A thermal stress loading technique for large-sized hot dry rock mechanical tests

Testing of large-sized specimens is becoming increasingly important in deep underground rock mechanics and engineering.In traditional mechanical loading,stresses on large-sized specimens are achieved by large host frames and hydraulic pumps,which could lead to great investment.Low-cost testing machines clearly always have great appeal.In this study,a new approach is proposed using thermal expansion stress to load rock specimens,which may be particularly suitable for tests of deep hot dry rock with high temperatures.This is a different technical route from traditional mechanical loading through hydraulic pressure.For the rock mechanics test system of hot dry rock that already has an investment in heating systems,this technology may reduce the cost of the loading subsystem by fully utilizing the temperature changes.This paper presents the basic principle and a typical design of this technical solution.Preliminary feasibility analysis is then conducted based on numerical simulations.Although some technical details still need to be resolved,the feasibility of this loading approach has been preliminarily confirmed.

BF-PT-BZT三元系高温压电陶瓷的介电压电温度稳定性

采用传统固相反应法制备0.54BiFeO_(3)-0.33PbTiO_(3)-0.13Ba(Zr_(x)Ti_(1-x))O_(3)(BF-0.33PT-0.13Ba(Zr_(x)Ti_(1-x)),0.4≤x≤0.8)三元系压电陶瓷,研究了Zr含量(x)对陶瓷的微观结构以及介电、铁电和压电性能的影响。X线衍射(XRD)结果表明,BF-0.33PT-0.13Ba(Zr_(x)Ti_(1-x))三元系陶瓷为单一钙钛矿结构,当0.4≤x≤0.7时,陶瓷相结构为三方-四方相共存;当x=0.8时,陶瓷为三方相结构。扫描电子显微镜(SEM)结果表明,随着Zr含量的增加,陶瓷晶粒尺寸逐渐增加。在25~400℃时,陶瓷的压电常数d 33的波动小于±6%。当x=0.7时,BF-0.33PT-0.13Ba(Zr_(x)Ti_(1-x))具有最优异的综合性能,其介电常数εr、居里温度T_(C)、压电常数d_(33)分别为1194(1 kHz)、438℃和330 pC/N,在25~300℃时,陶瓷的电容温度系数和压电常数变化率分别为16%和8%。结果表明,BF-0.33PT-0.13Ba(Zr_(0.7)Ti_(0.3))陶瓷在高温压电器件中具有较广的应用前景。

基于BF-YOLOv5的红外及可见光图像融合的目标检测

在目标检测领域,夜间、大雾、遮挡及战场伪装等复杂的环境中,使用单一的图像传感器不足以反映全部的场景信息,难以提高复杂环境中目标检测精度。为此提出了以YOLOv5为基础的BF-YOLOv5算法,算法采用双分支结构,通过两个Backbone分别读取可见光图像和红外图像,在每个Backbone中分别融合了CBAM,通过学习的方式自动获取每个特征通道的重要程度,并且利用得到的重要程度来提升特征,抑制对当前任务不重要的特征。在Neck部分融合了BiFormer注意力机制,用来提升对小目标的检测能力。实验证明,BF-YOLOv5算法在红外及可见光FLIR数据集和LLVIP数据集上的检测精度均高于原有算法,在FLIR数据集上平均精度均值(mAP)高达86.6%,相比原有双分支算法提升了2.2个百分点,显著提高红外和可见光融合图像的检测性能。

CR400BF动车组车体端墙焊接模拟仿真与变形控制研究

CR400BF动车组车体端墙为封闭腔体铝合金型材拼焊结构,焊接量大,焊接变形大,尺寸不易控制,影响车辆装配精度和外观质量。针对CR400BF动车组车体端墙焊接变形的控制方法进行研究,通过焊接模拟仿真和实际生产相结合的方式,从结构优化、焊前预制反变形和焊接工艺优化三个方面提出了一套较为优化的端墙焊接变形控制方法。在结构优化方面,采用带立柱的封闭式型材结构代替传统开式型材结构,增加了端墙的刚度。焊前反变形方面,通过调整侧弯梁单件的外形弧度和外部弯梁的组对宽度,实现了对焊接变形的有效控制。焊接工艺优化方面,采用“先长后短、先大后小”正反面交替焊接顺序,并调整段焊间距和数量,进一步减小了焊接变形,保证了端墙各项关键尺寸,进而提高了产品质量和生产效率。

