Dynamic Testing of Elastic Modulus,Shear Modulus,and Poisson’s Ratio of Bamboo Scrimber

The bamboo scrimber is an anisotropic material.The elastic constant values of the bamboo scrimber specimens measured by the dynamic and static methods are consistent,and the dynamic test method has the advantages of rapidity,simplicity,good repeatability,and high precision.Bamboo scrimber has strong potential as a building material,and its elastic constant is an important index to measure its mechanical properties.To quickly,simply,non-destructively,and accurately detect the elastic constant of the bamboo scrimber,they were dynamically tested by the free plate transient excitation method and cantilever plate torsional vibration method.The static four-point bending method was used to verify the accuracy and reliability of the dynamic elastic modulus,shear modulus,and Poisson’s ratio of the bamboo scrimber.The mechanism analysis and evaluation of the quality grade,homogeneity,and size effect of the bamboo scrimber whole board were carried out.The main results show that the dynamic elastic modulus,shear modulus,and Poisson’s ratio of the bamboo scrimber are 12 GPa,1500 MPa,and 0.31,respectively,which meet the requirements of GB/T 40247-2021 for structural bamboo scrimber.

A Transient-Pressure-Based Numerical Approach for Interlayer Identification in Sand Reservoirs

Almost all sandstone reservoirs contain interlayers. The identification and characterization of these interlayers iscritical for minimizing the uncertainty associated with oilfield development and improving oil and gas recovery.Identifying interlayers outside wells using identification methods based on logging data and machine learning isdifficult and seismic-based identification techniques are expensive. Herein, a numerical model based on seepageand well-testing theories is introduced to identify interlayers using transient pressure data. The proposed modelrelies on the open-source MATLAB Reservoir Simulation Toolbox. The effects of the interlayer thickness, position,and width on the pressure response are thoroughly investigated. A procedure for inverting interlayer parametersin the reservoir using the bottom-hole pressure is also proposed. This method uses only transient pressuredata during well testing and can effectively identify the interlayer distribution near the wellbore at an extremelylow cost. The reliability of the model is verified using effective oilfield examples.

Impact of Typical Steady-state Conditions and Transient Conditions on Flow Ripple and Its Test Accuracy for Axial Piston Pump

The current research about the flow ripple of axial piston pump mainly focuses on the effect of the structure of parts on the flow ripple. Therein, the structure of parts are usually designed and optimized at rated working conditions. However, the pump usually has to work in large-scale and time-variant working conditions. Therefore, the flow ripple characteristics of pump and analysis for its test accuracy with respect to variant steady-state conditions and transient conditions in a wide range of operating parameters are focused in this paper. First, a simulation model has been constructed, which takes the kinematics of oil film within friction pairs into account for higher accuracy. Afterwards, a test bed which adopts Secondary Source Method is built to verify the model. The simulation and tests results show that the angular position of the piston, corresponding to the position where the peak flow ripple is produced, varies with the different pressure. The pulsating amplitude and pulsation rate of flow ripple increase with the rise of pressure and the variation rate of pressure. For the pump working at a constant speed, the flow pulsation rate decreases dramatically with the increasing speed when the speed is less than 27.78% of the maximum speed, subsequently presents a small decrease tendency with the speed further increasing. With the rise of the variation rate of speed, the pulsating amplitude and pulsation rate of flow ripple increase. As the swash plate angle augments, the pulsating amplitude of flow ripple increases, nevertheless the flow pulsation rate decreases. In contrast with the effect of the variation of pressure, the test accuracy of flow ripple is more sensitive to the variation of speed. It makes the test accuracy above 96.20% available for the pulsating amplitude of pressure deviating within a range of ~6% from the mean pressure. However, with a variation of speed deviating within a range of ±2% from the mean speed, the attainable test accuracy of flow ripple is above 93.07%. The model constructed in this research proposes a method to determine the flow ripple characteristics of pump and its attainable test accuracy under the large-scale and time-variant working conditions. Meanwhile, a discussion about the variation of flow ripple and its obtainable test accuracy with the conditions of the pump working in wide operating ranges is given as well.

