采用场辅助烧结技术对一种高级镍基高温合金粉末进行固结,并与热等静压基准相比较,对其微观组织演变进行了参数化研究

IF 3.9 Q2 ENGINEERING, INDUSTRIAL
K. Marshall , P. Schillinger , N.S. Weston , M. Epler , M. Jackson
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引用次数: 2

摘要

研究了用场辅助烧结技术(FAST)对一种高级镍基高温合金粉末原料进行固结。将FAST加工的材料与热等静压(HIP)制备的基准材料直接进行比较,发现密度、硬度值和微观结构是相当的。当使用烧结停留时间从10到240分钟时,FAST可以保留先前的颗粒晶粒形态。应用高于合金γ′溶剂的停留温度导致显著的晶粒生长。测量的密度表明,在烧结过程中施加的载荷和停留时间对固结材料的最终密度影响最小。在FAST固结材料中,晶体结构也显示出各向同性。该研究表明FAST是镍基高温合金粉末固结的一种潜在的补充和/或替代工艺路线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A parametric study of the microstructural evolution of an advanced Ni-based superalloy powder when consolidated using Field Assisted Sintering Technology, compared to a hot isostatic pressing benchmark

The use of Field Assisted Sintering Technology (FAST) is examined for the consolidation of an advanced Ni-based superalloy powder feedstock. FAST processed material was directly compared to a benchmark material prepared via hot isostatic pressing (HIP) where it was found that density, hardness values and microstructures were comparable. FAST enables the retainment of the prior particle grain morphology when using sintering dwell times ranging from 10 to 240 min. The application of dwell temperatures above the γ′ solvus of the alloy resulted in significant grain growth. Measured densities reveal that the applied load and dwell time used during sintering have minimal effect on the final density of the consolidated material. The crystallographic texture was also shown to be isotropic in FAST consolidated material. This study demonstrates that FAST is potentially a viable complementary and/or alternative processing route for consolidating Ni-based superalloy powders.

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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
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