1) Deep eltch
深蚀
2) ablation depth
烧蚀深度
1.
In this paper the onedimonsional Stefantype model for the heat effect of highirradiance laser on biotissues and the inverse problem identification are adopted to obtain a relational expression for calculating the ablation depth in laserirradiated tissues, in which the complex nature of actual situationthe multidimensional problemis taken into account.
本文采用强激光对生物组织热作用的一维Stefan数学模型[2]和反问题辨识方法[3,5],并充分考虑实际多维问题的复杂性,提出了确定强激光作用下烧蚀深度的计算关系式。
2.
The damage morphology, and threshold fluence as a function of pulse duration and the dependence of ablation depths on the pulse fluences are measured.
利用原子力显微镜和扫描电镜观察了材料的烧蚀形貌,测量了破坏阈值与脉冲宽度、烧蚀深度与脉冲能量的依赖关系。
3.
The relation between damage threshold,ablation depth and laser pulse duration,wavelength,energy fluence is studied with the model.
讨论了材料的破坏阈值、烧蚀深度与激光脉宽、波长和强度之间的关系,同时也讨论了破坏阈值、烧蚀深度与材料禁带宽度等特性之间的关系。
3) deep-lying dissolution
深埋溶蚀
4) pit corrosion depth
点蚀深度
1.
In combination with corrosion analysis, especially with the pit corrosion analysis, a model for calculating collecting line pit corrosion depth and a model for statistically predicting the leak off in the collecting line caused by pit corrosion are established on the basis of corrosion investigation.
以腐蚀分析特别是局部点蚀分析为基础,以腐蚀调查为依据,建立了集油管道点蚀深度的统计模型,以及集油管道点蚀泄漏的统计预测模型。
5) deep etching
深刻蚀
1.
Inductively coupled plasma(ICP) deep etching process of bulk titanium was studied in this paper.
采用电感耦合等离子体源(inductively coupled plasma,ICP)技术对金属钛进行三维深刻蚀,采用不同刻蚀掩模、氯基刻蚀气体,研究了线圈功率、平板功率和Cl2流量对刻蚀速率和选择比等工艺参数的影响,并对Ti深刻蚀参数进行了优化,得到0。
2.
Many MEMS structures need twice deep etching or even more,and usually the free-handing diaphragm is achieved after several deep etching.
许多MEMS结构需要进行2次或2次以上的深刻蚀,有些需要在多次深刻蚀后释放超薄的悬空薄膜结构,这时薄膜表面极易出现微小的腐蚀孔。
补充资料:弹头烧蚀(见弹头防热)
弹头烧蚀(见弹头防热)
warhead ablation
dantou shaoshi弹头烧蚀(warhead的lation)见弹头防热。
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