Neuroprotective effects of meloxicam on transient brain ischemia in rats:the two faces of anti-inflammatory treatments

The inflammato ry response plays an important role in neuroprotection and regeneration after ischemic insult.The use of non-ste roidal anti-inflammatory drugs has been a matter of debate as to whether they have beneficial or detrimental effects.In this context,the effects of the anti-inflammatory agent meloxicam have been scarcely documented after stro ke,but its ability to inhibit both cyclooxygenase isoforms(1 and 2) could be a promising strategy to modulate postischemic inflammation.This study analyzed the effect of meloxicam in a transient focal cerebral ischemia model in rats,measuring its neuroprotective effect after 48 hours and 7 days of reperfusion and the effects of the treatment on the glial scar and regenerative events such as the generation of new progenitors in the subventricular zone and axonal sprouting at the edge of the damaged area.We show that meloxicam’s neuroprotective effects remained after 7 days of reperfusion even if its administration was restricted to the two first days after ischemia.Moreover,meloxicam treatment modulated glial scar reactivity,which matched with an increase in axonal sprouting.However,this treatment decreased the formation of neuronal progenitor cells.This study discusses the dual role of anti-inflammatory treatments after stro ke and encourages the careful analysis of both the neuroprotective and the regenerative effects in preclinical studies.

正弦扫描振动模拟瞬态振动环境等效性研究

使用正弦扫描振动模拟低频瞬态振动环境是航天工业的一种传统试验方法,其对产品的环境考核可能同时存在欠试验和过试验。首先对两者等效性进行分析,进而采用冲击响应谱、最大响应谱等相关理论,对等效正弦扫描振动试验条件制定中的扫描速率、阻尼系数进行了研究,并给出参数选择建议。最终提出了制定正弦扫描振动环境试验条件的步骤,为采用正弦扫描试验进行低频瞬态环境适应性考核提供借鉴。

短路电流对二次设备电磁干扰分析及抗干扰措施

目前智能配电网的建设不断推进,加快了配电开关一二次设备相关技术的发展,也对长期处于复杂电磁环境下的二次设备提出了更高的要求。文中基于合成试验回路搭建了短路电流对配电开关二次设备电磁干扰试验平台,开展开断故障电流对相关干扰对成套设备的影响研究,分析干扰信号产生原因、频谱特性。针对干扰的特性设计一套抗干扰测量系统,利用ATP-EMTP模拟合成回路进行仿真分析并进行实际测试验证。结果表明:成套设备进行开断试验时,二次设备端口会受到较大的干扰。电流波形也会发生畸变,干扰电流的最高可到26 A,且干扰电流受电流互感器磁饱和和退饱和的影响,通过增加抗干扰措施,二次设备输出准确度与之相比提升约40%。本次的试验结果可为一二次融合成套设备中二次设备电磁兼容研究提供相关依据。

导叶叶片数对喷水推进泵瞬态特性的影响

为揭示喷水推进泵不同导叶叶片数时的瞬态特性规律,基于DES混合模拟和FEM声学有限元方法,对喷水推进泵流场和声场进行数值模拟,并进行试验,验证了瞬态特性数值计算方法的准确性,研究了不同导叶叶片数(Z=5,6,7)对喷水推进泵推力、压力脉动、内流诱导噪声等性能的影响规律.结果表明:随着导叶叶片数增大,喷水推进泵推力先减小后增大,流量逐渐减小,转矩逐渐增大;导叶叶片数对叶轮出口压力脉动分布规律影响较小,对压力脉动主频处幅值有较大影响,轮毂处压力脉动幅值受导叶叶片数增大先减小后增大,轮缘和流道中心处幅值随着导叶叶片数增大逐渐减小;导叶叶片数变化会改变内流诱导噪声主频,增大导叶叶片数有利于降低喷水推进泵内流诱导噪声主频处幅值和总声压级.

