Electro-mechanical coupling properties of band gaps in an with periodically attached “spring-mass” resonators

The model of a locally resonant (LR) epoxy/PZT-4 phononic crystal (PC)nanobeam with “spring-mass” resonators periodically attached to epoxy is proposed. The corresponding band structures are calculated by coupling Euler beam theory, nonlocal piezoelectricity theory and plane wave expansion (PWE) method. Three complete band gaps with the widest total width less than 10GHz can be formed in the proposed nanobeam by comprehensively comparing the band structures of three kinds of LR PC nanobeams with resonators attached or not. Furthermore, influencing rules of the coupling fields between electricity and mechanics,“spring-mass” resonator, nonlocal effect and different geometric parameters on the first three band gaps are discussed and summarized. All the investigations are expected to be applied to realize the active control of vibration in the region of ultrahigh frequency.

Effective electromechanical coupling coefficient of high-overtone bulk acoustic resonator

A high-overtone bulk acoustic resonator （HBAR） is composed of a substrate, a piezoelectric film and upper and lower electrodes, the influences of their structure parameter （thickness） and performance parameter （characteristic impedance） on effective electromechani- cal coupling coefficient K^2eff are investigated systematically. The relationship between K^2eff and these parameters is obtained by a lumped parameter equivalent circuit instead of distributed parameter equivalent circuit near the resonant frequency, and K^2eff at the resonance frequency closest to the given frequency is analyzed. The results show that K^2eff declines rapidly and oscillatorily with the continuous increase of the substrate thickness when the piezoelectric film thickness is fixed, and decreases inversely proportion to the thickness when the substrate thick-ness is greater than a certain value. With the ratio of the characteristic impedance of the substrate to the piezoelectric layer increasing, the maximum of K^2eff obtained from the vari- ation curve of K^2eff with the continuous increase of the piezoelectric film thickness decreases rapidly before reaching the minimum value, and later increases slowly. Fused silica with low impedance is appropriate as the substrate of HBAR to get a larger K^2eff. Compared with Al electrode, Au electrode can obtain larger K^2eff when the appropriate electrode thickness is selected. The revealed laws above mentioned provide the theoretical basis for optimizing parameters of HBAR.

Influence of air pressure on mechanical effect of laser plasma shock wave

The influence of air pressure on mechanical effect of laser plasma shock wave in a vacuum chamber produced by a Nd：YAG laser has been studied. The laser pulses with pulse width of 10ns and pulse energy of about 320mJ at 1.06μm wavelength is focused on the aluminium target mounted on a ballistic pendulum, and the air pressure in the chamber changes from 2.8 × 10^ 3 to 1.01 × 10^5pa. The experimental results show that the impulse coupling coefficient changes as the air pressure and the distance of the target from focus change. The mechanical effects of the plasma shock wave on the target are analysed at different distances from focus and the air pressure.

Study of the Isotope Effects of Novel Superconducting LaH₁₀-LaD₁₀and H₃S-D₃S Systems

This paper is directed to study the isotope effects of some superconducting materials that have a strong coupling coefficient λ > 1.5, and focuses on new superconducting materials whose critical temperature is close to room temperature, specifically LaH10-LaD10 and H3S-D3S systems. The Eliashberg-McMillan (EM) model and the recent Gor’kov-Kresin (GK) model for evaluating the isotope effects coefficient α were examined for these systems. The predicted values of α as a function of pressure, as compared to experimental values led to inference that these two models, despite their importance and simplicity, cannot be considered complete. These models can be used to calculate isotope effect of most superconducting materials with strong coupling coefficients but with critical reliability. The significance of studying the isotope effect lies in the possibility of identifying the interatomic forces that control the properties of superconducting materials such as electrons-mediated phonons and Coulomb interactions.

辐照和热耦合作用对改性钠基膨润土铯吸附影响研究

为阐明γ辐照和热耦合作用对缓冲材料吸附性能的影响,本文以内蒙古兴河县高庙子改性钠基膨润土为研究对象,采用批式法测定了γ辐照和热耦合作用前后^(137)Cs在钠基膨润土中的吸附分配系数。结果显示,在85~610 Gy/h的剂量率范围和0.28~0.74 MGy的累积剂量范围内,γ辐照和热同时作用的实验条件可增强钠基膨润土对^(137)Cs的吸附能力,钠基膨润土对^(137)Cs的分配系数随剂量率的增大逐渐增大,较未辐照原土增量在38.5%至46.8%之间。但在更高剂量率(2.9 kGy/h)下增量平均值回落至33.7%。在0.28~5 MGy区间未发现显著的累积剂量效应。在此基础上,建立了高放废物地质处置库核素释放、迁移和剂量估算试评价模型,使用GoldSim安全评价软件和试验所得钠基膨润土的分配系数,模拟计算135 Cs在参考景象下的释放率和辐射影响,结果表明,膨润土受到来自废物体的辐照后可将135 Cs的近场释放率峰值时间推迟约6000 a,峰值降低约27%。

