1) Orientating group parameter
定位基参数
1.
The paper used a topological index(~mQ),and a orientating group parameter (S_(ox)).
采用拓扑指数(~mQ)、定位基参数(S_(ox))与醇在6种固定相上的气相色谱保留指数值(RI)进行了相关分析,发现RI与上述参数间存在良好的相关性,其关系式可表示为:RI=d+(a~0)Q-(b~1)Q+cS_(ox),其中a、b、c、d为系数。
2) group orientation parameter
基团定位参数
1.
By leading into the group orientation parameters,atomic characteristic valueβ_i of the side chain carbon and oxygen in ali- phatic alcohol molecules is modified.
引入基团定位参数,修正脂肪醇分子中侧链碳原子和氧原子的点价值β_i,据以建构醇分子的新连接性指数~mL∶~mL=∑(β_i·β_j·β_k…)~(0。
3) location parameters
定位参数
1.
Finally,when the wheels jumped up and down,wheel location parameters were simulated.
仿真结果表明,所有车轮定位参数满足设计要求。
2.
In this paper, based on the model of variance component, robust estimation of location parameters is discussed, and the formula for likeihood estimation of variance component is given, the robust estimation of variance component (the scale parameters ) that meets the Fisher s consistency is derived.
基于方差分量模型,讨论了定位参数的抗差估计,由方差分量的似然估计,论述了方差分量的抗差估计,并顾及Fisher一致性,给出了抗差估计公式;并用实例进行了检验。
3.
When the wheels jumped up and down,wheel location parameters were simulated.
在车轮上下跳动40 mm时,进行车轮定位参数模拟仿真,分析车轮上下跳动对各定位参数的影响。
4) positional parameter
定位参数
1.
In this paper,the quaternion is taken for positional parameters to control the attitude of a spacecraft.
以四元数作为定位参数对航天器进行姿态控制。
2.
It is shown that quaternion has combined the advantages and functions of other positional parameters and transformation algorithms, it can be applied not only to the dynamics of a rigid body, but also more generally to the mechanical analysis and the control for multi-body systems.
本文全面地评述了四元数方法及其在现代科学技术中的应用,指出四元数具有其他定位参数和变换算子的综合优点和综合功能,不仅在刚体动力学中有广泛的用途,而且在一般多体系统的力学分析和控制中也有极其广阔的应用前景。
5) alignment parameter
定位参数
1.
Review of researches on the front wheel alignment parameter of vehicles;
汽车前轮定位参数研究与展望
2.
The wheel alignment parameters which can change with the travel of the wheel and influent the handling and stability and wear of tire and also puzzle the auto producers to design suspension are very important in the suspension system.
车轮定位参数是悬架系统的一组重要参数,其设计的合理与否是悬架特性的重要评价指标之一。
3.
Then kinematic simulation and analysis of rigid bodies is carried out using the software ADAMS,and the change regularity of each alignment parameter of the suspension with jumping of wheels is obtained.
以某大型客车的空气弹簧独立悬架为例,考虑了空气弹簧的变刚度特性,利用虚拟样机技术建立了该空气悬架的多体动力学模型,并借助ADAMS软件进行了刚体运动学仿真分析研究,得到了随着车轮跳动该型悬架的各项定位参数的变化规律。
6) alignment parameters
定位参数
1.
The relation between slide displacement and alignment parameters on wheel is analyzed.
主要分析了车轮跳动过程中车轮侧滑量与车轮定位参数的关系,以及车轮定位参数相互之间的影响,这些研究为车轮定位参数的初始设计提供了技术依据。
2.
Secondly,the variation trend of alignment parameters on wheel is analyzed by the front wheels from top to bottom in the process of jumping,the relation between alignment parameters and lateral slip is also analyzed.
主要分析了在车轮上下跳动过程中车轮定位参数的变化趋势,车轮各定位参数对侧向滑移量的影响,这些研究为车轮定位参数的初始设计提供了技术依据。
补充资料:2-甲氧基碳酸基乙基胺基乙基胺基丙基三甲氧基硅烷
CAS: 1067-66-9
分子式: C12H28N2O5Si
分子量: 308.45
中文名称: 2-甲氧基碳酸基乙基胺基乙基胺基丙基三甲氧基硅烷
英文名称: [N'-(2-Methoxycarbonylethyl)aminoethylaminopropyl]trimethoxysilane
10-diaza-3-silatridecan-13-oic acid, 3,3-dimethoxy-2-oxa- methyl ester
n-(2-((3-(trimethoxysilyl)propyl)amino)ethyl)-beta-alanin methyl ester
methyl 3,3-dimethoxy-2-oxa-7,10-diaza-3-silatridecan-13-oate
methyl[2-(3-trimethoxysilylpropylamino)-ethylamino
分子式: C12H28N2O5Si
分子量: 308.45
中文名称: 2-甲氧基碳酸基乙基胺基乙基胺基丙基三甲氧基硅烷
英文名称: [N'-(2-Methoxycarbonylethyl)aminoethylaminopropyl]trimethoxysilane
10-diaza-3-silatridecan-13-oic acid, 3,3-dimethoxy-2-oxa- methyl ester
n-(2-((3-(trimethoxysilyl)propyl)amino)ethyl)-beta-alanin methyl ester
methyl 3,3-dimethoxy-2-oxa-7,10-diaza-3-silatridecan-13-oate
methyl[2-(3-trimethoxysilylpropylamino)-ethylamino
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