Simulation Monitoring for Rainfall Infiltration in Soil Based on High Density Electrical Method

Rainfall infiltration is a porous medium flow problem with variable saturation. Based on the theoretical analysis of the flow field, electrical conductivity of rocks, the electrical field, the paper simulates the coupling relationship between the water saturation in soil and the apparent resistivity distribution. It combines the Richards equation, the Archie formula and the Laplace equation. The experiment simulates the potential field data by the Wenner setting in electrical exploration on a two-layer geologic model with continuous rainfall during 5 days, which shows that the effective saturation in soil is increasing with the rainfall time, while the apparent resistivity is decreasing. This can provide a theoretical basis for the analyzing the rainfall infiltration and porosity of the soil by using high-density electrical method in the future.

On the liquid-phase technology of carbon fiber/aluminum matrix composites

The main problems with the liquid-phase technology of carbon fiber/aluminum matrix composites include poor wetting of the fiber with liquid aluminum and formation of aluminum carbide on the fibers’surface.This paper aims to solve these problems.The theoretical and experimental dependence of porosity on the applied pressure were determined.The possibility of obtaining a carbon fiber/aluminum matrix composite wire with a strength value of about 1500 MPa was shown.The correlation among the strength of the carbon fiber reinforced aluminum matrix composite,the fracture surface,and the degradation of the carbon fiber surface was discussed.

FINITE DIFFERENCE MODEL FOR SIMULATION OF DENSIFYING CARBON-CARBON COMPOSITES BY CHEMICAL VAPOR INFILTRATIONP ROCESSES

A finite difference (FD) model is proposed to simulate the chemical vapor infiltration (CVI) processes for fabrication of carbon carbon composites. With iterative operation of many discrete values, the FD based model can be used to describe and analyze the real, continuous densification processing quantitatively. Many densification characteristics of carbon carbon composites can be predicated by modeling. The prediction results can be compared with experiment value directly, which shows its good ability for practical application. Special verification experiments are designed with Iso thermal CVI processing and slender cylindroid unidirectional C/C composites are prepared to verify the accuracy of the model. The modeling curve of density versus infiltration time is in good agreement with experiment values. According to modeling analysis, the effects of infiltration temperature and fiber volume fraction on densification are also discussed preliminarily. The conclusion obtained also accords with experiment or results in other literature, further approving the accuracy of the FD based model.

Reactivation of a huge ancient landslide by surface water infiltration

An ancient landslide, situated in Deqin County, Yunnan Province, China, was used to investigate the reactivation by water infiltration. This study considers the infiltration process and landslide stability using finite-element method(FEM)-based models. The results show that the reactivation of old landslide deposit was triggered by the long-term leakage of diversion ditch before October 2012, and the reactivation was triggered again by the intense rainfall on 7-9 October 2012. The old cracks, which formed in the earlier reactivation of landslide, played a key role for the rainfall infiltration. They offered a preferential path for much more rainfall to infiltrate fast into deep soil, and caused wetting front to move down faster in landslide. The old slip zone with lower permeability was another important factor to cause the infiltrated water to accumulate and form a high pore water pressure above slip zone. Then the high pore water pressure decreased the shear strength of slip zone and triggered the reactivation of the old landslide deposit again.

Volume and fat infiltration of spino-pelvic musculature in adults with spinal deformity