基于BBF优化算法的无人机遥感图像配准研究

针对无人机遥感图像中的亮度、尺度、图像重叠等问题,利用BBF优化算法设计无人机遥感图像配准方法;根据无人机遥感成像原理,获取无人机遥感图像作为配准对象,通过图像融合、校正等步骤,完成初始遥感图像的预处理;提取无人机遥感图像的SIFT特征点和轮廓特征,利用BBF优化算法搜索当前图像与参考图像之间的特征匹配对,完成图像的特征匹配;最终通过粗匹配、精匹配和消除错误匹配点3个步骤,得出无人机遥感图像的配准结果;通过效果测试实验得出结论:优化设计方法的特征匹配点准确率为5.15%,漏配率为3.75%,显著优于传统配准算法。

MHCⅠ类分子BF2*0201递呈ALV-J表位结构和递呈机制解析

MHC B2单倍型鸡对禽白血病病毒感染有较强抗性,这种抗病性可能与被MHC分子递呈的表位刺激活化的T细胞产生的免疫应答有关。本研究拟阐明MHCⅠ类分子BF2*0201递呈ALV-J表位结构和递呈机制。利用凝胶过滤层析筛选出能与MHCⅠ稳定结合的肽。利用晶体初筛试剂盒在体外培育肽和MHCⅠ的二元复合物晶体,并利用COOT、CCP4和PYMOL等软件对该晶体结构进行解析和分析。在这项研究中,作者发现二个与BF2*0201稳定结合的ALV-J CTL表位FVDFANRLI和SALQAFREV。得到一个优质晶体BF2*0201-SALQAFREV(SV9),其生长条件为1.0 mol·L^(-1)丁二酸(pH 7.0),0.1 mol·L^(-1)HEPES(pH 7.0),1%聚乙二醇单甲醚2000。解析高分辨率(1.72?)的BF2*0201-SV9复合物结构后发现BF2*0201抗原结合槽整体呈现弱负电性。保守的残基多位于抗原结合槽的两端,特异性氨基酸赋予BF2*0201中等大小的抗原结合槽。B、C和F口袋起着较重要的锚定作用,口袋残基和水分子与抗原多肽形成氢键作用,将其固定在抗原结合槽中。SV9表位构象中突出的P4-Gln和P7-Arg残基的构象特征表明该位点有被特异性TCR潜在识别的特性。BF2*0201-SV9复合物晶体结构特征有助于阐明B2单倍型MHCⅠ类分子BF2*0201递呈ALV-J表位的机制,有助于解释B2单倍型鸡对ALV存在抗性的原因,为抗病育种工作奠定理论基础。

否定非对合剩余格上BF-理想的BF-平移与BF-扩张理想

进一步研究否定非对合剩余格的双极值模糊理想(简称BF-理想)问题,引入BF-理想的BF-平移、BF-扩张理想和BF-乘积等概念并考察它们的性质特征和相互关系,为进一步揭示否定非对合剩余格的结构特征拓展研究思路.

CR400BF平台动车组牵引系统可靠性评估

对高级修周期间隔延长背景下的CR400BF平台动车组牵引系统进行可靠性评估。基于牵引系统的部件结构及基本的系统组合形式,构建可靠性框图模型;收集整理动车组运营过程中的故障数据,利用直方图法对故障分布模型进行初步判断;通过假定分布模型的参数估计及拟合优度检验,确定各部件的故障分布规律;评估牵引系统各部件及其整体的可靠性指标,绘制可靠度函数图形并进行简要分析。文中所用的分析方法具有较好的通用性,可以进一步推广到动车组其他系统,能够为动车组修程修制改革提供技术支撑。

KMP算法与BF算法的对比和选择

详细分析了KMP算法的核心思想,包括Next数组的构建与应用,以及BF算法的基本思想和执行过程。对两种算法的时间复杂度和空间复杂度进行了对比和讨论,揭示了KMP算法在匹配效率上的优势。针对不同应用场景和需求,提出了算法选择的策略,为字符串匹配问题的算法选择和应用提供有价值的参考。

Research on Shortest Path BFS Strategy in Multi-AGV Scheduling System

With the increasing maturity of automated guided vehicles(AGV)technology and the widespread application of flexible manufacturing systems,enhancing the efficiency of AGVs in complex environments has become crucial.This paper analyzes the challenges of path planning and scheduling in multi-AGV systems,introduces a map-based path search algorithm,and proposes the BFS algorithm for shortest path planning.Through optimization using the breadth-first search(BFS)algorithm,efficient scheduling of multiple AGVs in complex environments is achieved.In addition,this paper validated the effectiveness of the proposed method in a production workshop experiment.The experimental results show that the BFS algorithm can quickly search for the shortest path,reduce the running time of AGVs,and significantly improve the performance of multi-AGV scheduling systems.

