1) pouring system
浇注体系
1.
The effect of crystallite size distribution of filler alumina in the viscosity of epoxy pouring system;
填料氧化铝粒度对环氧浇注体系粘度的影响
2) 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。
3) 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
4) runner system
浇注系统
1.
Design of runner system of injection mould for cellphone glass block;
手机镜片注射模浇注系统设计
2.
Manmade balanced design and numerical simulation for unbalanced runner system;
非平衡浇注系统的人工平衡设计与数值仿真
3.
Optimization of front bumper runner system and its implementation
汽车前保险杠浇注系统优化及实施
5) feed system
浇注系统
1.
Research and development on knowledge-based feed system for injection mould;
基于知识的注塑模浇注系统的研究与开发
2.
Research on the Intelligent Design Technology of Injection Mould Feed System Based on Knowledge;
基于知识的注塑模具浇注系统智能化设计技术研究
3.
Optimization of feed system and design of injection mould for automotive engine cover
汽车发动机罩盖浇注系统优化与注射模设计
6) injection system
浇注系统
1.
The design of injection system for big-size bending thinning plastic;
大规格弯曲薄壁塑件注射成型浇注系统设计
2.
Factors influencing the injection system were investigated as well as the control and adjustment on its balance.
分析了多模腔注塑模具分流道的平衡性,探讨了浇注系统的影响因素以及浇注系统平衡的控制与调节,结果表明:同模多腔模具流道非平衡排布时,可通过调节浇口的长度及截面尺寸来补充流道长度的差异而引起的不平衡;而对于异模多腔模具,应将模腔容积作为调整系数,依此来设计流道的长度和浇口的长度及截面尺寸。
3.
The structure characteristics and technology requirement of the washer sliding were analyzed, designed the injection mold with an ordinary injection system and three layers, solved the problem of automatic demould, the die structure and working process were introduced, practical production showed the die is safe and reliable, and it improved manufacturing efficiency.
分析了塑件的形状特点和技术要求,设计了一副普通浇注系统3层注射模,并解决了该注射模的自动脱模问题。
补充资料:229254A冷铁水浇注机操作规程
1、遵守铸造设备通用操作规程。
2、检查冷铁膜是否有裂纹,如裂纹过大,应及时更换。
3、检查拉紧装置处是否有冷铁块,如有冷铁块,要立即拿掉,以名阻碍运动。
4、先点动试车,然后空运转2-3分钟,检查传动系统(电动机、联轴节、减速器、链条)的运动是否平稳,确认一切正常后,方可进行生产。
5、浇注铁水以前,首先在冷铁模上刷涂泥浆。
6、不要把铁水浇在行走轮和链条上,否则要立即清除,以免阻碍运动。
7、在浇注机的头部,必须将铸定全部敲离下来,不准随冷铁模带到设备底下,以免卡坏设备。
8、打扫现场时,特别要打扫设备底下和拉紧装置处的铁块铁渣。
2、检查冷铁膜是否有裂纹,如裂纹过大,应及时更换。
3、检查拉紧装置处是否有冷铁块,如有冷铁块,要立即拿掉,以名阻碍运动。
4、先点动试车,然后空运转2-3分钟,检查传动系统(电动机、联轴节、减速器、链条)的运动是否平稳,确认一切正常后,方可进行生产。
5、浇注铁水以前,首先在冷铁模上刷涂泥浆。
6、不要把铁水浇在行走轮和链条上,否则要立即清除,以免阻碍运动。
7、在浇注机的头部,必须将铸定全部敲离下来,不准随冷铁模带到设备底下,以免卡坏设备。
8、打扫现场时,特别要打扫设备底下和拉紧装置处的铁块铁渣。
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