AIM: To investigate fat infiltration and volume of spino-pelvic muscles in adults spinal deformity(ASD) with magnetic resonance imaging(MRI) and 3D reconstructions.METHODS: Nineteen female ASD patients(mean age 60 ± 13) were included prospectively and consecutively and had T1-weighted Turbo Spin Echo sequence MRIs with Dixon method from the proximal tibia up to T12 vertebra. The Dixon method permitted to evaluate the proportion of fat inside each muscle(fat-water ratio). In order to investigate the accuracy of the Dixon method for estimating fat vs water, the same MRI acquisition was performed on phantoms of four vials composed of different proportion of fat vs water. With Muscl'X software, 3D reconstructions of 17 muscles or group of muscles were obtained identifying the muscle's contour on a limited number of axial images [Deformation of parametric specific objects(DPSO) Method]. Musclar volume(Vmuscle), infiltrated fat volume(Vfat) and percentage of fat infiltration [Pfat, calculated as follow: Pfat = 100 ×(Vfat/Vmuscle)] were characterized by extensor or flexor function respectively for the spine, hip and knee and theirs relationship with demographic data were investigated. RESULTS: Phantom acquisition demonstrated a non linear relation between Dixon fat-water ratio and the real fat-water ratio. In order to correct the Dixon fatwater ratio, the non linear relation was approximated with a polynomial function of degree three using the phantom acquisition. On average, Pfat was 13.3% ± 5.3%. Muscles from the spinal extensor group had a Pfat significantly greater than the other muscles groups, and the largest variability(Pfat = 31.9% ± 13.8%, P < 0.001). Muscles from the hip extensor group ranked 2nd in terms of Pfat(14% ± 8%), and were significantly greater than those of the knee extensor(P = 0.030). Muscles from the knee extensor group demonstrated the least Pfat(12% ± 8%). They were also the only group with a significant correlation between Vmuscle and Pfat(r =-0.741, P < 0.001), however this correlation was lacking in the other groups. No correlation was found between the Vmuscle total and age or body mass index. Except for the spine flexors, Pfat was correlated with age. Vmuscle and Vfat distributions demonstrated that muscular degeneration impacted the spinal extensors most.CONCLUSION: Mechanisms of fat infiltration are not similar among the muscle groups. Degeneration impacted the spinal and hip extensors most, key muscles of the sagittal alignment.

充水作用下露天煤矿内排土场边坡稳定性分析

为分析废弃矿坑改造成蓄水湖时充水高度对内排土场边坡稳定性的影响,采用室内相似试验、数值模拟和理论分析的方法对不同水位高度下内排土场边坡稳定性进行研究。研究结果表明:随着充水高度的增加,浸润线运移速度、边坡最大位移、孔隙水压力和边坡土体受到的压力整体呈增长趋势。充水高度越大,边坡倾角越大,边坡稳定系数越低。研究结论为露天煤矿改造成蓄水湖或蓄能水电站项目工程提供参考。

降雨条件下层状土坡三维边坡稳定性分析

降雨是诱发滑坡的重要因素之一,在降雨型滑坡的研究中,关于土壤水分剖面形状动态变化对三维边坡稳定性的影响有待进一步考虑。鉴于此,在前人工作的基础上,本文采用含修正形状系数的形状曲线描述土壤水分剖面的变化,结合非饱和土的水力特性,计算等效渗透系数,推导出改进入渗模型并拓展至双层土体入渗。利用GRASS GIS建立三维边坡模型,选取椭球面作为三维滑动面,通过蒙特卡洛法模拟椭球面参数,确定试算滑动面,采用Hovland三维极限平衡法计算考虑雨水入渗影响的三维边坡安全系数。根据湿润锋面、土层间界面和潜在滑动面三者的相对位置关系,将栅格单元柱分为5种情况考虑。通过算例分析验证所提出的降雨条件下三维边坡稳定性分析方法的可行性,结果表明:蒙特卡洛模拟试算样本数的最佳取值可定为2500次;最小三维边坡安全系数随着降雨历时的增加而减小,减小幅度为0.055~0.126。

高压断路器用CuW触头材料研究进展

CuW合金已作为触头材料被广泛用作高压SF6断路器和气体绝缘组合电器中,其抗侵蚀性能决定着开关设备的使用寿命。CuW触头材料主要的制备工艺包括熔渗法和粉末烧结法,最新的研究进展发现熔渗CuW合金的关键点在于W骨架的连接强度,而液相烧结CuW合金的关键在于熔融Cu与W颗粒之间的润湿性,明确了两种工艺的研究方向;对基于铝热还原工艺制备CuW合金的研究进行概述,提出思路是进行前驱体的烧结,降低反应物的活化能,从而促进自蔓延反应的进行;同时总结了目前CuW合金的改性研究在于增强相的添加和变形加工,旨在对工业上技术改进提供指导,但如何更好地应用于工业上仍需要一定时间的探索;最后着眼于弧触头的整体研究,明确CuW和CrCu之间的结合强度是弧触头整体材料的关键因素,也对后续整体材料的改进与发展提供新的方向。

