大孔隙参数对斜坡非均匀渗流与稳定性的影响

为揭示降雨条件下大孔隙参数对斜坡水分非均匀运移与稳定性的影响,基于两域模型与稳定系数场原理,建立降雨入渗下斜坡非均匀渗流与稳定性求解模型,并借助COMSOL Multiphysics多物理场有限元平台,编制相应的模型求解程序,通过大孔隙土柱降雨试验验证数值模型的合理性,对比均匀流与非均匀流条件下斜坡体积含水率和点稳定系数,分析大孔隙参数(大孔隙占比ω_(f)、两域导水系数之比μ、大孔隙经验参数r_(w))对斜坡渗流场及稳定系数场的影响规律。结果表明:相比不考虑大孔隙,考虑大孔隙时的基质域和大孔隙域表层体积含水率分别增长7.7%和降低5.1%,入渗深度分别增长83.3%和150.0%;边坡浅层失稳面积增大3.9%。基质域和大孔隙域入渗深度均随大孔隙占比ω_(f)的增大而减小;随着大孔隙域与基质域饱和渗透系数之比μ增大,两者入渗深度变化趋势相反,即μ越大,基质域入渗深度越小,大孔隙域反之;两者与经验参数r_(w)无显著关系。至降雨结束,基质域表层土体体积含水率已达最大值;大孔隙域则随着ω_(f)和μ的增大而增大,但几乎不受经验参数r_(w)的影响。非均匀流条件下,边坡水分交换沿着剖面从上往下分为负交换区、正交换区和无交换区,水分交换平衡深度与基质域入渗深度变化趋势一致;水分交换负交换区与正交换区的深度均存在一个峰值,并随大孔隙占比ω_(f)的增大而减小,随着μ和r_(w)的增大而增大。不同参数取值下,边坡均为浅层失稳破坏,ω_(f)和μ越大,失稳层深度越大,表层点稳定系数越小,因此大孔隙不利于边坡稳定。

改进萤火虫算法的武器目标分配问题研究

武器目标分配(WTA)是指挥控制和任务规划领域的关键问题之一,萤火虫算法求解武器目标分配问题具有参数设置简单、执行效率高等优点。针对传统萤火虫算法易陷入局部极值,收敛速度和精度不高的弊端,从以下三个方面进行改进:初始化萤火虫序列编码时融入PWLCM混沌优化以提高全局搜索能力;设置受迭代次数控制的服从半高斯分布的非均匀步长因子以兼顾算法的搜索能力和收敛性;设计基于排序的萤火虫更新策略同时融入交叉变异操作以提高算法的效率和准确性。为验证改进算法的先进性,先利用其求解4种典型测试函数的最优解,再求解WTA问题,并与传统萤火虫算法进行对比,仿真实验结果表明,改进后算法的评价函数值提高了2.1%,迭代次数减少了52.9%,改善了传统算法易陷入局部极值的缺点,提高了收敛速度和精度,提升了武器目标分配的效果。

非均匀沥青混合料不同影响因素下劈裂性能研究

为研究不同影响因素下非均匀沥青混合料的力学特性,在不同加载速率和试验温度条件下,开展不同离析程度沥青混合料的劈裂试验。结果表明:同一级配类型沥青混合料发生不同程度离析后,混合料内部沥青胶浆含量越多,劈裂强度受温度和加载速率变化影响越显著;开级配沥青混合料发生集料离析后,内部细集料越多,结构沥青越多,则劈裂强度越高。AC-13沥青混合料在各离析程度下比OGFC-16沥青混合料表现出更优的劈裂性能。

校正因数法在长歧水文站水位流量单值化分析中的应用

采用防城河长歧水文站2011-2020年水位、流量实测资料,利用校正因数法对其水位流量关系进行单值化分析,结果符合规范关于流量间测的规定和要求,该站水位在29.40-35.00m水位级内可实行间测,间测期间采用历年水位流量关系综合曲线推求流量,其他水位按原测验方案进行测验并推流。

Arrangement of High-standard Basic Farmland Construction Based on Village-region Cultivated Land Quality Uniformity

