molten metal
- molten metal的基本解释
-
-
熔融金属, 金属液, 已熔金属, 熔化金属
- 拼写相近词组、短语
- molten metal bath
- 更多网络例句与molten metal相关的网络例句 [注:此内容来源于网络,仅供参考]
-
The flow of molten metal are the forefront of the lost foam pyrolysis products, it will happen with the liquid metal reflect and affect the quality of metal liquid, if the liquid metal filling process in pyrolysis products should not rule out smoothly, it is easy to cause stomatal , Cockle, by defects such as carbon.
金属液的流动前沿是热解的消失模产物,它会与金属液发生反映并影响到金属液质量,如果金属液充型过程中热解产物不能顺利排除,就容易引起气孔、皱皮、增碳等缺陷。
-
Numerical simulation results show that the fluid flow in Lost Foam Process was different from that in an ordinary green sand mold, the molten metal flow forwards in a circular-arc shape from the ingate, meanwhile, the nature of the gating system influenced the filling process notably. As the polystyrene pattern decomposition has a strong quenching effect on the flowing metal fornt, a high temperature gradient was formed at the flowing metal front, this resulted in the dropping of temperature of the metal to the liquidus temperature quickly and decreased the flowability of molten metal, the temperature distribution in the metal behind, however, was even. The properties of the pattern and the coating affected the temperature distribution remarkably.
从内浇口开始,金属液呈放射状均匀向前充填,同时浇注系统性质显著影响金属液充型过程的流场;由于聚苯乙烯模样气化吸热对金属液的激冷作用,在金属液流端部区域产生很大的温度梯度,使得端部区域金属液很快降至液相线温度,降低了金属液的充型能力,而后续金属液中温度分布则比较均匀,模样性能、涂料性能显著影响这一温度分布特点。
-
The droplet transfer of twin-wire co-pool gas shielded metal arc welding process takes great effects on the behavior of the molten pool by transferring energy, momentum and fluid flow to the molten pool which will affect the weld appearance.
双丝共熔池GMAW(twin-wire co-pool gas shielded metal arc welding, TCGMAW)熔滴过渡对焊缝成形的影响体现在对熔池的作用上,熔滴对熔池的作用在于向熔池传输能量、动量和质量,最终会影响到焊缝的成形和质量。
- 更多网络解释与molten metal相关的网络解释 [注:此内容来源于网络,仅供参考]
-
molten metal:金属熔液
mole 突堤;防波堤 | molten metal 金属熔液 | molten slag 熔渣
-
molten metal:熔融金属
middle beam 中间梁 | mode 模式 | molten metal 熔融金属
-
molten metal:熔态金属
390 糖蜜船 molasses tanker | 391 熔态金属 molten metal | 392 抗艉骤降力矩(下水) moment against tipping