碳化硅多孔介质内渗硅过程的仿真研究

对仿真熔硅在碳化硅多孔预制体内的渗流过程进行深入研究,不仅有助于了解反应熔渗过程缺陷的成因,还有助于揭示特殊渗流现象的成因。本文基于水平集法、N-S方程、杨氏方程,在由光学显微镜图像提取重构的二维孔道内,进行了熔硅毛细熔渗过程的仿真,重点模拟了由40μm颗粒经模压构成的预制体和基于颗粒级配工艺的预制体内的熔渗过程。结果表明:入渗过程中较大的入口有利于熔渗的快速进行,熔渗过程在同一区域由非饱和渗流逐步向饱和渗流演变;预制体内的大空腔、尖角区与盲孔等孔隙结构有较大概率演化出孔隙型缺陷;预制体的排气出口边界条件与熔渗趋肤成壳现象呈强相关性。

金刚石粒径对金刚石/Cu-B合金复合材料热物理性能的影响

采用Cu-B合金为基体,选用粒径分别为110、230、550μm的金刚石颗粒作为增强体,利用气压熔渗工艺在1100℃、10 MPa气体压力下制备金刚石/Cu-B合金复合材料,研究金刚石颗粒粒径对复合材料组织结构、界面相分布及热物理性能的影响。结果表明,随着金刚石粒径的增大,复合材料热导率上升,热膨胀系数减小,复合材料界面处硼碳化合物含量增加,界面结合情况得到改善。由金刚石颗粒粒径为550μm时,复合材料热导率最高,可达680.3 W/(m·K),热膨胀系数最小,为4.905×10^(−6)K^(−1),符合高效热管理器件对金刚石/金属基复合材料的热物理性能要求,在电子产品散热器件方面具有良好的应用前景。

湖北省2019-2021年岩溶碳汇估算及其驱动因子分析

碳酸盐岩在水循环过程中的碳汇效应显著,加之岩溶地貌在我国分布广泛,所以探求岩溶碳汇潜力的研究对制定区域增汇策略具有重要意义。选取位于西南岩溶区的湖北省为重点研究区域,基于水化学径流法及入渗-平衡化学法进行定量化计算和比较,利用ArcGIS空间分析技术整体评估湖北省2019-2021年岩溶碳汇的空间格局与量级,探索更适宜应用于区域尺度的岩溶作用碳汇估算方法,综合分析岩溶碳汇的驱动因子,发掘更大的增汇潜力。研究结果表明:(1)采用入渗-平衡化学法估算3 a碳汇强度大小为2020年>2019年>2021年,丰水年(2020年)岩溶碳汇总量约为枯水年(2019年)的6倍,3 a年均碳汇强度为12.84 t/(km^(2)·a),碳汇总量达163.89×10^(4) t/a;(2)相较于水化学径流法,入渗-平衡化学法计算结果更为准确,获取数据资料较为简单,大小空间尺度都具有一定的普适性;(3)碳汇作用变化是高度动态的,气候变化下变化幅度主要由径流深决定,碳汇强度随径流深增大而变强,土地利用类型调控着岩溶作用碳汇强度;(4)鄂西南地区岩溶作用强烈,可建立岩溶碳汇试验区,定量评估人工干预所带来的增汇效果。研究结果不仅提供了精确易行的岩溶碳汇估算方法,而且确定了湖北省岩溶碳汇的量级与空间格局,摸清了碳汇强度驱动因子的共同耦合作用,体现了岩溶碳汇的人为可调控性以及复杂性,进一步为环境保护政策、人工增汇措施的制定提供了可靠的科学依据。

Effect of microalloying on wettability and interface characteristics of Zr-based bulk metallic glasses with W substrate

The infiltration casting method is widely employed for the preparation of ex-situ composite materials.However,the production of composite materials using this method must necessitates a comprehensive understanding of the wettability and interface characteristics between the reinforcing phase and the bulk metallic glasses(BMGs).This work optimized the composition of Zr-based BMGs through microalloying methods,resulting in a new set of Zr-based BMGs with excellent glass-forming ability.Wetting experiments between the Zr-based BMGs melts and W substrates were conducted using the traditional sessile drop method,and the interfaces were characterized utilizing a scanning electron microscope(SEM)equipped with energy dispersive X-ray spectroscopy(EDS).The work demonstrates that the microalloying method substantially enhances the wettability of the Zr-based BMGs melt.Additionally,the incorporation of Nb element impedes the formation of W-Zr phases,but the introduction of Nb element does not alter the extent of interdiffusion between the constituent elements of the amorphous matrix and W element,indicating that the influence of Nb element on the diffusion of individual elements is minute.

