Spark plasma sintering cobalt base superalloy strengthened by Y-Cr-0 compound through high-energy milling

C. F. Tang; F. Pana; X. H. Qu; C. C. Jia; B. H. Duan; X. B. He

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Spark plasma sintering cobalt base superalloy strengthened by Y-Cr-0 compound through high-energy milling

机译：Y-Cr-0化合物高能磨碎强化火花等离子体烧结钴基高温合金

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Powder cobalt base superalloy prepared by high-energy balling and spark plasma sintering are studied through metallography and compression test. The experimental results shows that the powder size and crystalline grain decrease and distortions of crystal lattice increases with milling time. These trends slow down after milling for 8h. Addition of 1.5% methanol can lessen powders adherence and agglomeration. The relative density of the sintered compact is 99.2% by spark plasma sintering at 1100℃ and 40MPa. Its microstructure is fine with average grain size below 5 μm. Its compression strength and elongation are 2506 MPa and 2.5%. Annealing heat treatment at 1300℃ can improve its elongation but decrease its strength. They are 23.0% and 1982 MPa, respectively. The added nano-particles Y{sub}2O{sub}3 are changed into Y-Cr-0 compounds to strengthen the cobalt base superalloy.

机译：通过金相和压缩试验研究了高能球化和火花等离子体烧结制备的粉末钴基高温合金。实验结果表明，随着研磨时间的增加，粉末的粒径和晶粒减小，晶格畸变增加。铣削8h后，这些趋势变慢。添加1.5％的甲醇可以减少粉末的附着和团聚。火花等离子体在1100℃和40MPa下烧结，烧结体的相对密度为99.2％。其微观结构良好，平均晶粒尺寸低于5μm。它的抗压强度和伸长率为2506 MPa和2.5％。 1300℃退火热处理可提高其伸长率，但会降低其强度。它们分别是23.0％和1982MPa。将添加的纳米粒子Y {sub} 2O {sub} 3更改为Y-Cr-0化合物，以增强钴基高温合金。

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来源
《Journal of Materials Processing Technology》 |2008年第3期|共6页
作者
C. F. Tang; F. Pana; X. H. Qu; C. C. Jia; B. H. Duan; X. B. He;
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原文格式 PDF
正文语种 eng
中图分类一般性问题;工程材料学;
关键词
Cobalt base superalloy; High-energy milling; Spark plasma sintering; Annealing;

机译：钴基高温合金;高能磨;火花等离子体烧结;退火;

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1. Spark plasma sintering cobalt base superalloy strengthened by Y-Cr-0 compound through high-energy milling [J] . C. F. Tang, F. Pana, X. H. Qu, Journal of Materials Processing Technology . 2008,第1a3期

机译：Y-Cr-0化合物高能磨碎强化火花等离子体烧结钴基高温合金
2. TiC-based cermet prepared by high-energy ball-milling and reactive spark plasma sintering [J] . Jam Alireza, Nikzad Leila, Razavi Mansour CERAMICS INTERNATIONAL . 2017,第2期

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3. Effects of sintering temperature on fine-grained tungsten heavy alloy produced by high-energy ball milling assisted spark plasma sintering [J] . L Ding, D.P. Xiang, C. Li International Journal of Refractory Metals & Hard Materials . 2012,第Jula期

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4. Preparation of ODS cobalt base superalloy by mechanical alloying and spark plasma sintering [C] . Cui Dawei 2011 International Conference on Electrical and Control Engineering . 2011

机译：机械合金化和放电等离子烧结制备ODS钴基高温合金。
5. Processing of Oxide Dispersion Strengthened Alloys via Mechanical Alloying and Spark Plasma Sintering [D] . Pasebani, Somayeh 2014

机译：机械合金化和火花等离子烧结工艺处理氧化物弥散强化合金
6. The Structure and Mechanical Properties of High-Strength Bulk Ultrafine-Grained Cobalt Prepared Using High-Energy Ball Milling in Combination with Spark Plasma Sintering [O] . Ivo Marek, Dalibor Vojtěch, Alena Michalcová, 2016

机译：高能球磨结合放电等离子烧结制备高强度块状超细晶粒钴的结构和力学性能
7. The Structure and Mechanical Properties of High-Strength Bulk Ultrafine-Grained Cobalt Prepared Using High-Energy Ball Milling in Combination with Spark Plasma Sintering [O] . Ivo Marek, Dalibor Vojtěch, Alena Michalcová, 2016

机译：高能球磨与放电等离子烧结制备高强度大块超细晶钴的结构与力学性能

Spark plasma sintering cobalt base superalloy strengthened by Y-Cr-0 compound through high-energy milling

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