基于法拉第效应的宽频光学电流传感器研制及其性能研究

当前智能电网和新型电力系统中存在大量高频暂态电流分量。高频暂态电流是反映电力系统扰动及故障过程的重要信息,对其波形、频率、幅值等信息参数进行实时观测是预防和确保电网安全稳定运行的前提。而传统电流测量方式存在频带窄、易受电磁干扰、绝缘配合难度大等问题,难以对暂态电流进行有效检测。故提出并设计了一种具有抗干扰能力的螺线管式宽频光学电流传感器,基于传感器性能测试平台,研究了传感器的灵敏度、线性度以及频率特性,结果表明目前传感器的灵敏度为62.57 mV/A且带宽可以达到1 MHz以上;此外搭建了直流电弧实验平台对直流电弧进行了测量。试验结果表明,该传感器可实现对直流至高频电弧分量的有效测量,其测量结果与标准电流探头的线性相关度可达0.9971,多次实验结果表明相关系数的相对变化率小于2%,具有一定工程使用价值。

一种无回跳特性TVS的快速建模方法及验证

瞬态抑制二极管是一种常见的电磁防护器件,在静电防护、浪涌防护、强电磁脉冲防护中有着广泛应用,其瞬态行为对于指导电磁防护设计具有重要意义,但市面上一般没有现成可用的模型。文中基于ADS软件建立一种无回跳特性TVS的仿真模型,使用复杂度较低的TVS模型框架。在建模过程中,分析了模型参数对于精度的影响,并利用S参数测试方法和TLP测试方法获取实测数据,最终构建了两款TVS的完整仿真模型。模型验证结果表明,该模型仿真与实测数据在TVS未工作、即将工作和进入工作状态时都较为一致,仿真与实测误差最大不超过10%,说明其精度足够支撑TVS瞬态仿真。所建立的模型可直接用于TVS的瞬态仿真,该方法也可用于其他无回跳特性TVS的模型构建,为电磁防护设计提供支持。

基于过渡态测试数据的高压涡轮盘瞬态热分析模型优化方法

为了提高发动机高压涡轮盘瞬态温度场的分析精度,提出利用试车过程中旋转部件过渡态壁温测试数据的高压涡轮盘瞬态热分析模型优化方法。引入自适应模拟退火(ASA)优化算法,将典型位置处温度计算值与测试数据之间的均方根误差最小为优化目标,建立了过渡态热分析计算模型优化方法,实现了高压涡轮盘瞬态热分析模型的自动优化。以高压涡轮盘实际历程下壁温测点数据为基准,开展瞬态热分析模型优化及验证。结果表明:优化后热分析模型的节点温度计算值随时间的变化曲线与实测温度变化趋势吻合良好,且在全时间域内高压涡轮盘典型位置处瞬态计算壁温与测试值的平均偏差为11 K,最大偏差为15 K,满足工程计算的精度要求。算例表明高压涡轮盘瞬态热分析模型优化方法在提升温度场修正计算效率的同时具备较高的计算精度。

地下水示踪试验中穿透曲线的解析——以平果县平南赤泥堆场地下岩溶系统为例

地下水示踪试验中的穿透曲线解译是一项重要的技术,通过这一技术,可以获得关于地下岩溶管道的信息,如管道的尺寸、连通性、分布和方向等。然而,在实际应用中,仍存在许多问题需要解决,以提高对穿透曲线的解释准确性和可靠性。以平果县平南赤泥堆场地下岩溶系统为例,利用荧光计获取示踪数据结合Qtracer2软件对示踪剂回收率、平均滞留时间、弥散系数、地下水平均流速等参数进行计算,并结合当前被广泛认同的结论对穿透曲线中的多峰、异常波动等现象进行解释。由于本次研究区的岩溶管道规模小,将岩溶管道的复杂性降低到了可计算程度,对并联岩溶管道长度近似值进行计算,最后排除曲线尾部的峰值为溶质暂态存储现象,分析表明研究区属于多管道岩溶系统,地下水主要表现为“岩溶水扩散流”特征。本研究为地下水数值模型提供了依据,为研究如何分析岩溶复杂介质运移特征提供参考。

基于瞬态动力学的汽车轮毂落锤试验分析

汽车轮毂是汽车运行的主要部位之一,瞬态动力学是一种动态特性分析方法,可用于评估轮毂的结构和性能。针对汽车轮毂落锤试验模型,利用三维制图软件和ANSYS,通过测算与仿真,得到汽车轮毂落锤试验的应力应变变化规律。结果显示,落锤试验中汽车轮毂的最大等效应力位于轮毂气孔附近,最大形变和最大切应力位于轮毂气孔下端面处。轮毂气孔附近是危险点,与实际落锤试验结果相符。该结果对轮毂结构的设计与优化具有一定意义。

