1) mouth shape
嘴型
2) tip cavity
铸嘴型腔
1.
In this paper , the influences of adjusting amplitude at different velocities on the flow field and temperature field at the exit of tip cavity are investigated.
本文研究了不同速度调节幅值对铸嘴型腔流场和温度场的影响,通过仿真分析,结果表明:入口速度变化幅值越大,型腔出口处熔体速度、温度过渡到稳定速度、温度的时间越长。
2.
The simulation results indicate that it is feasible to improve fluid field,temperature filed in tip cavity by adjusting fluid online,which provides basis to adjusting the control model online to assure the quality.
建立了在线布流调节时铸嘴型腔熔体非定常流动和传热数学模型,应用数值方法仿真分析了入口速度斜坡变化时铸嘴型腔流场、温度场、压力场的动态演化过程。
3.
In this paper,the influences of adjusting amplitude at different velocities on the flow field and temperature field at the exit of tip cavity are studied.
本文研究了两种典型入口速度调节方式对铸嘴型腔流场和温度场的影响,通过数值方法对铸嘴型腔非定常流动和传热进行了仿真分析,结果表明:在同一变化幅值情况下,入口速度阶跃变化、斜坡函数变化后的熔体出口速度、出口温度分布基本相同。
3) nozzle cavity
铸嘴型腔
1.
Influence of mesh types in two-dimensional FEA analysis of the cavity fluid field of nozzle cavity;
网格划分对铸嘴型腔流场有限元分析的影响
2.
Analysis of heat transfer and solidification phenomenon for aluminum liquid in nozzle cavity;
铝熔体在铸嘴型腔中的传热及凝固现象分析
3.
Two-dimensional FEA of the influence of the shape of nozzle cavity on cavity fluid field;
铸嘴型腔形状对型腔流场影响的二维有限元分析
4) nozzle cavity
喷嘴型腔
5) Nozzle Type
喷嘴型号
6) bobtail
鸭嘴型艉
参考词条
补充资料:嘴嘴舌舌
1.犹言唠唠叨叨。说起来没完。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。