浅埋富水砂层隧道复合注浆治理技术研究

青岛地铁四号线张村站横通道为浅埋富水砂层,为了解决开挖过程中面临的涌水涌砂问题,采用多方法复合注浆加固技术进行治理。模袋桩布置于重点加固区外轮廓,模袋桩工法能起到桩体加固作用,同时可以控制注浆扩散,抑制地表抬升;分段钢管桩布置于重点加固区域内部,采用分段注入的方式,均匀扩散有利于加固效果,且能避免局部不均匀注浆造成的抬升问题;在中粗砂地层中,水泥浆液的渗滤效应是不可忽视的,注浆扩散半径按1.2m进行考虑,实践证明是合理的。浅埋富水砂层注浆结束后,配合真空降水,实现了隧道内的无水施工环境。钢管桩、模袋桩和注浆三种方法构成了复合加固技术,配合其他辅助工艺方法,有效解决了浅埋富水砂层的治理难题,对类似工程具有借鉴意义。

铺层方式对VIHPS制备的GO-CF混杂增强复合材料弯曲性能的影响

本文首先采用真空浸渗热压工艺(VIHPS)制备了不同铺层方式的氧化石墨烯-碳纤维(GO-CF)混杂增强复合材料,并对该材料进行三点弯曲试验,再通过扫描电子显微镜(SEM)表征其微观断口形貌。然后使用Digmat软件的FE模块建立微-纳跨尺度的代表性体积单元(RVE)模型,将该模型导入ANSYS Workbench软件中进行三点弯曲仿真模拟。复合材料三点弯曲试验结果表明,随着沿试样宽度方向(Y向)纤维铺层的增加,复合材料的弯曲强度从433.2 MPa降低至12.7 MPa,弯曲模量从13.8 GPa降低至0.2 GPa,它们分别降低了97.07%和98.55%。最后通过对比试验与仿真结果发现,两种结果的变化趋势基本一致,且仿真结果与试验结果接近。复合材料在弯曲变形过程中,受到拉伸和压缩的共同作用,其中导致复合材料失效的方式主要包括基体开裂、界面脱粘和纤维断裂。

降雨条件下土质挖方边坡的稳定性分析

边坡开挖会对原始斜坡体产生卸荷效应,降低了土坡抵抗外界荷载的能力,降雨入渗后易引发灾害,给边坡安全施工造成威胁。本文采用非饱和土抗剪强度理论,结合Morgenstern-Price条分法,对不同放坡角度下边坡的稳定性进行分析,同时采用具有不同降雨峰值的两组72 h实测降雨值,动态分析了边坡安全系数,同时探讨了孔隙水压力的变化规律。结果表明:(1)土体饱和度随基质吸力增加而不断减小;(2)由于粉细砂渗透系数大,同一吸力水平下,饱和度下降最快,其次为淤泥质壤土,而黏土的饱和度下降最慢,储水能力最好;(3)随着坡角增大,边坡的潜在滑动面会逐渐靠近开挖形成的临空面,即滑坡的体积会减小,边坡的安全系数越低;(4)总体上随着降雨时长增大,边坡的安全系数呈逐渐减小的趋势,但局部出现了回升的现象。因此在进行实际切坡工程时,应当尽量降低坡角来保持边坡稳定性,对于需要留取较陡边坡的工程,应采取相应的加固措施来防止边坡出现滑坡等灾害。同时,采用实际降雨数据对边坡稳定性分析能够真实反映边坡安全系数边坡变化,对边坡稳定性设计具有实际意义。

Properties and microstructure of oxide dispersion strengthened tungsten alloy prepared by liquid-phase method:a review