基于X-LiNbO_(3)/SiO_(2)/Si低温漂、大机电耦合SH-SAW谐振器的设计

铌酸锂(LN)单晶薄膜具有较高的机电耦合系数(k_(eff)^(2)>30%),其水平剪切(SH)声学模式常被应用于开发具有大机电耦合系数的薄膜声学谐振器和超宽带滤波器。但LN的频率温度系数较大(TCF>-50×10^(-6)/℃),这不仅会降低滤波器的可用有效带宽,同时也会限制器件的功率处理能力。采用3D周期有限元模型对基于X切LN/SiO2/Si结构SH声表面波(SH-SAW)谐振器进行了优化研究。研究结果表明,当SH-SAW传播角ψ=-10°~-20°、LN和SiO2膜厚分别为hLN=0.1λ和hSiO_(2)=0.2λ(λ为叉指换能器周期)、铝电极金属化率η=0.4、电极相对厚度hAl/λ=5%~10%时,SH-SAW谐振器的k_(eff)^(2)约为30%,且其TCF<-20×10^(-6)/℃,有望用于开发新一代的低温漂、超宽带5G SAW滤波器。

基于氮化铝薄膜的二维模态谐振器双模结构设计与仿真

基于氮化铝(aluminum nitride,AlN)压电薄膜的二维模态谐振器(two-dimensional-mode resonators,2DMR)由于其较高的有效机电耦合系数k^(2)_(eff)及其与集成电路工艺兼容等优势,引起了业内广泛的关注。然而,传统的2DMR只研究单谐振模态,难以满足多模无线通信系统的需求。针对该问题,提出一种应用于5G new radio(5GNR)频段为2.6~3.4 GHz的二维模态(2DM)双模谐振器,通过合理设计电极宽度和电极周期,使得2个模态的品质因数Q和k^(2)_(eff)相当,实现了S1模态和高阶S1模态的有效激励。通过有限元方法研究分析了压电材料厚度及梳齿电极结构对2DMR双模谐振频率和k^(2)_(eff)的影响,S1模态谐振频率主要受压电材料厚度影响,高阶S1模态谐振频率在受压电材料厚度影响的同时还易受金属电极宽度影响。基于Al N压电薄膜中d_(33)和d_(31)压电系数的共同作用,所设计的2DMR中2个模态的k^(2)_(eff)分别达到3.1%和3.6%。随后,基于S1模态和高阶S1模态谐振处无杂散和高机电耦合性能,设计了含有50Ω阻抗匹配网络的双频带通滤波器,通过增加阶数提高器件的带外抑制。滤波器的2个传输频带相邻,无带内波纹且陡峭滚降,中心频率分别位于2.852和3.082 GHz,插入损耗分别为2.0和1.9 dB,分数带宽分别为29和39 MHz。研究结果说明了这种2DMR双模结构设计在射频前端极具应用潜力。

Coupling Effect of Morphology and Mechanical Properties Contributes to the Tribological Behaviors of Snake Scales

It is known that the tribological behaviors of snake skins are contributed by the synergistic action of multiple factors, such as surface morphology and mechanical properties, which has inspired fabrication of scale-like surface textures in recent years. However, the coupling effect and mechanism remain to be elucidated. In this work, the morphology and mechanical properties of the scales from different body sections （leading body half, middle trunk and tailing body half） and positions （dorsal, lateral and ventral） of Boa constrictor and Eryx tataricus were characterized and compared to investigate the corresponding effects on the tribological behaviors and to probe the possible coupling mechanism. The morphological characterizations of scanning electron microscopy and atomic force microscopy revealed sig- nificant differences between the two species that the scales from Boa constrictor are rougher in general. The mechanical properties measured by nanoindentation corroboratively demonstrated substantial differences in elastic modulus and hardness. Interestingly, the ventral scales with lower surface roughness, together with relatively larger elastic modulus and hardness, manifest higher friction coefficients. A ＂double-crossed＂ hypothesis was proposed to explain the observed coupling effect of morphology and mechanical properties on friction, which may afford valuable insights for the design of bionic surface with desirable tribological performance.

