相关法旁瓣对消抗有源压制干扰分析及仿真

介绍了一种相关法旁瓣对消抗干扰技术,对其系统组成及基本工作原理进行了分析,建立了系统电路仿真模型,最后,给出了此系统对几种有源压制干扰的对消结果。结果表明,该系统对抗有源压制干扰有很好的效果。     

Techniques and Apparatus for Measuring Rotational Core Losses of Soft Magnetic Materials

In many situations such as the cores of a rotating electrical machine and the T joints of a multiphase transformer, the local flux density varies with time in terms of both magnitude and direction, i.e. the flux density vector is rotating. Therefore, the magnetic properties of the core materials under the rotating flux density vector excitation should be properly measured, modeled and applied in the design and analysis of these electromagnetic devices. This paper presents an extensive review on the development of techniques and apparatus for measuring the rotational core losses of soft magnetic materials based on the experiences of various researchers in the last hundred years.     

水库浮力自动启闭取水装置试验研究

通过理论研究和试验，研制出一种新型的能够在水库中自动启闭的取水装置。这种装置具有运行可靠，结构简单，操作简便，不耗电能，不漏水，自动化程度高，造价低等特点，是较先进合理的表层取水装置，经测算它具有较高的实用价值和经济社会效益。     

空间效应离心结构模型试验相似材料的研究

 根据相似理论对离心相似模型材料的特点进行了分析，对离心相似模型材料的准备、力学性能的测试方法及应用进行了归纳和分析。通过分析，探明了离心结构模型材料的选择方法和范围。     

多层高频混压板叠构设计分析及压合粘结性控制

文章通过对厂内开发的多层高频混压板在成本节约、提高弯曲强度、电磁干扰控制方面剖析其叠层结构混压设计的原理;通过对压合技术创新实现了高频混压板压合粘结性良好,保证了压合后产品可靠性无异常。     

基亏AVR单片机的安全工器具监控系统设计

基于对相关电力企业安全工器具的调研,针对现有的对安全工器具的管理比较落后,从而导致难以对安全工器具进行有效监控的问题,提出了一种简单有效、容易实施的安全工器具监控方案。首先从整体上描述了安全工器具监控系统的总体结构,然后分别从硬件设计和软件设计两个方面对系统进行了详细阐述。该系统已经成功运用于某电力企业的安全工器具监控,运行稳定,达到了设计的预期目的。     

钢芯自动双发装压药技术

介绍大口径机枪弹钢芯双发全自动分步装压药生产线的组成和工作原理,对由于半成品一致性和药剂流散性造成的误差进行分析,并采用特制计量板装药技术进行装药,采用双发浮动压药技术进行压药,压药压力采用全数字双闭环反馈进行控制。长期使用结果表明,该技术能提高产品的质量和各项技术指标,实现安全可靠高效的全自动化生产,可广泛应用于国内多个弹种装压药生产。     

基于全站仪的身管火炮零线检校方法研究

针对传统的身管火炮零线检查规正方法存在着炮膛轴和视轴误差及炮身俯仰倾斜误差等,提出了一种基于全站仪的新型检校方法。建立了测量系统的数学模型,得出了空间坐标系内任意点的坐标计算公式。推导出了零线检校方法的解算模型,该解算模型只需要1台全站仪分别测量出炮膛轴线延长线上的两个指定点和瞄准线延长线上的两个指定点的水平角、天顶角和斜距,通过计算就可得到瞄准线相对于炮膛轴线的高低角和方向角偏差,根据偏差最终完成零线的检查和规正。以此为基础的身管火炮零线检校方法精度高、简单易操作和应用范围广。     

对称转台在微波器件加工过程中的应用

为提高微波器件的加工合格率,将对称转台应用于微波器件加工的硬件设施中,并分析了对称加工的特点。以某微波器件加工为例,简要介绍了对称转台的应用。实践证明,对称转台的使用提高了微波器件的加工质量、降低了成本。     

Adhesion and Surface Interactions of a Self‐Healing Polymer with Multiple Hydrogen‐Bonding Groups

The surface properties and self‐adhesion mechanism of self‐healing poly(butyl acrylate) (PBA) copolymers containing comonomers with 2‐ureido‐4[1H]‐pyrimidinone quadruple hydrogen bonding groups (UPy) are investigated using a surface forces apparatus (SFA) coupled with a top‐view optical microscope. The surface energies of PBA–UPy4.0 and PBA–UPy7.2 (with mole percentages of UPy 4.0% and 7.2%, respectively) are estimated to be 45–56 mJ m^?2 under dry condition by contact angle measurements using a three probe liquid method and also by contact and adhesion mechanics tests, as compared to the reported literature value of 31–34 mJ m^?2 for PBA, an increase that is attributed to the strong UPy–UPy H‐bonding interactions. The adhesion strengths of PBA–UPy polymers depend on the UPy content, contact time, temperature and humidity level. Fractured PBA–UPy films can fully recover their self‐adhesion strength to 40, 81, and 100% in 10 s, 3 h, and 50 h, respectively, under almost zero external load. The fracture patterns (i.e., viscous fingers and highly “self‐organized” parallel stripe patterns) have implications for fabricating patterned surfaces in materials science and nanotechnology. These results provide new insights into the fundamental understanding of adhesive mechanisms of multiple hydrogen‐bonding polymers and development of novel self‐healing and stimuli‐responsive materials.