The pressure ramp and the temperature ramp stimulate together and finally provide a pressure-temperature fusion tactile for the user.
压力斜坡和温度斜坡共同作用可以为操作者提供压力温度融合触觉感觉。
In the light of fractal theory and the theory of crystal nucleation and growth, we have discussed the effect of temperature ramp rate on the sizes of the formed silicon particles.
根据晶体生长理论,讨论了升温速率的高低与所形成的纳米硅颗粒大小的关系。
Result showed that the pressure, temperature and pressure holding time were the major affecting factors for high hydrostatic pressure inactivation while the ramp rate and depressurization rate not.
结果表明:温度、压力和保压时间对灭活大肠杆菌影响显著,升压速度和卸压速度对灭活大肠杆菌影响不显著。
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