与测试相关研究的报道却鲜见。为此,以南海北部神弧海域W18/19矿体天然气水合物顶界沉积物为研究对象,用四氢呋喃(THF)水合物代替天然气水合物,以此来探讨泥质粉砂沉积物-天然气水合物混合体系的力学参数演化特征。研究结果表明:①在低质量丰度条件(小于等于16.7%)下泥质粉砂沉积物-天然气水合物混合体系呈现应变硬化破坏特征,抗剪强度、切线模量、内聚力随着水合物含量的增大而增大;②纯天然气水合物的应力-应变曲线表现出明显的脆性破坏特征,与低丰度条件下的泥质粉砂沉积物-天然气水合物混合体系破坏特征截然不同。进而提出了采用丰度(质量丰度或体积丰度)代替原有的砂质沉积物中饱和度概念来表征天然气水合物含量的建议,在考虑天然气水合物合成结束后泥质粉砂沉积物含水率影响的基础上,将泥质粉砂型天然气水合物-沉积物混合体系划分为纯沉积物、含天然气水合物沉积物、含沉积物天然气水合物和纯天然气水合物4种基本类型,以克服目前针对含天然气水合物泥质粉砂储层力学性质研究中所存在的不足。

Mineralogy and geochemistry of fine-grained Dahab stream sediments, Southeastern Sinai, Egypt: emphasis on the intergrowths of Fe–Ti oxides

Mineralogical and geochemical characteristics of stream sediments collected from 30 stations in the Dahab-Wadi Kid area(southeastern Sinai,Egypt)are presented.The studied sediments contain considerable amounts of heavy minerals,including abundant Fe–Ti oxides,with up to 25.94%index figure that measures the relative abundance of heavy minerals to light minerals.Immaturity of the sediments and nature of Fe–Ti oxide intergrowths,in addition to some non-opaque heavy minerals,indicate multiple provenances with contributions from a variety of Neoproterozoic mafic to felsic intrusions.Appreciable amounts of heavy minerals are derived from schists that belong to the so-called Wadi Kid volcanosedimentary group.Owing to the considerable contribution of the felsic intrusions represented by within-plate granites,the sediments are enriched in REE-bearing minerals(e.g.,monazite,cerianite,La-cerianite and allanite),V-bearing thorite,zircon,and a ZrO_(2) phase.The majority of Fe–Ti oxides are derived from the mafic intrusions,and they show evidence of pre-,syn-and post-depositional phases of alteration and formation of intergrowths.As to the geochemical signature of the bulk silt fraction,there is remarkable enrichment of LREEs with distinct negative Eu anomaly,and this supports dominance of a provenance dominated by felsic intrusions(i.e.,the A-type within-plate granite and associated pegmatites).Also,the felsic provenance is responsible for slight abnormality of ∑PU+Th content(up to~37 ppm)and few anomalous samples bear uraniferous zircon and Ce-type monazite.The present paper sheds light on the fertility of the Dahab stream sediments in some economic minerals for possible future exploitation,not for gold only,but for potential REEbearing minerals that are needed for a wide spectrum of modern technological industries.

Does Particulate Organic Matter Fraction Meet the Criteria for a Model Soil Organic Matter Pool?

There is a well-recognized need for improved fractionation methods to partition soil organic matter into functional pools. Physical separation based on particle size is widely used, yielding particulate organic matter(POM, i.e., free or "uncomplexed" organic matter> 50 μm) as the most labile fraction. To evaluate whether POM meets criteria for an ideal model pool, we examined whether it is:1) unique, i.e., found only in the > 50 μm fraction and 2) homogeneous, rather than a composite of different subfractions. Following ultrasonic dispersion, sand(> 50 μm) along with coarse(20–50 μm) and fine(5–20 μm) silt fractions were isolated from a silt loam soil under long-term pasture at Lincoln, New Zealand. The sand and silt fractions contained 20% and 21% of total soil C, respectively.We adopted a sequential density separation procedure using sodium polytungstate with density increasing step-wise from 1.7 to 2.4 g cm^(-3) to recover organic matter(light fractions) from the sand and silt fractions. Almost all(ca. 90%) the organic matter in the sand fraction and a large proportion(ca. 60%–70%) in the silt fractions was recovered by sequential density separation. The results suggested that POM is a composite of organo-mineral complexes with varying proportions of organic and mineral materials. Part of the organic matter associated with the silt fractions shared features in common with POM. In a laboratory bio-assay, biodegradability of POM varied depending on land use(pasture > arable cropping). We concluded that POM is neither homogeneous nor unique.