As an important constitute of land consolidation, high-standard basic farmland construction is an important means to protect the quantity, quality and ecological environment of cultivated land. Its target not only lies in the increase of cultivated land quantity, but also the improvement of cultivated land quality, agricultural production conditions and ecosystem environments. In the present study, the quality evaluation method and construction arrangement of cultivated land were explored to facilitate the process of decision-making and implementation for high-standard basic farmland construction(HSBFC) with administrative village as the unit. Taking the land comprehensive improvement project area in Quzhou County, Handan City, Hebei Province as a case study, the whole process of the study comprised of three steps: 1) establishment of the evaluation model of cultivated land quality uniformity based on regional optimum cultivated land quality, and construction of the uniformity evaluation index system from the aspects of soil fertility quality, engineering quality, spatial quality and eco-environment quality, according to the new concept of cultivated land quality; 2) calculation of cultivated land quality uniformity by grading indicators, assigning scores and weighting sums, exploring the local homogenization characteristics of regional cultivated land quality through spatial autocorrelation analysis, and analyzing the constraints and transformative potential of barrier factors; 3) arrangement of HSBFC according to the principle of concentration, continuity and priority to the easy operation. The results revealed that the value of farmland quality uniformity for the administrative villages in the study area was between 7.76 and 21.96, and there was a difference between various administrative villages. The regional spatial autocorrelation patterns included High-High(HH), Low-Low(LL), High-Low(HL) and Low-High(LH). These indicate that regional cultivated land quality has local homogenization characteristics. The most restrictive factors in the study area were the medium and low transformation difficulty indexes, including soil organic matter content, farmland shelterbelt network density, field regularity and scale of the field. In addition, there were also high transformation difficulty indicators in some areas, such as sectional configuration. The project area was divided into four partitions: major construction area, secondary construction area, general construction area, and conditional construction area. The cultivated land area of each subarea was 1538.85 ha, 1224.27 ha, 555.93 ha, and 1666.63 ha, respectively. This comprised of 30.87%, 24.56%, 11.15% and 33.42% of the total project area, respectively. The evaluation model and index system could satisfy the evaluation of farmland quality and diagnosis of obstacle factors to facilitate the subsequent construction decision. The present study provides reference for the practice of regional HSBFC, and a new feasible idea and method for related studies.

Optimization of tensile strength for new type acetone-urea-formaldehyde furan resin using uniform design

In this study,the 24 h tensile strength of new type acetone-urea-formaldehyde furan resin (nitrogen content 3%) was investigated by uniform design optimization.Four independent variables such as acetone:formaldehyde molar ratio (mol/mol),solution pH value,reaction temperature (℃) and reaction time (min) were considered in the experiments.U13(134) uniform design was employed and the equation of 24 h tensile strength model was obtained after 13 experimentations.The 24 h tensile strength was optimized by applying single factor experiments and stepwise non-linear regression analysis.Minitab (Minitab 15 trial version) and MATLAB (R2010a trial version) were used for data analysis.The t-value and p-value indicate that the major impact factors include the interaction effect of solution pH value and reaction temperature (X2X3),the linear terms of acetone:formaldehyde molar ratio (X1),reaction time (X4) followed by the square effects of acetone/formaldehyde molar ratio (X1X1).The optimized results were achieved with the acetone:formaldehyde molar ratio (mol/mol) at 3:1,solution pH value at 6.0,reaction temperature at 70℃,and reaction time at 140 min,respectively.This method can not only significantly reduce the number and cost of the tests,but also provide a good experimental design strategy for the development of furan resin.The investigation shows that the predicted results of 24 h tensile strength are consistent well with the experimental ones.

Analytic model of non-uniform corrosion induced cracking of reinforced concrete structure

In order to perfectly reflect the dynamic corrosion of reinforced concrete (RC) cover in practical engineering,an analytic model of non-uniform corrosion induced cracking was presented based on the elastic-plastic fracture mechanics theory.Comparisons with the published experimental data show that the predictions given by the present model are in good agreement with the results both for natural exposed experiments and short-time indoor tests (the best difference is about 2.7%).Also it obviously provides much better precision than those models under the assumption of uniform corrosion (the maximal improved precision is about 48%).Therefore,it is pointed out that the so-called uniform corrosion models to describe the cover cracking of RC should be adopted cautiously.Finally,the influences of thickness of local rusty layer around the reinforcing steel bar on the critical corrosion-induced crack indexes were investigated.It is found that the thickness of local rusty layer has great effect on the critical mass loss of reinforcing steel,threshold expansion pressure,and time to cover cracking.For local rusty layer thickness with a size of a=0.5 mm,the time to cover cracking will increase by about one times when a/b (a,semi-minor axis;b,semi-major axis) changes from 0.1 to 1 mm.