航空发动机燃油阶跃试验供油规律

为了分析燃油阶跃逼喘试验中供油规律对发动机的影响,以小涵道比混合排气涡扇发动机为研究对象,将发动机模化为典型的基本部件组成的系统,构建考虑转子动力学方程及容积效应的平衡方程。对发动机燃油阶跃逼喘过程进行仿真,理论计算结果与试验数据误差在4%以内,验证了计算方法的准确性。通过仿真获取了阶跃供油规律的关键影响因素,仿真结果能够为发动机燃油阶跃试验的试验提供理论基础,降低发动机在燃油阶跃逼喘过程中的超温、超转风险,具有一定的工程意义。

双螺杆压缩机工作性能参数仿真及试验研究

双螺杆压缩机是将低压气体转换为高压气体的一种旋转机械装置,现阶段存在着影响双螺杆压缩机内部流场性能参数的研究不够全面,缺少相关试验分析,并且四大工作性能参数对双压缩机性能的影响尚未系统化、定性化描述的问题。以5~6齿双螺杆压缩机为研究对象,利用Pro.e和Pumplinx软件为研究手段,建立双螺杆压缩机3D流体域模型,采用动网格技术分析了功率、流量、比功率、压力四大工作性能参数在瞬态流场特性下的变化规律,同时,进行了试验验证。结果表明,功率仿真数据与试验数据相比较,差异率为0.13%,排气量差异率为0.933%,比功率差异率为4.92%,压力差异率为0.388%。由此可知仿真值与试验值差异率均小于5%,吻合度较好,研究结果完善了双螺杆压缩机性能参数评价标准,为后续双螺杆压缩机性能优化提供了一种新方法。

某工业设备钢结构平台振动问题的动力测试与分析

以某工业设备钢结构平台外激励下的振动问题为背景,对该平台振动设备开启状态与自然扰动状态下典型位置加速度、速度响应进行了动力测试,采用3D3S(V14.10)软件建立了整体与局部模型并进行了模态分析;然后,采用ABAQUS软件对考虑简化振动条件下的结构进行了谐响应分析,分析结果表明,激励频率并非共振显著频率;最后,进行了简化振动条件下的瞬态动力学分析,并对增加板厚与加大梁柱截面2种加固方式进行了减振效果对比分析,分析结果表明,对该类型钢结构平台,增加楼板刚度及结构刚度不能够显著降低振动水平,针对类似结构,应采取隔振措施来解决设备激励导致的结构振动问题。

Transient simulation of a pump-turbine with misaligned guide vanes during turbine model start-up

Experimental studies of a model pump-turbine S-curve characteristics and its improvement by misaligned guide vanes （MGV） were extended to prototype pump turbine through 3-D transient flow simulations. The unsteady Reynolds-averaged Navier-Stokes equations with the SST turbulence model were used to model the transient flow within the entire flow passage of a reversible pump-turbine with and without misaligned guide vanes during turbine model start-up. The unstable S-curve and its improvement by using misaligned guide vane were verified by model test and simulation. The transient flow calculations were used to clarify the variations of pressure pulse and internal flow behavior in the entire flow passage. The use of misaligned guide vanes can eliminate the S-curve characteristics of a pump-turbine, and can significantly increase the pressure pulse amplitude in the entire flow passage and the runner radial forces during start-up. The MGV only decreased the pulse amplitude on the guide vane suction side when the rotating speed was less than 50% rated speed. The hydraulic reason is that the MGV dramatically changed the flow patterns inside the entire flow passage, and destroyed the symmetry of the flow distribution inside the guide vane and runner.

