Effects of Water Cooling on Heat Transfer and Solidification in IN718 Vacuum Arc Remelting
Zichen Qi, Ming Pan, Panlin Xing, Xujian Jiang, Lvjia Huang, Yukang Jian, Shaowen Lei

TL;DR
This study shows how water cooling affects heat transfer and solidification in the vacuum arc remelting of IN718 alloy, improving the material's quality.
Contribution
The paper introduces a heat transfer model and experimental validation to quantify the impact of water flow velocity on VAR ingot microstructure.
Findings
Higher cooling water flow velocity significantly improves radial heat transfer but has limited effect on axial heat transfer.
Increased flow velocity reduces molten pool depth and enhances ingot cooling rates, suppressing dendrite coarsening.
Secondary dendrite arm spacing decreases by up to 31% with higher flow velocity, improving metallurgical quality.
Abstract
During the vacuum arc remelting (VAR) process, external convective cooling conditions exert a significant influence on both the heat transfer behavior and solidification microstructure of ingots. In this research, Φ 480 mm IN718 alloy VAR ingots were investigated. A heat transfer model for the VAR mold was established based on the equivalent thermal resistance method to analyze the effects of varying external convective cooling conditions on overall heat transfer performance. Industrial-scale VAR experiments were conducted at different cooling water flow velocities (0.48, 0.73 and 1.30 m/s) to assess how external cooling affects molten pool morphology and microstructure evolution. The results indicate that cooling water flow velocity is the primary factor affecting the heat transfer performance of the VAR mold. Increasing the flow velocity significantly enhances radial heat transfer…
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Taxonomy
TopicsMetallurgical Processes and Thermodynamics · Injection Molding Process and Properties · Solidification and crystal growth phenomena