均匀受力四边简支开孔板屈曲承载力分析

钢管混凝土柱中内隔板上的开孔处理,有利于混凝土的浇筑,但对其开孔会在一定程度上降低自身承载力,进而影响梁柱节点的受力性能。文章采用数值分析的方法,以开孔板的长宽比、宽厚比、开孔率、开孔形状、孔端距等为主要影响因素,对双向均匀受力的四边简支开孔板的屈曲承载力进行了非线性屈曲分析。结果表明:开孔率是影响板件承载力的主要因素,板件的屈曲承载力随着板件开孔率的增大而减小,当开孔率达到0.9时,板件的承载力趋近于0;当板件的长宽比等于1时,开孔板承载力达到最大值,而长宽比≥3时,开孔板的屈曲承载力出现拐点且达到最低值。在实际工程中,板件的开孔率不宜>0.7,板件长宽比宜<3,板件宽厚比宜控制在<50。

基于改进D^(*)Lite算法的移动机器人路径规划

针对在动态环境下采用D^(*)Lite算法进行移动机器人路径规划时存在的搜索效率低、路径不平滑、容易与障碍物顶点碰撞等问题,提出一种基于危险因子和三次均匀B样条曲线的改进方法。首先,进行函数优化,当扩展邻节点时,将传统启发函数计算方法改为对角线距离,以提升规划效率,并在节点代价中融合危险因子,以避免机器人斜向移动时斜穿障碍物尖角而与其发生碰撞;其次,结合三次均匀B样条曲线对路径进行拟合优化,使路径更加平滑。针对上述改进,采用PyCharm软件进行仿真,结果表明,改进后的算法有效提升了路径规划的效率及路径的安全性、实用性。

高结构对称性微半球陀螺设计与制造

针对陀螺高精度小型化需求,该文设计了一种微半球陀螺结构,建立微半球陀螺三维有限元模型,研究了微半球谐振子结构对称性对陀螺性能的影响规律。提出了谐振子圆度及1~4阶质量不对称误差的评价方法,实现了谐振子制造工艺优化,优化后的谐振子圆度误差≤2μm,在此基础上研制了微半球陀螺样机。结果表明,封装后陀螺样机的周向品质因数(Q)值分布为(9.024~9.183)×10^(5),均匀性为±0.87%;速率模式下,陀螺量程为±20(°)/s时,陀螺零偏不稳定性为0.0138(°)/h,角度随机游走为0.0068(°)/√h,展现了高结构对称性微半球陀螺的性能潜力。

黏胶长丝多层丝饼压洗均匀性及其影响因素仿真研究

为了探究黏胶长丝多层丝饼压洗过程中的洗涤均匀性及其影响因素,以黏胶长丝丝饼为研究对象、水为流体介质,以M155型丝饼压洗车为例,采用流体动力学仿真方法建立丝饼压洗模型,对多层分布式丝饼压洗过程中的透液量进行模拟研究,重点研究了长丝线密度、丝饼内径和凸台孔径对多层分布式丝饼压洗均匀性的影响。结果表明:在丝饼压洗过程中,各层丝饼的透液量随压洗层数的增加呈单调递减的变化趋势;丝饼的压洗均匀性随线密度的增大而提高,随丝饼内径和凸台孔径的增大而降低;凸台孔径是影响多层丝饼压洗均匀性的主要因素,其次是丝饼内径和长丝线密度,当长丝线密度为133 dtex、丝饼内径为128 mm、凸台孔径为36 mm时,丝饼的出口流量标准偏差系数最小,为4.62%,多层丝饼的压洗均匀性好。

