1) inhibit-combination arc
约束组合弧
1.
In the process of modeling,places and transitions were colored,and some mistakes,such as moving into an error segment or intruding into a red-light's area in its assignment,were described by combining inhibit-combination arc with locomotive's reaching and passing information inputted from outside.
在建模的过程中,对库所和变迁进行了着色;使用约束组合弧并结合外部输入的车到和过车信息,对机车运行路线错误、任务内闯红灯等意外情况进行了描述;对进路的闭锁和解锁情况进行了细分,根据保证安全和兼顾效率的原则,建立了不同的控制方式;最后给出了调度联锁过程的整体Petri网模型。
3) constricting arc
约束电弧
1.
Analysis of correlation between position of flux strip in its constricting arc and potential of flux strip;
焊剂带在其约束电弧中的位置与其电位相关性分析
2.
The weld of different depth/width ratio can be obtained by means of controlling the degree of flux strips constricting arc.
研究了一种熔化极电弧焊接方法,该方法是将两条焊剂带沿焊丝两侧连续送入电弧区,利用焊剂带向熔池中加入焊剂并约束电弧。
4) confined arc
约束弧
1.
Pure Ni nanopowders was prepared by confined arc plasma method.
采用约束弧等离子体方法成功制备出了高纯Ni纳米粉体,运用X射线衍射(XRD)、透射电子显微镜(TEM)和振动样品磁强计(VSM)对样品的结构、形貌和磁学性质进行了表征。
2.
NiO nanopowders with average grain size of 22nm were prepared by confined arc plasma method and the manufacturing facility are developed by the authors.
利用自行研制的约束弧等离子体纳米粉体实验装置成功制备了平均晶粒尺寸为22 nm的NiO纳米粉体。
5) arc length constraint
弧长约束
1.
In this paper the problem of curve design with arc length constraint by 4-point interpolatory subdivision is discussed by adjusting the free parameter of the 4-point interpolatory subdivision.
用细分方法解决带弧长约束条件的曲线设计问题,通过调整细分中的自由参数来控制细分控制多边形的累加弦长(极限情况下为曲线的弧长)。
6) constrain arc
约束圆弧
1.
Giving the formula for the computing of intersection’s coordinates between two circles and central angle with constrain arc, this paper proposed a new algorithm for computing the perimeter of the union of circular arcs dynamically.
本文在给出两圆相交点坐标计算公式、约束圆弧所对圆心角计算公式的基础上,提出了动态计算圆弧并周长算法。
补充资料:组合模式或组合振动
分子式:
CAS号:
性质:在红外光谱中通常出现很多的弱吸收,组合模式或组合振动系指对应于两个或多个基本振动频率之和起源,它的弱吸收于多原子分子振动态相互作用的振子的非谐性。与基频振动及倍频所引起的吸收相比,这些吸收是比较弱的。
CAS号:
性质:在红外光谱中通常出现很多的弱吸收,组合模式或组合振动系指对应于两个或多个基本振动频率之和起源,它的弱吸收于多原子分子振动态相互作用的振子的非谐性。与基频振动及倍频所引起的吸收相比,这些吸收是比较弱的。
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