250 kHz收发一体化水声换能器

针对水声领域对兼有高效发射和高灵敏度接收、收发工作频带重合、结构一体化高频水声换能器的应用需求,该文研制了一种高灵敏度收发一体水声换能器。该换能器由发射单元和接收单元两部分嵌套组成,发射单元采用1-3复合材料,接收单元采用单金属板压电陶瓷阵列结构。首先,通过有限元模拟确定发射和接收单元频率使其满足收发一体条件;其次接收单元采取改变压电陶瓷结构提升了机电耦合系数,从而提升接收灵敏度;最后制备了换能器样机并进行测试。结果表明,发射单元共振频率和接收单元反共振频均在250 kHz附近,接收灵敏度最高可达-173:5 dB,满足收发一体条件和高灵敏性能。

新型光面爆破技术在边坡开挖中的应用

为了改善传统光面爆破技术成本高、噪声大、效率低等问题,提出了一种无导爆索起爆的新型装药结构。根据光面爆破的要求,确定了光面爆破参数,对不耦合系数为3.8、3.9、4.0的炮孔分别进行无导爆索起爆的光面爆破试验,并分析光爆孔半孔率情况,比较3种不耦合系数炮孔的光面爆破效果。结果表明,各光爆孔使用无导爆索起爆的装药结构均能顺利起爆,3种不耦合系数下炮孔半孔率依次为78.40%、89.60%、57.60%。该新型光面爆破技术试验较好的不耦合系数为3.9。

建筑火灾与人员疏散耦合模拟研究

为研究火灾环境下烟气对人员的影响,将火灾发展与人员疏散过程进行耦合。以某商场为研究对象,引入当量速度系数和有效剂量分数模型对商场火灾场景下的人员疏散速度进行修正,利用Pyrosim与Pathfinder建立更贴近真实火场的商场火灾与人员疏散耦合模型,得到火灾发展过程中的烟气浓度、温度、能见度与人员疏散过程的耦合时空分布图和烟气毒性对人员伤害的累积作用。模拟结果表明:通过对火灾发展与人员疏散的时空动态分析,在火灾发生380s后,商场剩余77人由于能见度下降不能完成疏散。相比于比较建筑内人员可用安全疏散时间(ASET)和必需安全疏散时间(RSET)的大小的传统判定方式,耦合模型更能直观准确地表现建筑物内火灾烟气对被疏散人员的实时影响。

爆炸挤压成腔中的不耦合效应研究

为研究不耦合装药结构对提高爆炸挤压空腔形成量的影响 ,从不耦合效应机理分析入手 ,得出了最优不耦合系数应使介质中不出现粉碎圈和单位质量炸药成腔量最大 ,进一步推导了最优不耦合系数的理论计算方法 .通过实例分析表明 ,用本文提供的计算方法确定的黏土中爆炸挤压最优不耦合系数在 2 5 4～ 2 71之间 ,与试验中 2 60的最优不耦合系数较吻合 。

长周期光纤光栅包层模特性及其对传输谱的影响

从模式耦合理论出发,用数值计算的方法分析了长周期光纤光栅的包层模中各不同阶次模式的有效折射率及其交/直流耦合系数随波长以及阶次的变化规律.研究发现包层膜有效折射率、直流耦合系数及奇数阶次的交流耦合系数都随着波长的增加而减小.而阶次高的模式对应的有效折射率以及奇数阶交流耦合系数随波长的变化速率较之低阶次的来说要大.进一步分析了直流耦合系数对谐振峰值位置的影响,并且揭示了相邻谐振波长的峰值位置之差随波长而逐渐增大的原因.

大倾角煤层长壁开采工作面飞矸致灾机理研究

飞矸是大倾角煤层一类特殊衍生灾害,严重危害工作面设备和人员的安全,探讨其致灾机理对建立大倾角煤层走向长壁工作面防护体系至关重要。在工作面飞矸灾害实测基础上开展实验室模拟,选取冲击能和能量恢复系数表征损伤,借助高清摄像机和压力传感器记录并获取冲击能;运用统计学原理分析不同工况下冲击能的演化特性;对冲击能和能量恢复系数拟合并根据曲线走势,以设备(人员)吸能量为控制对象,吸能量陡增点和极值点为界建立飞矸损伤风险判别模型,依据模型划分飞矸损伤的等级。基于以上探讨了飞矸致灾的机理,结果表明:飞矸致灾是在碰撞途径和方式耦合作用下冲击能和能量恢复系数达到相应致灾等级,致灾过程为自由落体、飞溅、滚动和滑动等状态下冲击能累积,满足走向运移、高度、碰撞方位后与设备接触,冲击能转化为设备弹性能和构件间振动阻尼,造成构件的形变量大于其极限形变量时发生损坏,数值仿真手段验证了理论和实验研究中能量恢复系数取值的合理性。