基于地震动预测残差分析的工程场地分类标准检验与评价

各国抗震设计规范采用不同的指标定义场地分类标准,以中、日、美三国的标准最具有代表性,其能否合理体现相同类别内场地放大的集中性、不同类别间场地放大的差异性鲜见有研究开展检验与评价。针对此问题,利用日本KiK-net台网的强震动记录和台站的钻孔资料,分别以三国分类标准划分台站场地类别,基于地震动预测残差分析方法计算台站的真实场地放大因子,比较分析不同分类标准、不同场地类别的场地放大因子均值及标准差分布情况。得到如下结论:在PGA和SA的短周期段(T<0.1 s),以场地自振周期TS作为分类指标的日本规范没有体现出不同类别间场地放大效应的差异性,以地表20 m内等效剪切波速VSE及覆盖层厚度双指标的中国规范和以地表30 m以内平均剪切波速VS30为指标的美国规范均能较好地反映不同类别间场地放大效应的差异性;日本规范在整体上体现相同场地类别内场地放大的集中性方面表现最好,对于长周期(T>2 s)地震动,中国规范则表现最优越;中国III类场地对中长周期地震动的放大体现出较大离散性,分类标准合理性还需要进一步深入分析。研究结果可为改进场地分类方法提供理论参考。

海管焊接接头腐蚀特性及监测方法研究进展

首先,介绍了海底管道焊接区域的腐蚀理论,其中成分差异理论和活性组织溶解理论是导致焊接区域发生局部腐蚀的主要内因。其次,总结了影响焊接区域腐蚀性能的因素,主要包括焊接区域元素成分、显微组织等材料自身因素以及温度、流速等环境因素。进而,结合焊接区域的属性特点和环境条件,归纳了电偶腐蚀、应力腐蚀、晶间腐蚀等主要的腐蚀类型。最后,重点介绍了元素成分和显微组织结构复杂的焊接区域非均匀腐蚀监测方法,明确了如电化学法、电阻法等的技术特点和适用条件,从而从腐蚀特性及腐蚀监测层面为海管焊接区域的工艺设计和腐蚀管理提供技术指导。

均匀设计与正交设计相结合的植生型多孔混凝土配合比设计研究

基于均匀设计与正交设计相结合的试验方法对植生型多孔混凝土配合比设计进行了分析研究,得出了水胶比、砂率、设计孔隙率和掺合料用量对植生型多孔混凝土性能的影响结果以及最终的配合比方案。试验结果表明:均匀设计与正交设计相结合的试验方法能够在较少试验次数下获得比较充分的数据信息。首先通过均匀试验确定了最佳配合比的范围:水胶比在0.3~0.35之间,设计孔隙率在26%以下,砂率在5%左右,掺合料的掺量为30%~38%。然后在均匀试验的研究基础之上设计正交试验对均匀设计结果验证分析,从而得到了28 d抗压强度为13.4 MPa的优化配合比设计方案。

荧光素酶生物发光法在快速药敏试验中的研究与应用

目的通过荧光素酶生物发光法与微量肉汤稀释法对质控菌株和临床收集菌株的最低抑菌浓度(minimum inhibitory concentration,MIC)进行测定,探讨荧光素酶生物发光法在病原微生物快速药物敏感性试验中的应用价值。方法以D-荧光素钠、Mg^(2+)、O_(2)和待测菌株为荧光素酶催化反应底物,连续检测待测菌与抗生素孵育过程中相对光强度(relative light unit,RLU)变化,计算发光率并确定MIC,分析与微量肉汤稀释法的基本一致性(essential agreement,EA)和分类一致性(categorical agreement,CA)。结果荧光素酶生物发光法快速检测大肠埃希菌、金黄色葡萄球菌等质控菌株MIC与微量肉汤稀释法检测MIC结果CA和EA值均为100%;并应用该检测体系对91株临床革兰阴性菌样本、93株革兰阳性菌样本进行MIC测定,革兰阴性菌检测结果中的6种药物EA和CA分别大于90%和84%,革兰阳性菌检测结果中的6种药物EA和CA分别大于90%和80%,并使检测周期由常规药敏实验的16~24 h缩短至5~6 h。结论荧光素酶生物发光法快速检测药敏结果与微量肉汤稀释法结果具有较高一致性,且更快速、敏感,可为今后的临床检验工作提供全新的快速药敏检测方法。

