Result Ablation velocity, coagulation depth and temperature profiles in living tissue were numerically obtained.
结果通过数值计算,得出活体组织表面汽化速度及内部温度分布。
2
The numerical results show that the transpiration control parameter can control the ablation and temperature of the thermal protection layer effectively.
数值计算证实,发汗控制参数能有效地控制热层烧蚀,同时也能有效地控制热层温度。
3
Objective: To investigate the effect of plasma radiofrequency ablation at low temperature on obstructive sleep apnea hypopnea syndrome (OSAHS).