B_(2)O_(3)掺杂对0.76BF-0.24BT高温无铅压电陶瓷结构与性能影响

为研究掺杂B_(2)O_(3)对陶瓷的影响,采用固相合成法制备了0.76BiFeO_(3)-0.24BaTiO_(3)-xB_(2)O_(3)(简称0.76BF-0.24BT-x BO)高温无铅压电陶瓷,x为摩尔分数。对0.76BF-0.24BT-x BO陶瓷相结构、微观形貌组织、电学性能、居里温度以及退极化温度进行测试分析。XRD分析表明所有样品均为纯三方钙钛矿结构。观察陶瓷微观形貌,发现晶粒分布均匀,晶界之间有液相存在,且晶粒尺寸随着x增加而增大。陶瓷最佳烧结温度从960℃降至940℃。当x=0.1时,压电常数和剩余极化强度达到最大值,分别为101 pC·N^(-1)、21.5μC·cm^(-2)。0.76BF-0.24BT-x BO陶瓷有着良好的高温稳定性:居里温度T_(C)为585℃,退极化温度T_(d)=560℃。研究结果表明,掺杂B_(2)O_(3)具有改善0.76BF-0.24BT陶瓷微观形貌组织、降低烧结温度和提高电学性能的作用。

真空衰减检漏机在BFS药品包装密封完整性检测中的应用

首先介绍了真空衰减检漏机的结构和具体工作流程,然后给出了其差压法检测原理,实现BFS类药品既定瓶型的密封完整性检测。现以一种0.4 mL BFS滴眼剂产品为例,根据漏率计算公式,在满足客户生产要求速度和5μm检测精度前提下,进行检测模腔和标准模腔的仿形设计。在完成被检测阴性样品、3D打印基准物和5μm漏孔阳性样品等准备工作后,按照设定的参数进行检测,得到泄漏判定阈值范围,通过多组样品的测试证明,采用真空衰减检漏机设备能够有效检测BFS药品包装密封完整性,保证产品质量。

Nano-ZnO/BF复合改性沥青高温性能研究

为提高道路服务质量,延长沥青路面的使用年限,采用纳米氧化锌(Nano-ZnO)和玄武岩纤维(BF)作为复合外掺剂对基质沥青进行改性,以提升其高温性能。对基质沥青、Nano-ZnO改性沥青以及Nano-ZnO/BF复合改性沥青进行常规性能试验和动态剪切流变试验,分析改性剂对沥青高温性能的影响。结果表明:加入纳米氧化锌和玄武岩纤维后,三大性能指标均出现不同程度的改善,且Nano-ZnO/BF复合改性沥青的车辙因子明显高于Nano-ZnO改性沥青,即玄武岩纤维能有效改善沥青的高温性能。

耐替加环素鲍曼不动杆菌中外排泵AdeB与Bfs过表达生物膜形成的关系

目的研究生物内被膜相关基因和向外排水泵基因之间在对耐替加环素鲍曼不动杆菌抗性上的相互作用。方法根据替加环素药敏敏感试验,将72株临床分离的鲍曼不动杆菌分为耐替加环素鲍曼不动杆菌组和替加环素敏感鲍曼不动杆菌组。采用结晶紫染色法观察两株菌的生物被膜形成情况。用RT-PCR方法分析生物被膜相关基因和外排泵基因。结果耐替加环素组生物被膜形成率为82.2%,替加环素敏感组生物被膜形成率为14.8%。转录水平上,耐药组生物被膜合成基因BfmS阳性率明显高于敏感组(P<0.01)。替加环素的最小抑菌浓度生物被膜组明显高于生物被膜缺失组(P<0.01)。外排泵AdeB基因在生物被膜形成组阳性率为95.2%,生物被膜缺失组为38.7%。结论BfS基因和AdeB外排泵基因的共表达可能与鲍曼不动杆菌生物被膜的形成有关。AdeB与BfS转录水平的提高促进了生物膜的形成,从而提高了鲍曼不动杆菌对替加环素的抗性。