日本海中部60ka以来的风尘沉积对西风环流演化的指示

对位于西风环流下风区日本海中部LV53-23岩芯沉积物的粒度特征进行了研究,重建了日本海末次冰期(~60 ka)以来的西风环流演化历史和空间变化规律.结果显示,岩芯沉积物以粉砂为主且粒度频率分布曲线多呈单峰分布,与现代日本黄沙和前人报道的邻近区域的岩芯粒度特征一致,具有典型的风尘沉积特征.众数粒组-粉砂组分的中值粒径分析表明,粉砂组分中值粒径可以用作岩芯沉积反映西风环流的替代性指标.在亚轨道及千年尺度上,粉砂组分中值粒径在MIS 3期的冰阶-间冰阶千年尺度旋回与西风环流密切相关:冰阶时,粉砂组分中值粒径增大,这与西风急流轴较长时间位于青藏高原南部,西风环流影响范围变大,风速增强,能携带更多近源的蒙古戈壁-中国东北沙地风尘至日本海有关;间冰阶时,粉砂组分中值粒径减小,这是由于西风急流轴位于青藏高原北部,携带更多远源的塔克拉玛干沙漠风尘至日本海.而在轨道尺度上,末次盛冰期时粉砂组分中值粒径的稳定低值与北半球65°N日照辐射量良好对应,表明北半球日照辐射量和中高纬温度梯度差对西风环流远距离输运粉尘起到重要作用,盛冰期时西风急流轴受北半球冰盖扩张影响显著南移导致西风环流范围也随之南移,从而对日本海40°~50°N上空西风影响减弱.

庐山北麓JL红土剖面粉砂粒级元素地球化学特征及其物源意义

加积型红土是中国南方第四纪环境变化研究的重要陆相载体,其沉积母质显示风成特性,后期经历较强的化学风化。为了明确加积型红土的物质来源,并减弱风化效应对其物源信息的影响,本文提取了庐山北麓JL红土剖面(厚18.46 m)部分样品的粉砂组分(4~63 μm),分析其元素地球化学特征,并通过元素比值及物源判别指数等方法讨论其蕴含的物源信息。结果显示:1)粉砂粒级化学组成中SiO2、Al2O3和Fe2O3三者的含量可达84.29%,K2O、Na2O、CaO和MgO四者含量仅1.30%,与全岩相比SiO2含量增高,Al2O3和Fe2O3含量明显降低,风化指数CIA值(74.02%)明显低于全岩样品(85.00%);微量元素中,粉砂粒级相对全岩Cu、Zn、Rb、Sr、Cr、La等含量降低,Y、Zr含量则略高。2)Na2O/Al2O3与K2O/Al2O3及Na2O/K2O与CIA的散点图中,粉砂粒级样点间的集聚程度明显降低,暗示风化效应在一定程度上被削弱。此外以洛川黄土和长江河漫滩沉积物为端元的物源指数计算表明,全岩样品消除粒级效应后的物源指数(PIw)与粉砂粒级物源指数(PIfs)吻合度较好,进一步验证了粉砂粒级地球化学特征在削弱风化效应方面的有效性。3)JL剖面上部黄棕色土的PIfs值为0.45,物源上更接近北方黄土,剖面中下部的网纹红土PIfs值为0.57,物源更接近长江沉积物。结合TiO2/Al2O3、Zr/Y、Hf/Ti等元素比值,JL剖面自下而上近源物质的贡献略有减少,远源物质的贡献则趋于增加,这可能意味着晚第四纪以来东亚冬季风不断增强的过程。