1) polymerization efficiency
聚合效率
1.
A BP neural network and a RBF neural network models are developed to predict the polymerization efficiency for PDPhSM matrix nanocomposite thin film respectively.
在分析实验数据的基础上确定了实验样本集,分别采用BP神经网络和RBF神经网络对PDPhSM基纳米复合薄膜的制备工艺与聚合效率之间的关系进行建模,并预测其聚合效率。
2.
we use RBF neural networks to construct a model of laser-ablation conditions and polymerization efficiency,and then use this model to establish the nonlinear relationship between technology parameters(laser fluence,ambient pressure,distance between target and substrate,deposition time) and polymerization efficiency.
为有效缩短脉冲激光烧蚀制备有机硅聚合物聚二苯基硅亚甲基硅烷(Polydiphenylsilylenemethyle,PDPhSM)基纳米复合薄膜工艺中繁琐的试验过程,本文将用径向基函数(Radial BasisFunction,RBF)人工神经网络对聚合物PDPhSM基纳米复合薄膜的制备工艺与聚合效率之间的关系进行建模;讨论了激光能量密度、环境压强、靶衬距离、沉积时间和聚合效率之间的关系。
2) accumulation efficiency
聚集效率
1.
Gas accumulation efficiency and its main controlling factors in China's large and medium gas fields;
中国大中型气田天然气聚集效率及其主控因素
2.
Reservoiring process and accumulation efficiency of Feixianguan Formation gas pool in Luojiazhai,northeastern Sichuan basin;
川东北罗家寨飞仙关组气藏成藏过程及聚集效率
3.
In this paper, gas accumulation efficiency was defined and calculated in terms of gas reserves, gas-bearing areas and accumulation periods.
利用天然气地质储量、含气面积和成藏时期,定义和求取了气藏天然气聚集效率。
3) agglomerative efficiency
附聚效率
1.
In the electrolyze and decompose process of sodium aluminate solution with ion membrane,some key influence factors on agglomerative efficiency were researched.
在铝酸钠溶液离子膜电解种分的过程中,考察一些主要因素对其附聚效率的影响。
4) aggregation efficiency
凝聚效率
1.
With the help of the analysis and of an elec trical aggregation efficiency equation deduced from reasonable hypotheses,the in fluence of three main factors in electrical aggregation,namely the urrent intens ity,operation time and the organic compound concentration in the wastewater,on t he aggregation efficiency has been discussed.
根据理论分析和合理假设推导出的电凝聚效率公式,描述了电凝聚过程中三个主要影响因素──电流强度、通电时间、废水中有机物浓度对电凝聚效率的影响。
补充资料:配置效率和生产效率
在经济学上,经济发展的动力,或者说效率的来源,分为两类:一类是配置效率,二是生产效率。所谓配置效率,是指给定资源和技术的条件下,怎么样使资源从边际生产率低的地方流向边际生产率高的地方,从而使得资源和利用更合理、社会总价值达到最大;而生产效率是指如何通过技术进步提高每一种资源的生产率,也就是把社会的生产可行性边界向外移。
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