基于STM32的智能温控杯控制系统设计

设计以ARM STM32F103作为系统控制核心,使用DS18B20测量温度,以半导体制冷器件作为降温设备,以PTC发热片作为升温设备,用LCD1602液晶进行显示,实现对杯内水温的有效控制。通过反复验证,该温控系统具有操作简单、精度较高、工作可靠和性价比高等特点。     

1553B通信协议的可依赖性讨论

1553B是飞机电传系统的通信协议,由于硬件上抗干扰仅考虑了系统内部自生的干扰,实际环境要严重得多;因为只按奇偶位作校验,所以错字漏检的概率比较大;由于回传状态字内容不全面,在漏检错字时会发生假冒错;由于指令字出错不易纠正,最好情况下靠2次重传,丢帧可能性大.漏检错帧和丢帧多会使多重冗余的表决机制失效,也会使网络管理类指令失效,成为潜伏的故障.通过定量分析,确定了一些情况下的失效率,例如假定取CAN,Profesafe同样的误码率ber=0.01时,除去最大值/最小值再取均值时的4冗余系统因错字漏检引起的每小时失效可达2×10-1次.     

不锈钢活性炭滤器的氯腐蚀与防腐

本文就活性炭在预处理中脱氯的不锈钢滤器的氯腐蚀机理进行了探讨，并提出了不锈钢活性炭脱氯滤器的防腐方法和措施。     

A method for observing the three-dimensional morphologies of inclusions in steel

A method for observing the three-dimensional morphologies of inclusions by deeply eroding a steel sample with a kind of organic solution composed of bromine water,acetone,and HC1 (volume ratio,45∶45∶10...     

基于物联网与3G整合的电子商务应用资金流探析

文章在简要介绍物联网与3G网络的基础上,阐述了物联网与3G整合背景下电子商务资金流所具备的特点,进而论述了此背景下资金流的优化和作用,最后重点分析了整合背景下电子商务资金流的两个应用案例。     

Helium gas permeability of montmorillonite/epoxy nanocomposites

Helium gas permeability of silicate clay (montmorillonite) particles/epoxy nanocomposites was examined. The incorporation of increasing amounts of montmorillonite particles reduced the helium gas permeability. Based on Fick’s law, gas permeation behavior of the nanocomposite was evaluated. With the increase of montmorillonite loading, gas diffusivity decreased, while gas solubility increased. Helium diffusion behavior is in agreement to the numerical results based on the Hatta–Taya–Eshelby theory. It has been revealed that dispersion of nanoscale platelets in polymer is effective in improving gas barrier property.     

Micro- and nano-scale deformation behavior of nylon 66-based binary and ternary nanocomposites

The primary aim of this paper is to provide an insight on the effect of the location of organoclay on the micro- and nano-scale deformation processes in melt-compounded nylon 66/organoclay/SEBS-g-MA ternary nanocomposites prepared by different blending sequences. In addition, the deformation processes of the ternary nanocomposites were compared to the binary nanocomposites (nylon 66/organoclay and nylon 66/SEBS-g-MA) and neat nylon 66. The incorporation of SEBS-g-MA particles toughened nylon 66 markedly; but the flexural modulus and strength were both reduced. Conversely, the use of organoclay increased the modulus but decreased the fracture toughness of nylon 66. Nylon 66/SEBS-g-MA/organoclay ternary nanocomposites exhibited balanced elastic stiffness and toughness. Stress-whitening studies of the fracture surfaces in terms of gray level were also performed and an attempt was made to correlate the optical reflectivity characteristics with fracture toughness. It was concluded that the capability of SEBS-g-MA particles to cavitate was decreased by the presence of organoclay in the SEBS-g-MA phase, resulting in reduced toughening efficiency. The best micro-structure for toughness and other mechanical properties is thus to maximize the amount of exfoliated organoclay in the nylon 66 matrix rather than to have it embedded in the finely dispersed SEBS-g-MA particles.