基于改进蚁群算法的移动机器人路径规划

针对传统蚁群算法在移动机器人最短路径规划方面存在的不足,如算法前期盲目性搜索、收敛速度慢、消耗时间长及转弯次数多,提出了一种改进的蚁群算法。该算法根据正态分布模型,将栅格环境划分不同区域,进行信息素差异化处理,减少蚂蚁初期搜索时间;同时基于A*搜索算法的估价函数思想改进启发函数,引入自适应启发信息因子,增强其目标导向性,提高算法收敛速度,平衡算法全局搜索能力。仿真结果表明,改进的蚁群算法能够规划出收敛速度较快、转弯次数较少以及平滑度更高的路径。

静电吸附净油反应器的设计优化及应用性能

针对变压器油运行过程中受外界因素影响而老化导致性能下降的问题,基于静电吸附原理,利用Ansoft Maxwell有限元仿真软件对“波浪”形曲面极板构造梯度非均匀电场,对变压器油中电中性杂质和带电杂质在梯度非均匀电场中的运动规律及模式进行了探究,进而研制了静电吸附净油反应器;在此基础上,设计了正交试验方案以检验该静电吸附净油反应器对油品品质的提升效果,并优化了净油反应器的工作条件。结果表明,该静电吸附净油反应器的最优工作条件为:电压12 kV、温度45℃、流速0.1 m s;经该反应器净化处理后,变压器油的介质损耗因数由0.04258降至0.00376,说明研制的净油反应器可有效提升老化变压器油的品质。

基于主成分分析的路基压实均匀性检测研究

确保城市道路的安全运行,关系到城市交通的有序工作,对于城市经济发展和居民日常生活具有重要意义。该文针对道路路基安全问题,提出一种基于主成分分析的路基压实均匀性检测方法。从弯沉值指标、动刚度指标、回弹模量指标和弹性模量指标构建出6个主成分,进而根据主成分分析的过程得到各指标与主成分的因子关系。以邯郸市20个路段的路基为对象展开实验,检测结果显示,各路段的路基表现出不同的压实均匀性,有的可以继续正常工作,有的需要进行维修维护处理。该文研究表明运用主成分分析,可以得到各路段路基压实均匀性的量化检测结果,为市政工程的具体处理提供依据。

煤矸石基浆液工作性能影响因素试验研究

为了探讨不同因素对煤矸石基浆液工作性能的影响,以山西省某煤矿煤矸石细粉作细骨料,在分析材料物化特性的基础上,采用均匀试验定量分析了细粉目数和质量分数对煤矸石基浆液工作性能的影响规律,并进行了单因素和方差分析。研究结果表明:随着细粉目数和质量分数的增加,煤矸石基浆液的流动性和泌水率均降低,黏度呈上升趋势;结合单因素和方差分析可知,质量分数对煤矸石基浆液工作性能的影响更显著;不同影响因素下煤矸石基浆液的最优配比为:细粉目数40目、质量分数63.4%;适当增大细粉目数、质量分数能有效改善煤矸石基浆液的流变性能。该研究成果可为煤矸石基浆液的设计和性能评价提供理论依据。

考虑储层非均质性的限流筛管完井设计及应用

现有的限流筛管(LEL)完井和酸化设计没有充分考虑水平井段间及段内储层非均质性对酸化效果的影响。为此,推导了LEL孔眼分布设计解析式,提出了基于“均匀布酸”“均匀酸蚀蚓孔长度”和“均匀酸化后表皮系数”3种设计目标的LEL完井和酸化设计策略,并以中东陆上某油井为例,开展了设计计算。计算结果表明:不考虑储层非均质性时,总孔眼数为198,酸蚀蚓孔长度可达1.36 m,酸化后表皮系数可达-2.88;考虑水平井段间差异后,总孔眼数为135,孔眼的分布更不规律,酸蚀蚓孔长度为0.13 m,酸化后表皮系数为-0.52;考虑纵横向渗透率差异后,总孔眼数为161,各段间孔眼数差异小,酸化后表皮系数为-0.49。所得结论可为碳酸盐岩超长水平井增产设计提供数据参考。