不锈钢纤维网对热压铁基预合金胎体抗冲击韧性的影响          下载免费PDF全文

孙吉伟  吴海霞  沈立娜  杨甘生 《探矿工程》2020,47(2):73-77

针对孕镶金刚石钻头在孔底钻进时受到各种冲击力而导致胎体出现裂纹甚至断裂的问题，提出了应用不锈钢纤维网提高胎体抗冲击韧性的方法。通过控制纤维网的摆放位置、目数和层数3个变量，测试了不同组合变量下的胎体抗冲击韧性。通过试验得到：（1）不锈钢纤维网能有效提高胎体的抗冲击韧性，而且X轴位置效果更好；（2）当纤维网的目数相同时，胎体抗冲击韧性随纤维网层数的增加而减小；（3）在纤维网层数相同的情况下，随着纤维网目数的增加，胎体抗冲击韧性呈现先增大后减小的趋势。当添加30目单层纤维网时，胎体的抗冲击韧性达到最大值。通过观察冲击断口、分析胎体断裂机理，解释了出现这种规律的原因，并提出了进一步优化胎体抗冲击韧性的方法。  相似文献   

基于纤维梁柱单元的桥梁墩柱地震反应模拟方法研究          下载免费PDF全文

赵泰儀  孙治国  石岩  郭迅 《世界地震工程》2019,35(1):117-127

为讨论利用纤维梁柱单元进行钢筋混凝土桥墩地震反应分析的建模方法，分别以4个悬臂式单柱墩和1个双柱墩拟静力加载试验，以及1个悬臂式单柱墩的振动台试验结果为依据，基于OpenSees数值分析平台建立了桥墩的地震反应分析模型。通过改变单元数量，分析了基于力的纤维梁柱单元和基于位移的纤维梁柱单元对桥墩地震反应的模拟精度。结果表明:对悬臂式单柱墩的拟静力和振动台试验，可沿墩高仅建立1个基于力的纤维梁柱单元，并在墩底串联1个考虑纵筋塑性渗透和粘结滑移的转动弹簧单元，即可获得很好的模拟结果。当采用基于位移的纤维梁柱单元时，应沿墩高至少建立2个单元，且塑性铰区至少有1个，才能保证获得较高的模拟精度。对双柱墩拟静力试验，采用基于力的纤维梁柱单元建模，沿每个墩高建立2个单元即可；以基于位移的纤维梁柱单元建模，建议沿每个墩高建立3个单元，且其中2个单元布置在塑性铰区。当数值模型可对静力滞回曲线取得很好的模拟结果后，该模型一般可对动力作用下墩顶最大位移和墩底最大剪力进行较为准确的模拟，但对墩顶残余位移的模拟精度无法保证。  相似文献   

新型珊瑚海水混凝土力学性能试验研究   总被引：2，自引：1，他引：1  

吴彰钰  余红发  麻海燕  章艳  梅其泉  达波  谭永山  华实 《海洋工程》2018,36(3):59-68

为了解决全珊瑚海水混凝土(coral aggregate seawater concrete,简称CASC)的脆性问题,采用碱式硫酸镁水泥(basic magnesium sulfate cement,简称BMSC)为胶凝材料和剑麻纤维为增韧材料制备了一种新型全珊瑚海水混凝土(NCASC),系统测定了基本力学性能,并与普通硅酸盐水泥制备的CASC、碱式硫酸镁水泥砂石混凝土(basic magnesium sulfate cement concrete,简称BMSCC)、普通砂石混凝土(ordinary portland cement concrete,简称OPC)以及普通轻骨料混凝土(lightweight aggregate concrete,简称LAC)的力学性能进行对比。结果表明:立方体抗压强度(f_(cu),m)在15~35 MPa范围内的NCASC的轴心抗压强度(f_c,m)、劈裂抗拉强度(f_(sp),m)与f_(cu),m之间具有较显著的线性关系;对于f_(cu),m为15~35 MPa的混凝土,相同强度NCASC的f_c,m高于OPC、LAC及BMSCC,其f_c,m与f_(cu),m比值最大,大致在0.85~0.96之间,NCASC的f_(sp),m比OPC和LAC高,但比BMSCC低,且随着强度的提高,OPC与NCASC的f_(sp),m间的差距在增大,而LAC和BMSCC与NCASC的f_(sp),m间的差距在缩小;在强度等级C15~C55的范围中,NCASC和CASC的f_(sp),m、f_c,m与f_(cu),m之间的关系基本可以采用相同的线性回归方程来描述,利用这两个回归线性方程得到对应于标准强度等级的CASC和NCASC的f_(sp),m和f_c,m数据,为CASC力学性能研究与结构设计提供参考依据。  相似文献   

