1) transfer of membrane
膜的传递特性
2) transfer characteristic
传递特性
1.
The transfer characteristic of human visual system and models;
人眼视觉的传递特性及模型
2.
The current design methods of fixtures were discussed in this paper, and the influence of materials, manufacturing process and fixture styles on the stress transfer characteristics of the fixture were also pointed out.
通过对夹具设计技术现状的介绍,指出各设计方法存在的不足,并阐述了夹具类型、材料选择、制造加工等对夹具应力传递特性的影响。
3.
This article studies the vertical vibration transfer characteristics of commercial vehicle seats.
对商用车中常用的机械减振座椅的垂直方向传递特性进行研究,通过液压伺服振动试验台测量了座椅的传递率。
3) Transmission character
传递特性
1.
Based on the transmission character of sound wave,the transmission process and function of sound wave are further analyzed.
因此,进一步从声波传递特性入手,分析了声波的传递过程及作用,并说明行波非接触压电马达是通过超声波的辐射压力,推动从动件运动的;同时,由于声波在不同介质中传递时,介质的界面有反射作用,因而当超声波穿过空气介质传递到从动件时,能量大部分被反射。
4) transfer properties
传递特性
1.
By means of experiments,a through study of the frequency spectrum of the vibration signals induced by the cylinder pressure at the cylinder cap of a gasoline engine is made according to the valve distributing mechanism phase,the transfer properties of the cap and the characteristics of the frequency spectrum of combustion pressure in the cylinder.
本文用试验的方法,根据发动机的配气相位、缸盖的传递特性及气缸燃烧压力的频谱特征,对缸压振动响应信号的频谱做了较深入的研究,揭示了缸压振动信号频谱特征产生的机理。
2.
Investigate the nonlinear excitation and transfer properties of the kink pair in hydrogen - bonded systems in the presence of an external force, damping and random force, using the energy analysis method.
运用能量分析方法,研究了在外场、阻尼和随机力作用下,氢键系统中的非线性激发和孤子偶的传递特性,推导了孤子偶能量和有效质量的表达式,讨论了热孤子偶的核化规律,计算了孤子偶的电导率,理论结果与实验相一致。
5) transmission characteristics
传递特性
1.
According to the equivalent circuit model,its principle and transmission characteristics are analyzed,and the effects of coil turns、integral resistance and stray capacitance on frequency properties are studied.
在分析了该传感器的工作原理及其传递特性后研究了线圈匝数、积分电阻和杂散电容对其频率特性的影响;利用方波电压源,校准了研制的电流传感器;利用函数发生器测试了不同频率下的传感器的实际动态响应。
补充资料:跨膜传递
分子式:
CAS号:
性质:溶质通过生物膜从膜一侧向另一侧的传递的过程。生物膜是生物体内各隔室间的屏障,起着维持膜两侧溶质浓度差、电位差的作用。跨膜传递的方式分为三类:主动运送、被动运送和胞饮作用。
CAS号:
性质:溶质通过生物膜从膜一侧向另一侧的传递的过程。生物膜是生物体内各隔室间的屏障,起着维持膜两侧溶质浓度差、电位差的作用。跨膜传递的方式分为三类:主动运送、被动运送和胞饮作用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条