提示微波的非热效应可能会影响白血病细胞的净化。
It was suggested that nonthermal effect of microwave might influence purgation of leukemic cells.
细胞膜损伤是电磁辐射非热效应的损伤作用机制之一。
Cell membrane injury plays a crucial role in the mechanism of non-heating effect caused by electromagnetic radiation.
激光生物压力效应是一种很重要的激光生物非热效应。
There is a close relationship between the pressure effect and average size, .
非热效应与可测量的温度升高无关的所有电磁能吸收效应。
Athermal effect any effect of electromagnetic energy absorption not associated with a measurable rise in temperature.
以NR胎面胶探讨硫化胶微波脱硫过程中微波的非热效应。
The nonthermal efficiency of the microwave during the devulcanization was investigated with a NRbased tread vulcanizate.
为研究高功率微波对细菌的杀灭效果及其可能存在的非热效应。
This experimental disinfection was intended to ex amine the effect of high power microwave on bacteria, and the putative nonthermal effect.
这些都是所谓的“非热效应”,因为它们发生在水平太低,造成组织取暖。
These are called "nonthermal effects" because they occur at levels too low to cause tissue heating.
微波与化学反应体系相互作用中是否存在非热效应,这是一个争论不休的问题。
It is in question whether athermal effect exists in the interaction between microwave and chemical reaction system.
根据已有的微波生物非热效应的实验,应用量子力学推导出微波生物非热效应的公式。
A formula for athermal effect of bio-microwave is derived in terms of quantum mechanics.
本文从分子反应动力学的角度解释了电磁温度协同效应,并对非热效应作了一定的探讨。
In this paper the EMF temperature co effects are explained in a way of molecular reacting kinetics, and the athermal effects of EMF are also discussed to some degree.
文中通过对生物非热效应的研究提出电磁波谱分析这一方法在非热效应研究中的有着指导意义。
Electromagnetic spectrum analysis proposed in this paper has its significance in the abnormal biologic effects re - search field.
结论:细胞膜是EMP作用于细胞的敏感靶部位,细胞膜穿孔是EMP非热效应的损伤作用机制之一。
Conclusion: cell membrane is a sensitive target for cell injury by EMP. Cell membrane perforation is one of the main mechanisms of non-heating injury by EMP.
研究结果为进一步研究弱电磁辐射对生物大分子二级结构的非热效应机理提供了一定的实验依据及理论参考。
The results offer experimental basis and theoretical reference for further study of the mechanism of nonthermal effects of weak electromagnetic fields on biological molecule secondary structure.
我们运用这个理论解释或解决了肌肉收缩、电子传递、红外光的非热效应机理及生物光子发射等重要生物学问题。
We can explain the muscle contraction, electronic transfer in the living systems, mechanism of non-thermally biological effect of infrared lights absorbed and bio-photon emission, and so on.
结合微波的热效应、非热效应特性,利用经改装的微波反应装置,对微波解吸柠檬酸盐溶液中SO2的过程进行了研究。
Utilizing the characteristics of microwave and the device of microwave reaction, the desorption process of SO2 in citrate solution was experimentally explored.
对MIECC反应中可能存在的耦合催化机理,即微波在生物催化体系中的“非热效应”进行了初步理论探讨,同时展望了这种新的耦合催化方法的前景。
The mechanism of MIECC, especially the microwave induced "athermal action" in bio catalysis systems is briefly discussed theoretically. The potential application of MIECC is prospected.
结论在穿透性角膜移植术中应用非接触性、无热效应的准分子激光制作植床,可提高环钻质量,减少移植片表面的不规则性,使手术效果得到改善。
Conclusion Noncontact and nonthermal excimer laser penetrating keratoplasty can promote the quality of trephination, reduce the irregularity of grafts, and improve the effects of the operation.
考察热效应和非牛顿流体特性对计算结果的影响,结果表明对此类时变问题,热效应比非牛顿效应更显著。
Influences of thermal effects and non-Newtonian properties were discussed. The results show that for the present transient EHL problem, the thermal effect is more evident than non - Newtonian effect.
考察热效应和非牛顿流体特性对计算结果的影响,结果表明对此类时变问题,热效应比非牛顿效应更显著。
Influences of thermal effects and non-Newtonian properties were discussed. The results show that for the present transient EHL problem, the thermal effect is more evident than non - Newtonian effect.
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