The addition of the second phase into tungsten can significantly refine the grain size of tungsten alloys,and also play a role in dispersion strengthening,thus improving the properties of tungsten alloy.As a preparation method of tungsten alloy powder,liquid-phase method avoids the disadvantage of mechanical alloying,and the obtained powder composition is accurate and controllable,with high purity and excellent uniformity.At present,the second phase particles used for dispersion strengthening tungsten alloys are mainly composed of oxides.Oxide particles can be synthesized and precipitated in nitrate solution through in situ chemical reaction,and are uniformly distributed in composite powder by mixing and stirring.Finally,the oxide dispersion strengthened tungsten alloy(ODS-W)was obtained by reduction and sintering.Liquid-phase methods for preparing ODS-W alloys include azeotropic distillation,sol-gel methods,freeze-drying,hydrothermal synthesis,spray-drying,etc.In this paper,several liquid-phase methods for preparing tungsten alloy composite powder precursors are reviewed,and their latest research progresses are discussed.In addition,the morphologies and properties of tungsten alloys prepared by different methods are compared,which provides guidance for preparing high-performance tungsten alloys.

露天煤矿含断层顺倾边坡渗流与稳定性分析

采用极限平衡法与数值模拟相结合的手段,以西南某露天矿含断层顺倾边坡为背景,模拟分析了在渗流条件下边坡的孔隙水压力与渗流场变化,对边坡稳定性变化进行探讨。研究表明:降雨入渗改变了边坡的孔隙水压力,弱化了岩土体的物理力学性质,改变了渗流场的分布,导致边坡稳定性降低;断层加快了雨水的入渗速度进而影响滑坡位置。

贴膜外压迫法预防新生儿PICC置管后穿刺点渗血的效果观察

目的:探讨贴膜外压迫法预防新生儿经外周静脉置入中心静脉导管(PICC)置管后穿刺点渗血的效果。方法:选取2021年9月1日—2022年6月30日在相同治疗组接受PICC置管治疗符合纳入标准的118例新生儿为研究对象,采用摸球法随机分为对照组和试验组,各59例。试验组采用PICC穿刺后贴膜外压迫穿刺点;对照组采用PICC穿刺后贴膜内压迫穿刺点。比较两组患儿穿刺后7 d内更换贴膜的次数、穿刺点24 h渗血率、渗血持续时间及并发症发生情况等。结果:试验组7 d内贴膜更换次数较对照组少,穿刺点24 h渗血率及渗血持续时间低于对照组,差异有统计学意义(P<0.05);两组并发症发生率比较,差异无统计学意义(P>0.05)。结论:贴膜外压迫法能较好地降低PICC置管后穿刺点渗血率及渗血时间,提高护理质量及工作效率。

MRI联合CT测量腰椎椎旁肌脂肪含量的初步研究

目的探讨MRI联合CT描计法、手动定义灰度阈值法测量腰椎椎旁肌脂肪含量的准确性及可行性。方法依据纳排标准,30例门诊腰椎退变病人入组,其中男15例,女15例,年龄为(57.18±10.52)岁(29~74岁),获取其腰椎CT及MRI影像,以L5上终板水平位的椎旁肌(多裂肌和竖脊肌)为研究目标,分别采用MRI联合CT描计法(CT+MRI组)和单纯MRI描计法(单纯MRI组)定义肌肉边界,并选取同一层面水平位的T2抑制像(T2-STIR)作为阳性对照,采用ImageJ软件测量肌肉总面积、功能面积,比较各方法之间的差异;进一步测量椎旁肌的脂肪替代面积和脂肪浸润率,比较自动获取影像灰度阈值(自动阈值组)与手动定义灰度阈值(手动阈值组)对T2加权像上椎旁肌肉脂肪化测量的影响。结果CT+MRI组的各椎旁肌肉总面积和功能面积均大于单纯MRI组,差异有统计学意义(P<0.05);CT+MRI组的椎旁肌总面积、功能面积与阳性对照组相近,单纯MRI组测量结果则明显小于阳性对照组,差异有统计学意义(P<0.05)。椎旁肌脂肪浸润评估方面,手动阈值组各椎旁肌的功能面积较大、脂肪替代面积较小,所得的脂肪浸润率较低,差异有统计学意义(P<0.05);阳性对照组的结果与手动阈值组更为接近,而与自动阈值组的结果差异较大,均有统计学意义(P<0.05)。结论MRI联合CT描计肌肉边界、手动定义灰度阈值法,能够有效提高椎旁肌肉脂肪浸润评价的准确度。