RESEARCH ON PASSIVE SERVO SEISMIC ROTATIONAL ACCELERATION SENSOR WITH LARGE DAMPING     

QU Ming-zhe  GAO Feng  YANG Xue-shan  YANG Dong-xia 《地震地质》2018,40(5):1170-1178

Many strong motion records show that under the strong seismic vibration of, the torsional disfigurement of building structures is a common and serious damage. At present, there are no special sensors for measuring seismic rotation in the world. Most of the experts obtain rotational components through observing deformation, theoretical analysis and calculation. The theory of elastic wave and source dynamics also prove the conclusion that the surface of the earth will rotate when an earthquake occurs. Based on a large number of investigations and experiments, a rotational acceleration sensor was developed for the observation of the rotational component of strong ground motions. This acceleration sensor is a double-pendulum passive servo large-damped seismic rotational acceleration sensor with the moving coil transducer. When an earthquake occurs, the seismic rotational acceleration acts on the bottom plate at the same time. The magnetic circuit system and the middle shaft fixedly connected to the bottom plate follow the bottom plate synchronous vibration, and the moving part composed of the mass ring, the swing frame and the moving ring produces relative corners to the central axis. The two working coils mounted on the two pendulums produce the same relative motion with respect to the magnetic gaps of the two magnetic circuits. Both working coils at this time generate an induced electromotive force by cutting magnetic lines of force in the respective magnetic gaps. The generated electromotive forces are respectively input to respective passive servo large damper dynamic ring transducer circuits and angular acceleration adjusting circuits, and the signals are simultaneously input to the synthesizing circuit after conditioning. Finally, the composite circuit outputs a voltage signal proportional to the seismic rotational acceleration to form a seismic rotational acceleration sensor. The paper presents the basic principles of the rotational acceleration sensor, including its mechanical structure diagram, circuit schematic diagram and mathematical models. The differential equation of motion and its circuit equation are derived to obtain the expressions of the main technical specifications, such as the damping ratio and sensitivity. The calculation shows that when the damping ratio is much larger than 1, the output voltage of the passive servo large damping dynamic coil transducer circuit is proportional to the ground rotation acceleration, and the frequency characteristic of bandpass is wider when the damping ratio is larger. Based on the calibration test, the dynamic range is greater than or equal to 100dB and the linearity error is less than 0.05%. The amplitude-frequency characteristics, the phase-frequency characteristics and their corresponding curves of the passive servo rotational acceleration sensor are acquired through the calculations. Based on the accurate measurement of the micro-vibration of the precision rotating vibration equipment, the desired result is obtained. The measured data are presented in the paper, which verify the correctness of the calculation result. The passive servo large damping rotational acceleration sensor has simple circuit design, convenient operation and high resolution, and can be widely applied to seismic acceleration measurement of earthquake or structure.  相似文献   

Robust dual‐sensor data sea‐surface ghost attenuation for quality control purposes          下载免费PDF全文

