1) step gating system
阶梯式浇注系统
1.
Optimum Design of Step Gating System;
阶梯式浇注系统的优化设计
2.
In this paper, according to principles of error back-propagation (BP) neural network, combined with three dimensional parametric modeling based on Object ARX technology, an intelligent CAD software system for step gating system of cast-ironed camshaft was developed, based on AutoCAD environment.
根据误差反向传播(BP)神经网络的原理,结合ObjectARX参数化三维建模技术,开发了基于AutoCAD软件环境的铸铁凸轮轴阶梯式浇注系统智能化CAD软件。
2) stepped pouring system
阶梯浇注系统
3) bottom gating system
底注式浇注系统
4) slot gating system
缝隙式浇注系统
1.
The simulation results indicate that the slot gating system is difficult to obtain the favorable filling sequence because of the excessive high of the casting,the liquid metal splashes badly during the mold-filling stage.
模拟结果表明,由于铸件较高,缝隙式浇注系统无法实现逐层充填,金属液在充型过程中飞溅严重。
5) pouring system
浇注系统
1.
Study of the calculating formulas in the minimum section of the gray casting iron pouring system
灰铸铁件浇注系统最小截面积计算公式研究
2.
The injection molding flow of six different pouring system for air-condition panel was analyzed respectively by using Molding Plastics Advisers (MPA)software.
利用模流分析软件Moldflow Plastics Advisers(MPA)对空调机面板注塑模6种构型不同的浇注系统分别进行注射成型流动分析。
3.
The structural characteristics of the aluminum alloy tap part were analyzed, and the design of pouring system and die-casting die structure were introduced.
分析了铝合金水龙头零件的结构工艺性特点,介绍了压铸模的浇注系统及模具结构设计。
6) gating system
浇注系统
1.
Simulation and optimization of gating system of die-casting die for magnesium alloy AM60B part;
AM60B镁合金压铸模浇注系统的模拟与优化
2.
Principle of Designing Gating System for Die Cast Aluminum Alloy Mould;
设计铝合金压铸模具浇注系统类型的原则
3.
Optimization of Gating System for Gear Box of the Car Based on CAE System;
基于CAE分析的汽车齿轮室浇注系统的优化
补充资料:反射式阶梯光栅(reflection stepped grating)
分子式:
CAS号:
性质:又称反射式阶梯光栅(reflection stepped grating)。其性质介于小阶梯光栅和阶梯光栅之间。它与闪耀光栅不同,不以增加光栅刻线,而以增大闪耀角(高光谱级次和加大光栅刻划面积)来获得高分辨本领和高色散率。例如当8~80条/mm刻线,60°~70°闪耀角,40~200级高光谱级次时,分辨本领大于106。普通闪耀光栅为105。但它每一级光谱区很窄,只有1~10nm。可用交叉色散法将这些上百级次的光谱分开。
CAS号:
性质:又称反射式阶梯光栅(reflection stepped grating)。其性质介于小阶梯光栅和阶梯光栅之间。它与闪耀光栅不同,不以增加光栅刻线,而以增大闪耀角(高光谱级次和加大光栅刻划面积)来获得高分辨本领和高色散率。例如当8~80条/mm刻线,60°~70°闪耀角,40~200级高光谱级次时,分辨本领大于106。普通闪耀光栅为105。但它每一级光谱区很窄,只有1~10nm。可用交叉色散法将这些上百级次的光谱分开。
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