Estimation of pulsed laser-induced single event transient in a partially depleted silicon-on-insulator 0.18-μm MOSFET

In this paper, we investigate the single event transient （SET） occurring in partially depleted silicon-on-insulator （PDSOI） metal-oxide-semiconductor （MOS） devices irradiated by pulsed laser beams. Transient signal characteristics of a 0.18-p.m single MOS device, such as SET pulse width, pulse maximum, and collected charge, are measured and an- alyzed at wafer level. We analyze in detail the influences of supply voltage and pulse energy on the SET characteristics of the device under test （DUT）. The dependences of SET characteristics on drain-induced barrier lowering （DIBL） and the parasitic bipolar junction transistor （PBJT） are also discussed. These results provide a guide for radiation-hardened deep sub-micrometer PDSOI technology for space electronics applications.

Transient elastography: A non-invasive tool for assessing liver fibrosis in HIV/HCV patients

AIM: To assess the prevalence of advanced liver fibrosis (ALF) in human immunodeficiency virus (HIV), hepatitis C virus (HCV) and HIV/HCV patients using transient elastography, and to identify factors associated with ALF. METHODS: Between September 2008 and October 2009, 71 HIV mono-infected, 57 HIV/HCV co-infected and 53 HCV mono-infected patients on regular follow-up at our Center were enrolled in this study. Alcohol intake, the main parameters of liver function, presence of HCV-RNA, HIV-RNA, duration of highly active anti-retroviraltherapy (HAART) and CD4 cell count were recorded. ALF was defined as liver stiffness (LS) ≥ 9.5 kPa. To estimate liver fibrosis (LF) a further 2 reliable biochemical scores, aspartate aminotransferase platelet ratio index (APRI) and FIB-4, were also used. RESULTS: LS values of co-infected patients were higher than in either HIV or HCV mono-infected patients (χ 2M H = 4, P < 0.04). In fact, LS ≥ 9.5 was significantly higher in co-infected than in HIV and HCV mono-infected pa-tients (χ 2 = 5, P < 0.03). Also APRI and the FIB-4 index showed more LF in co-infected than in HIV mono-infect-ed patients (P < 0.0001), but not in HCV mono-infected patients. In HIV?HCV co-infected patients, the extent of LS was significantly associated with alcohol intake (P < 0.04) and lower CD4+ cell count (P < 0.02). In HCV pa-tients, LS was correlated with alcohol intake (P < 0.001) and cholesterol levels (P < 0.03). Body mass index, dia-betes, HCV-and HIV-viremia were not significantly cor-related with LS. In addition, 20% of co-infected patients had virologically unsuccessful HAART; in 50% compliance was low, CD4+ levels were < 400 cells/mm 3 and LS was > 9.5 kPa. There was no significant correlation between extent of LF and HAART exposure or duration of HAART exposure, in particular with specific dideoxynucleoside analogues. CONCLUSION: ALF was more frequent in co-infected than mono-infected patients. This result correlated with lower CD4 levels. Protective immunological effects of HAART on LF progression outweigh its hepatotoxic effects.

Processing and analysis of transient pressure measurements from permanent down-hole gauges

With permanent down-hole gauges （PDGs） widely installed in oilfields around the world in recent years, a continuous stream of transient pressure data in real time is now available, which motivates a new round of research interests in further developing pressure transient processing and analysis techniques. Transient pressure measurements from PDG are characterized by long term and high volume data. These data are recorded under unconstrained circumstances, so effects due to noise, rate fluctuation and interference from other wells cannot be avoided. These effects make the measured pressure trends decline or rise and then obscure or distort the actual flow behavior, which makes subsequent analysis difficult. In this paper, the problems encountered in analysis of PDG transient pressure are investigated. A newly developed workflow for processing and analyzing PDG transient pressure data is proposed. Numerical well testing synthetic studies are performed to demonstrate these procedures. The results prove that this new technique works well and the potential for practical application looks very promising.

A well test model for stress-sensitive and heterogeneous reservoirs with non-uniform thicknesses

In view of the anisotropy,heterogeneity and stress-sensitive permeability in low permeability reservoirs,an analytical well test model was established by introducing the concept of permeability modulus.This model considered the permeability stress-sensitivity,wellbore storage effect,and the skin effect.The perturbation technique and Laplace transformation were used to solve the mathematical model analytically in Laplace space,and the bottom-hole pressure type curves were plotted and analyzed in real space by using the Stehfest numerical inversion.