-1條件下的熱變形行為,并利用EBSD探討了變形溫度和應(yīng)變速率對合金組織演變和動態(tài)再結(jié)晶形核機(jī)制的影響。結(jié)果表明,流變應(yīng)力隨變形溫度的升高而降低,而隨應(yīng)變速率的增大而增加。基于流變應(yīng)力曲線,建立合金的Arrhenius本構(gòu)方程和熱加工圖,得到熱變形激活能為520.03 kJ/mol,最佳熱加工區(qū)間為1175~1250 ℃、0.006~1 s-1,該區(qū)域最大功率耗散效率為45%。動態(tài)再結(jié)晶分?jǐn)?shù)隨變形溫度的升高和應(yīng)變速率的降低而增加,且動態(tài)再結(jié)晶過程形成均勻細(xì)小的等軸晶粒以及∑3孿晶界。動態(tài)再結(jié)晶形核主要以晶界“弓出”為特征的不連續(xù)動態(tài)再結(jié)晶機(jī)制主導(dǎo)。低溫高應(yīng)變速率下,持續(xù)亞晶轉(zhuǎn)動誘導(dǎo)的連續(xù)動態(tài)再結(jié)晶作為輔助形核機(jī)制發(fā)揮作用。"/>

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一種新型Ni-Cr-Co基合金的熱變形行為及其組織演變研究
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蘭州理工大學(xué) 省部共建有色金屬先進(jìn)加工與再利用國家重點實驗室

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中圖分類號:

TG132.3

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國家重點研發(fā)計劃資助(2017YFA0700703);國家科學(xué)自然基金資助(51661019);甘肅省科技重大專項項目(145RTSA004)


Hot deformation characteristics and microstructure evolution a new-type Ni-Cr-Co based alloy
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State Key Laboratory of Advanced Processing and Recycling of Nonferrous Metals,Lanzhou University of Technology

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    摘要:

    采用Gleeble-3800熱壓縮實驗機(jī)研究了新型Ni-Cr-Co基合金在1050~1250 ℃、0.001~1 s-1條件下的熱變形行為,并利用EBSD探討了變形溫度和應(yīng)變速率對合金組織演變和動態(tài)再結(jié)晶形核機(jī)制的影響。結(jié)果表明,流變應(yīng)力隨變形溫度的升高而降低,而隨應(yīng)變速率的增大而增加。基于流變應(yīng)力曲線,建立合金的Arrhenius本構(gòu)方程和熱加工圖,得到熱變形激活能為520.03 kJ/mol,最佳熱加工區(qū)間為1175~1250 ℃、0.006~1 s-1,該區(qū)域最大功率耗散效率為45%。動態(tài)再結(jié)晶分?jǐn)?shù)隨變形溫度的升高和應(yīng)變速率的降低而增加,且動態(tài)再結(jié)晶過程形成均勻細(xì)小的等軸晶粒以及∑3孿晶界。動態(tài)再結(jié)晶形核主要以晶界“弓出”為特征的不連續(xù)動態(tài)再結(jié)晶機(jī)制主導(dǎo)。低溫高應(yīng)變速率下,持續(xù)亞晶轉(zhuǎn)動誘導(dǎo)的連續(xù)動態(tài)再結(jié)晶作為輔助形核機(jī)制發(fā)揮作用。

    Abstract:

    Hot deformation characteristics of a new-type Ni-Cr-Co based alloy was investigated by isothermal compression tests under the deformation temperature range of 1050~1250 ℃ and strain rate range of 0.001~1 s-1. The electron backscatter diffraction (EBSD) technique was employed to investiage the microstructure evolution and nucleation mechanisms of dynamic recrystallization. The result showed that the flow stress decreases with the increasing of deformation temperature and the decreasing of strain rate. The Arrhenius constitutive equation and processing map were established based on the hot deformation data, and the hot deformation activation energy was calculated as 520.03 kJ/mol. The optimum hot working conditions were obtained in the temperature scope of 1175~1250 ℃ and the strain rate range of 0.006~1 s-1 with the peak power dissipation efficiency of 45%. The fraction of dynamic recrystallization increases with the increasing of deformation temperature and the decreasing of strain rate. And during dynamic recrystallization, a large number of deformed grains were replaced by fine dynamic recrystallized grains and a high frequency of ∑3 twin boundaries were generated. The dominant dynamic recrystallization nucleation mechanism is grain boundary bulging, which is a typical feature of discontinuous dynamic recrystallization. In the low temperature and high strain rate region, continuous dynamic recrystallization characterized by the rotation of subgrains was detected. However, continuous dynamic recrystallization was just an assistant nucleation mechanism for the alloy.

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王興茂,丁雨田,高鈺璧,閆 康,馬元俊,陳建軍.一種新型Ni-Cr-Co基合金的熱變形行為及其組織演變研究[J].稀有金屬材料與工程,2022,51(1):249~259.[Wang Xingmao, Ding Yutian, Gao Yubi, Yan Kang, Ma Yuanjun, Chen Jianjun. Hot deformation characteristics and microstructure evolution a new-type Ni-Cr-Co based alloy[J]. Rare Metal Materials and Engineering,2022,51(1):249~259.]
DOI:10.12442/j. issn.1002-185X.20210043

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  • 收稿日期:2021-01-15
  • 最后修改日期:2021-03-16
  • 錄用日期:2021-04-15
  • 在線發(fā)布日期: 2022-02-09
  • 出版日期: 2022-01-28