CO_(2)在{[Bmim][BF_(4)]+碱金属盐}金属络合离子液体中的溶解度及溶解机理研究

为更加经济有效地捕获CO_(2),减少环境污染,加强资源合理利用,制备不同浓度的[Bmim][BF_(4)]+MBF_(4)(M=Li^(+),Na^(+)和K^(+))金属络合离子液体,在压力100~4 000 k Pa,温度30,40,50℃条件下,使用反应釜进行气体吸收试验,测定CO_(2)在金属络合离子液体(metal complex ionic liquids,MILs)中的溶解度,并采用密度泛函模拟计算MILs与CO_(2)混合体系的稳定构型的电荷分布、Fukui指数和结合能参数,从微观角度分析MILs吸收CO_(2)机理。结果表明:CO_(2)在MILs中的溶解度随温度升高和压力降低而降低;添加碱金属盐可促进离子液体(ionic liquids,ILs)对CO_(2)的吸收,但当ILs中碱金属盐浓度≥1 mol/L时会抑制CO_(2)吸收;0.010 mol/L的[Bmim][BF_(4)]+KBF_(4)吸收CO_(2)量最高;密度泛函计算结果显示[Bmim][BF_(4)]+KBF_(4)体系的K^(+)体积大,氢键作用力强,且K+在ILs中溶解度小,造成的空间位阻较小,因而拥有更多的自由体积容纳CO_(2)。与纯ILs相比,MILs具有更高的CO_(2)吸收量,在温室气体治理中具有较好的应用前景。

奥密克戎变异株BF.7及BA.5.2感染新生儿的临床特征

目的:探讨新型冠状病毒(新冠病毒)奥密克戎变异株BF.7及BA.5.2感染新生儿的临床特点,并且对感染不同亚型病毒株新生儿的临床特征进行比较。方法:选取2022年12月收治的疑似新冠病毒感染的新生儿,进行病毒核酸检测及分型,分析核酸阳性患儿的临床特点、实验室检查及转归,比较新生儿感染不同亚型病毒株的临床特征的差异。结果:新冠病毒核酸检测阳性新生儿43例,其中无症状感染2例,轻型37例,重型4例。轻型病例均表现为上呼吸道感染症状,其中3例伴有消化道症状;重型病例中3例表现为呼吸道症状,1例表现为消化道症状。症状性感染新生儿住院时间5.0(4.0,7.0)d,所有病例均治愈出院,大多数新生儿出院后随访无异常临床表现。对病毒载量较高的33例样本行全基因测序,显示14例为奥密克戎变异株BF.7亚型,19例为BA.5.2亚型。BA.5.2病例中,2例为重型,17例为轻型,4例存在消化道症状;而BF.7组中,2例为无症状,12例为轻型,无病例表现为消化道症状。两组患儿在发病年龄,住院时间,发热、咳嗽、惊厥发生率,实验室检查方面,差异无统计学意义(P>0.05)。结论:新生儿感染新冠病毒奥密克戎变异株后,临床以轻症、呼吸道症状为主,少数表现为消化道症状;感染BA.5.2亚型后,部分患儿出现消化道症状,少数患儿出现重型临床表现,奥密克戎变异株BA.5.2引起消化道症状、重症的发生率是否比BF.7更高需要进一步大样本的研究。

Distribution and exploration direction of medium-and large-sized marine carbonate gas fields in Sichuan Basin, SW China