塔线系统脱冰跳跃动力响应分析

采用有限元软件ANSYS建立铁塔-导线-地线-绝缘子的三维塔线系统有限元模型,考虑塔线耦合效应、脱冰相位置及数量、冰厚、档距和高差等影响因素,完成了不同工况下的塔线系统脱冰跳跃动力分析,确定了导线跳跃高度、挂点荷载及其动力放大系数和铁塔杆件内力的变化规律。对于2008年冰灾500 kV实际线路段的脱冰跳跃动力分析表明,在设计冰厚工况下,脱冰量较大时,导线脱冰跳跃会导致塔头杆件应力超限而发生破坏。对于上相脱冰情况,在脱冰档安装三角形相间间隔棒后,脱冰档跳跃高度和挂点不平衡张力明显降低,设计冰厚下铁塔处于安全状态。为防治塔线系统脱冰跳跃事故,应在事故多发段采用相间间隔棒,并根据脱冰跳跃挂点荷载计算值对铁塔塔头薄弱杆件进行适当加强。

等离子体屏蔽和稀疏波对冲量耦合系数的影响

利用脉冲Nd:YAG激光作用在铝、铜靶上,研究了不同入射激光能量下冲量耦合系数和离焦量之间的关系,以及不同功率密度情况下冲量耦合系数和光斑直径的关系。实验表明铝靶在入射激光脉冲能量由75.8 mJ增加到382.3 mJ时,冲量耦合系数峰值对应的最佳离焦量由-10 mm处远离焦点向透镜方向移到-18 mm,而对应的激光功率密度仅由2.0×109W/cm2增加到3.9×109W/cm2;铜靶实验规律和铝靶类似。等离子体屏蔽的吸收作用导致了冲量耦合系数达到最大值后迅速降低。铝靶在入射激光功率密度由0.7×109W/cm2增大到1.0×1010W/cm2时,冲量耦合系数随光斑直径增大而增大,对应变化斜率由5.2×10-5N.s/(mm.J)增大到49.2×10-5N.s/(mm.J),表明了稀疏波对冲量耦合系数的削弱作用随入射激光功率密度增加而增加,随光斑直径增大而减小。

特高压输电线路在短波段的二次辐射简化算法

特高压架空输电线路的架空地线通过避雷器与杆塔连接,杆塔与地线没有构成闭环,单个杆塔可看作独立的天线元考虑,据此提出了用单个杆塔的二次辐射场推导出杆塔成列影响的计算方法以简化特高压输电线路的二次辐射场。该法首先利用阵列的概念推导了不等比幅值等相位差各向同性的天线阵列影响系数,并且考虑杆塔间的互耦干扰对阵列影响系数进行了修正;然后用NEC电磁仿真软件计算了单个杆塔对近场的二次辐射,并乘以阵列影响系数得到了整条输电线路的二次辐射场;最后,对照实际线路建模的二次辐射场计算值,给出了这种简化计算方法的误差水平,确定这一简化方法在保证高效计算的同时有足够的精度。

低频交变压差作用下岩心流动电流和zeta电势实验测量

实验测量岩样zeta电势,对于认识地震诱导的电磁场现象以及探索利用动电效应的测井方法具有重要意义.本文介绍了专门设计的岩样流动电流和流动电势实验测量系统及一种获得岩样zeta电势的测量方法——流动电势和流动电流综合测量法.实验采用交流锁相放大技术,测量了3～100 Hz频率范围内交变压差作用下岩样的流动电势系数和流动电流系数,实验表明,这两个系数均随溶液浓度增大而减小,随pH值增大而增大.实验通过对不同浓度饱和岩样的流动电势和流动电流测量,获得了岩样的有效面积-长度比,进而计算出岩样的zeta电势和表面电导.实验还论证了忽略表面电导是导致常规流动电势测量法获得zeta电势低于实际值的原因.

加速度计的交叉耦合对无陀螺惯性测量组合影响的研究

研究了加速度计的交叉耦合系数的大小对惯性测量组合的影响,推导了存在交叉耦合系数时的惯导方程,从方程中可以看出交叉耦合系数对导航精度的影响,最后通过仿真验证了这种影响。该文的研究为无陀螺惯性测量组合的实际应用奠定了基础,并对加速度计的选用具有一定的指导意义。

超颖材料特性对无线电力传输系统的影响

为了提高无线电力传输系统的传输效率和增大传输距离,在无线电力传输系统中采用了超颖材料.从负折射率和倏逝波出发,通过公式推导和仿真分析,探讨了超颖材料对倏逝波的增强效应.结果表明:当磁导率为负值时,超颖材料对倏逝波磁场的增强效应可使耦合系数成倍增大;而负的介电常数所引起的电场增强效应对耦合系数的影响较小;在现有无线电波段工作频率和厘米量级的传输距离条件下,负折射效应无法提高耦合系数,即无法提高传输效率,而需要制作工艺相对简单、磁导率为负的单负材料,以达到提高无线电力传输效率的目标.