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temperature compensative
相关语句
  温度补偿
     An Adaptive Temperature Compensative Control of an Automated Mechanical Transmission Clutch Based on Neural Network
     基于神经网络的AMT离合器自适应温度补偿控制
短句来源
     The magnetic temperature compensative alloy with good thermal magnetic performance should be of γ single phase with FCC structure,large grain size,less inherent defect and low internal stress.
     具有优良热磁性能的磁温度补偿合金的结构组织应为γ单相面心立方结构,大的晶粒尺寸、少的内部缺陷和低的内应力。
短句来源
  “temperature compensative”译为未确定词的双语例句
     Designed was 16-order multiplier using the non-linear characteristic of step recovery diode. The input signal was provided by a temperature compensative oscillator of 100 MHz. The output frequency is 1.6 GHz with an output power of 10 dBm.
     利用阶跃恢复二极管的非线性特性设计并制作了一个16次倍频器,采用100MHz温补晶振提供输入信号,输出频率1.6GHz,输出功率10dBm,频谱纯度良好,该倍频器已经成功应用于某测试系统中。
短句来源
  相似匹配句对
     T is temperature, ℃.
     T为温度,℃。
短句来源
     T-temperature, K;
     T—溶液温度,K;
短句来源
     compensative punishment.
     属于补偿式制裁。
短句来源
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The strain limit of cement concrete is small, yet it is effected by many factors. Especially, the test results vary with ambient temperature because the linear expanssive coefficient of cement concrete is so dispersive. Since the ordinary resis-tance-type strain gauges and their temperature compensating gauges are designed according to linear expansive coeficient of giv- en material, so it is difficult to eliminate the heat effect caused by the difference of linear expansive coefficients between the test material...

The strain limit of cement concrete is small, yet it is effected by many factors. Especially, the test results vary with ambient temperature because the linear expanssive coefficient of cement concrete is so dispersive. Since the ordinary resis-tance-type strain gauges and their temperature compensating gauges are designed according to linear expansive coeficient of giv- en material, so it is difficult to eliminate the heat effect caused by the difference of linear expansive coefficients between the test material and the materiai used in design. The perfect method for solving this problem has not yet been known so for. A formula is suggested have to calculate the parallel serial resistors of the external compensative circuit. An adjustable strain gauge can be combined form the circuit calculated from the above formula and combinative temperature compensative gauges. This adjustable strain gauge will eliminate the heat effect easily and assme that the test results be equal to those in the practice. The results of verifing test is also presented.

本文提出了计算外补偿线路的串并联电阻的公式。用该公式确定的外补偿线路和组合式温度自补偿应变计结合起来能构成一种可调整的应变计。这种应变计很容易消除水泥混凝土由于线膨胀系数分散而引起的热输出,外补偿线路引起应变计灵敏系数的下降,可以通过修正来解决。本文亦展示了验证试验结果,还探讨了上述公式在焊接式半桥自补偿应变计中的应用。

The control quality of automated mechanical transmission (AMT) by an electronic hydraulic controlled system is highly influenced by the temperature of hydraulic oil. Solving the problem of the temperature influence on a clutch work process is an important job in the mass producing progress of AMT. In this paper, BPNNAS (Back Propagation Neural Network Application System), a software having the feature of Windows GUI, based on BP algorithm and running under Matlab environment, was designed and developed; the...

The control quality of automated mechanical transmission (AMT) by an electronic hydraulic controlled system is highly influenced by the temperature of hydraulic oil. Solving the problem of the temperature influence on a clutch work process is an important job in the mass producing progress of AMT. In this paper, BPNNAS (Back Propagation Neural Network Application System), a software having the feature of Windows GUI, based on BP algorithm and running under Matlab environment, was designed and developed; the model of clutch engagement without pulse width modulation and the temperature pressure compensative model of clutch disengagement were established by means of the method of neural network identification using BPNNAS. Based on the models, an adaptive temperature compensative control method for a clutch working process was put forward, which could be described as: while the temperature of hydraulic oil changed, the duty rate was adjusted to control engaged speed of clutch, and the pressure was adjusted to control disengaged speed of clutch. The test results prove that this control method is practicable.

采用电液控制的机械式自动变速器 (AMT)控制品质受液压油温度的影响很大 ,克服液压系统温度对 AMT离合器工作过程的影响是 AMT产品化进程中的一项重要工作。本文应用神经网络辨识的方法建立了无脉宽调制离合器接合过程模型及离合器分离过程温度压力补偿模型 ,并在此基础上提出了基于神经网络的离合器自适应温度补偿控制方法。试验证明 ,该控制方法是有效可行的

Effect of heat treatment on thermal magnetic performances and microstructure of Fe69.07Ni29.25Mn0.615Si0.50C0.50magnetic temperature compensation alloy was investigated.The phase composition and microstructure of the alloy were characterized by XRD and optical microscope.The results show that the heat treatment has a significant effect on the thermal magnetic performances of magnetic temperature compensative alloys,the alloy exhibit a structure change from α+γ two-phase toγ single-phase structure with...

Effect of heat treatment on thermal magnetic performances and microstructure of Fe69.07Ni29.25Mn0.615Si0.50C0.50magnetic temperature compensation alloy was investigated.The phase composition and microstructure of the alloy were characterized by XRD and optical microscope.The results show that the heat treatment has a significant effect on the thermal magnetic performances of magnetic temperature compensative alloys,the alloy exhibit a structure change from α+γ two-phase toγ single-phase structure with the increase of heat treatment time and temperature;A certain amount of texture is found in the untreated forge alloy,and the amount of the texture in the heat-treatmented sample decreases.The magnetic temperature compensative alloy with good thermal magnetic performance should be of γ single phase with FCC structure,large grain size,less inherent defect and low internal stress.

研究了热处理工艺对Fe69.07Ni29.25Mn0.615Si0.50C0.50磁温度补偿合金的组织结构和热磁性能的影响,采用X射线衍射仪及金相显微镜分析其相结构和组织形貌。结果表明热处理工艺对磁温度补偿合金的热磁性能有较大影响;随热处理温度、时间增加,合金由α、γ双相结构变为γ单相结构;具有优良热磁性能的磁温度补偿合金的结构组织应为γ单相面心立方结构,大的晶粒尺寸、少的内部缺陷和低的内应力。

 
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