Philippe Caprioli  Ralf Ferber 《Geophysical Prospecting》2018,66(5):954-963

Three‐dimensional receiver ghost attenuation (deghosting) of dual‐sensor towed‐streamer data is straightforward, in principle. In its simplest form, it requires applying a three‐dimensional frequency–wavenumber filter to the vertical component of the particle motion data to correct for the amplitude reduction on the vertical component of non‐normal incidence plane waves before combining with the pressure data. More elaborate techniques use three‐dimensional filters to both components before summation, for example, for ghost wavelet dephasing and mitigation of noise of different strengths on the individual components in optimum deghosting. The problem with all these techniques is, of course, that it is usually impossible to transform the data into the crossline wavenumber domain because of aliasing. Hence, usually, a two‐dimensional version of deghosting is applied to the data in the frequency–inline wavenumber domain. We investigate going down the “dimensionality ladder” one more step to a one‐dimensional weighted summation of the records of the collocated sensors to create an approximate deghosting procedure. We specifically consider amplitude‐balancing weights computed via a standard automatic gain control before summation, reminiscent of a diversity stack of the dual‐sensor recordings. This technique is independent of the actual streamer depth and insensitive to variations in the sea‐surface reflection coefficient. The automatic gain control weights serve two purposes: (i) to approximately correct for the geometric amplitude loss of the Z data and (ii) to mitigate noise strength variations on the two components. Here, Z denotes the vertical component of the velocity of particle motion scaled by the seismic impedance of the near‐sensor water volume. The weights are time‐varying and can also be made frequency‐band dependent, adapting better to frequency variations of the noise. The investigated process is a very robust, almost fully hands‐off, approximate three‐dimensional deghosting step for dual‐sensor data, requiring no spatial filtering and no explicit estimates of noise power. We argue that this technique performs well in terms of ghost attenuation (albeit, not exact ghost removal) and balancing the signal‐to‐noise ratio in the output data. For instances where full three‐dimensional receiver deghosting is the final product, the proposed technique is appropriate for efficient quality control of the data acquired and in aiding the parameterisation of the subsequent deghosting processing.  相似文献   

水面菲涅尔反射对~761 nm叶绿素荧光估算的影响     

温颜沙  邓建明  毛志华  石静  周杨  鲁婷  陆应诚 《遥感学报》2018,22(3):424-431

叶绿素荧光是光合作用的有效探针,可用于海洋浮游植物的监测与定量评估。太阳诱导叶绿素荧光覆盖可见光—近红外650—800 nm,在～685 nm与～740 nm表现出两个形态不同的荧光峰特征。基于～685 nm荧光峰的叶绿素浓度反演算法较为成熟,但在高悬浮物和高叶绿素浓度的水体中,算法的有效性不足。基于叶绿素荧光在氧气吸收谱段(O2-A)的填充作用,水体遥感反射率光谱～761 nm峰值中包含有太阳诱导叶绿素荧光信号,能用于水体叶绿素浓度的估算,但该反射峰形态特征还取决于传感器的光谱分辨率。本研究基于不同光谱分辨率的大气吸收谱线特征,模拟了水体遥感反射率光谱(750—775 nm)上太阳诱导叶绿素荧光的信号响应特征;分析了利用遥感反射率(～761 nm)计算叶绿素荧光的原理,阐明了不同光谱分辨率条件下水体叶绿素荧光信号在反射光谱上的形态变化规律。采用水面以上测量法获取的离水光谱辐亮度,包含了水面的菲涅尔反射信号,由于真实的菲涅尔系数难以准确测量,这给基于～761 nm处遥感反射率峰值的荧光信号估算带来不确定性影响。研究表明,假定菲涅尔系数为0时,虽然～761 nm叶绿素荧光信号与其浓度具有较好的线性统计关系,但却带来较大的不确定性;这种不确定的影响,在低浓度叶绿素水体中表现明显,在高浓度叶绿素水体中,影响相对较小;准确估算菲涅尔系数,有助于减少这种不确定性影响。对基于遥感反射率～761 nm叶绿素荧光信号的深入探讨,将能推动未来水体叶绿素荧光的识别与利用。  相似文献   

纤维混凝土的低温性能和冻融损伤机理研究   总被引：1，自引：0，他引：1  

姚武 《冰川冻土》2005,27(4):545-549

研究了低温环境下(气温变化为-15～5 ℃), 聚丙烯腈(PAN)纤维对混凝土力学性能增长趋势的影响, 探讨了快速冻融试验条件下(-17.5～7.5 ℃) PAN纤维混凝土的抗冻融耐久性, 通过扫描电子显微镜(SEM)观察了PAN纤维在混凝土中的分散性以及纤维和混凝土界面结合状况. 结果表明: 掺入PAN纤维增加了混凝土的含气量、改善了混凝土的微观结构, 提高了混凝土抗裂阻力, 因而有利于混凝土低温环境下的强度增长和提高了混凝土的抗冻融耐久性. 混凝土经受冻融循环破坏实质上是疲劳损伤累积的过程. 通过实验研究和理论分析, 探讨了聚丙烯腈纤维混凝土冻融疲劳损伤的机理, 研究了纤维对混凝土抵抗冻融破坏的影响, 建立了聚丙烯腈纤维混凝土冻融损伤的演变方程.  相似文献   

