The results showed that the inactivation improved as ultrasonic irradiation intensity increased.
结果表明:超声条件增强,灭活效果提高;
The weak of irradiation intensity does not affect the bond durability of dual-cured resin luting agents to silanized ceramics.
光照射强度的减弱对双重固化树脂粘接剂与硅烷偶联剂处理的玻璃陶瓷间的粘接耐久性没有影响。
The result showed that the diurnal variation of temperature, irradiation intensity, net radiation as a curve in cotton canopy of two irrigation ways.
结果表明,在两种灌溉方式下棉花冠层内的温度、光照强度和净辐射日变化曲线均呈单峰线;
AIM: To explore the effect of intravascular low intensity laser irradiation in ear cavity on viscosity of red blood cell in rabbits of simulated weightlessness.
目的:观察低强度激光血管照射对模拟失重兔显微红细胞聚集性的影响。
Liu CY et al have put forward the biological information model on low intensity laser irradiation (BIML) and the biological information transformation model (BITML).
刘承宜等人提出了低强度激光疗法的生物信息模型(BIML)和激光生物效应的信息转换模型(BITML)。
These results indicate that there is the photobiomodulation for marginal irradiation of high intensity laser beam, which might play an important role in the long term effects of laser surgery.
这些结果表明,高强度激光束边缘低强度激光存在光生物调节作用,这可能是影响外科激光的长期效应的重要因素。
Objective:the effects of low intensity laser irradiation on the chondrocyte proliferation and its mechanism were studied.
摘 要:目的 了解低强度激光照射对软骨细胞增殖的影响及其机制。
Conclusion 3ao was sensitive to ultrasound. The delayed effects depended more on duration of irradiation than on acoustic intensity.
结论3ao对超声的敏感性较高,超声的迟发效应更决定于辐照持续时间。
Recent advance of effects of low intensity laser irradiation on cells were summarized in this review.
本文综述了低强度激光照射对离体细胞效应的研究进展。
And the effects of ultrasonic irradiation at low intensity in BACMR on the enhancement of biological action and membrane pollution control were investigated through parallel experiments.
同时通过对比试验研究了低强度的超声波对膜污染防治作用及其在膜-生物活性炭反应器中对生物过程的强化作用。
CONCLUSION: laser irradiation can decrease the mechanical intensity of enamel and increase its abrasion rate. So it is not recommended to apply high dose of laser irradiation on enamel clinically.
结论:激光使釉质的耐磨性降低,机械强度降低,提示临床应用中不宜采用过高强度激光照射釉质。
Objective To investigate the effect of low-intensity pulsed diode laser irradiation on proliferation and differentiation of rat osteoblasts in vitro.
目的探讨低强度脉冲半导体激光对大鼠成骨细胞增生和分化的影响。
Objective To investigate the effect of low-intensity pulsed diode laser irradiation on proliferation and differentiation of rat osteoblasts in vitro.
目的探讨低强度脉冲半导体激光对大鼠成骨细胞增生和分化的影响。
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