Based on the analysis of the basic characteristics of medium-and large-sized marine gas fields in Sichuan Basin, combined with the division of major reservoir forming geological units in the marine craton stage and their control on key hydrocarbon accumulation factors, the distribution law of medium-and large-sized marine carbonate gas fields in the basin was examined and the exploration direction was pointed out. Through the analysis of the periodic stretching-uplifting background, it is concluded that five large scale paleo-rifts, three large scale paleo-uplifts, five large scale paleo erosion surfaces were formed in the marine craton stage of Sichuan Basin, and these geological units control the key reservoir forming factors of medium and large sized gas fields:(1) Large-scale paleo-rifts control the distribution of high-quality hydrocarbon generation centers.(2) The margin of large-scale paleo-rifts, high position of paleo-uplifts and paleo erosion surfaces control the distribution of high-quality reservoirs.(3) Large-scale paleo-rifts, paleo-uplifts, paleo erosion surfaces and present tectonic setting jointly control the formation of many types of large and medium-sized traps.(4) Natural gas accumulation is controlled by the inheritance evolution of traps in large geological units. Based on the comparative analysis of the distribution characteristics of medium-and large-sized gas fields and large geological units, it is proposed that the superimposition relationship between single or multiple geological units and the present structure controls the distribution of medium-and large-sized gas fields, and the "three paleo" superimposed area is the most advantageous. According to the above rules, the main exploration fields and directions of medium-and large-sized marine carbonate gas fields in Sichuan Basin include periphery of Deyang-Anyue paleo-rift, eastern margin of Longmenshan paleo-rift, margins of Kaijiang-Liangping oceanic trough and Chengkou-western Hubei oceanic trough, the high part of the subaqueous paleo-uplifts around Central Sichuan, paleo erosion surfaces of the top boundary of Maokou Formation in eastern and southern Sichuan Basin, paleo erosion surfaces of the top boundary of the Leikoupo Formation in central and western Sichuan Basin.

Modeling and simulation of 3D thermal stresses of large-sized castings in solidification processes

When heavy machines and large scaled receiver system of communication equipment are manufactured, it always needs to produce large-sized steel castings, aluminum castings and etc. Some defects of hot cracking by thermal stress often appear during solidification process as these castings are produced, which results in failure of castings. Therefore predicting the effects of technological parameters for production of castings on the thermal stress during solidification process becomes an important means. In this paper, the mathematical models have been established and numerical calculation of temperature fields by using finite difference method (FDM) and then thermal stress fields by using finite element method (FEM) during solidification process of castings have been carried out. The technological parameters of production have been optimized by the results of calculation and the defects of hot cracking have been eliminated. Modeling and simulation of 3D thermal stress during solidification processes of large-sized castings provided a scientific basis, which promoted further development of advanced manufacturing technique.

Rolling Fatigue Test of Large-Sized UHPC Member for Cable Stayed Bridge

Recently, research strives to apply Ultra High Performance Concrete (UHPC) to large-sized structures owing to its remarkable mechanical performance and durability compared to normal concrete. The Korea Institute of Construction Technology proposed SuperBridge800, an edge girder type UHPC cable stayed bridge with central span of 800 m, through its detailed design. The bridge is designed to be erected through the connection of precast UHPC segments. The precast UHPC segment is monolithically composed of one ribbed deck slab and edge girders at each side. The connection between the precast segments is achieved by steel bars at the edge girders and by UHPC cast-in-place wet joint at the slab. Despite of the outstanding mechanical performance of UHPC, the fabrication of large-sized members is a difficult task since UHPC hardens faster than normal concrete and requires a special curing process. Therefore, the constructability of large-sized UHPC segment should be secured to achieve SuperBridge800. Besides, the performance of the connection between segments should also be guaranteed, especially in terms of the fatigue performance of the UHPC cast-in-place joint, which constitutes a weak point. To that goal, two half-scaled UHPC segments are manufactured and the constructability is examined by fabricating a large-sized UHPC member connected with respect to the design conditions. This study conducts rolling fatigue test on the so-fabricated large-sized UHPC member. Rolling fatigue test is carried out up to 2 million cycles considering actual vehicle load at each center and quarter points of the member. The test results confirm that the service limit state is satisfied.

Experimental investigation and numerical simulation of large-sized aluminum tube extrusion forming

Large-sized aluminum tube has big section effect, aspect ratio and thin thickness, so that the extrusion technology is complex and the large specific pressure is generated in extrusion cavity. The temperature variation and velocity effect is difficult to control. The extrusion forming of large-sized aluminum tube was researched and simulated. Three-dimensional thermo-mechanical coupled finite element model was constructed and appropriate boundary conditions were given out. The results show that large-sized aluminum tube can be formed by isothermal extrusion through controlling the extrusion velocity and founding the relationship between extrusion velocity and extrusion temperature.