膜蒸馏处理糠醛废水的实验研究   总被引：2，自引：1，他引：1  

张凤君  李卿  马玖彤  于广菊 《吉林大学学报(地球科学版)》2006,36(2):270-273

采用中空纤维膜蒸馏技术研究了糠醛废水的膜蒸馏处理效果,考察了料液相的温度、醋酸浓度、流速、吸收液浓度等因素对处理效果的影响。结果表明:在温差为15℃、料液的浓度为0.306 mol/mL时,速度为8 mL/min;吸收液的质量浓度为25 g/L时,速度为3 mL/min。运行12 h后,料液的pH值由开始的1.9升高为5.1,醋酸的去除率为76.3%,糠醛的去除率为40.1%。此过程可降低料液中糠醛和醋酸的含量,减小了低分子量有机酸对微生物危害的影响,为后续生物处理奠定了基础。  相似文献   

干湿循环效应下玄武岩纤维加筋黄土三轴剪切力学行为研究     

许健  武智鹏  陈辉 《岩土力学》2022,(1):28-36

通过干湿循环效应下的数字图像三轴剪切试验、CT扫描试验及扫描电镜SEM(scanning electron microscopy)试验,研究了玄武岩纤维加筋黄土干湿循环过程的三轴剪切力学行为及微细观结构演化机制。结果表明:随干湿循环次数增加,纤维含量较高试样的三轴剪切鼓胀破坏形态转变为剪切带破坏;干湿循环早期阶段,剪切破坏形态随纤维含量增加,由剪切带破坏转变为鼓胀破坏。干湿循环作用和纤维含量对应力-应变曲线的类型及特征无明显影响,均表现为应变硬化型。破坏偏应力随干湿循环次数增加而逐渐减小,但衰减速率逐渐减小;破坏偏应力随纤维含量增大先增加而后减小,呈抛物线变化特征,存在一个最佳纤维含量为0.6%。CT数均值ME值呈现与破坏偏应力相似的变化规律。干湿循环作用下筋-土界面产生一定的开裂和松弛现象,弱化了纤维的加筋效应,但与素黄土相比,纤维加筋黄土的微观结构表现出显著的整体稳定性。构建了干湿循环效应下玄武岩纤维加筋黄土的宏细观损伤变量,其表现出一致的变化规律。  相似文献   

垃圾土中排水柱孔扩张问题弹塑性解     

赵云  杨忠方  凌道盛  陈鹏  肖昭然 《岩土力学》2022,43(7):1825-1832

随着城市规模扩大,一些垃圾场地被再次利用进行工程建设。垃圾土具有高压缩性、可降解性,其纤维成分具有一定的加筋作用,这些特性给垃圾场地中静力触探、沉桩、旁压试验等工程的开展带来新的挑战。为此,基于考虑纤维加筋作用的垃圾土本构模型和大变形理论,通过引入中间变量,将孔扩张问题转化为求解一组给定边界条件的常微分方程组,继而给出垃圾土中排水柱孔扩张问题的弹塑性理论解。通过将退化解与既有基于修正剑桥模型的柱孔扩张解答对比验证了结果的可靠性。在此基础上,系统分析了超固结比和纤维含量对柱孔扩张过程中孔周应力分布和应力路径的影响。结果表明：与黏性土相比,垃圾土具有更大的塑性区半径;随着超固结比和纤维含量的增加,孔壁处极限压力和塑性区半径分别呈增加和减小趋势,不同纤维含量的垃圾土经历塑性阶段后,均达到泥状物成分的临界状态线附近。  相似文献