-1條件下的熱變形行為,并采用電子背散射衍射( EBSD)研究了不同變形參數(shù)下合金的組織演變規(guī)律。結(jié)果表明,IN783合金的峰值應(yīng)力隨著溫度的升高和應(yīng)變速率的減小而顯著降低。基于 Arrhenius 方程和 Zener-Hollomon 參數(shù)模型,建立了該合金的本構(gòu)方程,可以很好地描述熱變形過程中峰值應(yīng)力與變形溫度和應(yīng)變速率的關(guān)系。基于動態(tài)材料模型繪制了IN783合金的熱加工圖,并根據(jù)熱加工圖和微觀組織分析,確定IN783鎳基高溫合金的失穩(wěn)區(qū)為:變形溫度1095℃-1120℃、應(yīng)變速率100.39814-101 S-1。此外,在高溫低速率條件下(1060-1120℃、0.01 S-1),盡管合金具有較高的功率耗散值,但會出現(xiàn)混晶組織和晶粒粗化現(xiàn)象,也不適合作為IN783合金的熱加工區(qū)間。"/>

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IN783低膨脹高溫合金的熱變形行為和組織演變
作者:
作者單位:

1.貴州安大航空鍛造有限責(zé)任公司;2.煙臺大學(xué) 精準(zhǔn)材料高等研究院

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通訊作者:

中圖分類號:

TG132.3

基金項目:

山東省高等學(xué)校青年創(chuàng)新團隊計劃資助項目(2022KJ272);山東省泰山學(xué)者工程專項經(jīng)費資助項目(2021,2022);山東省自然科學(xué)基金面上項目(ZR2022ME067)通信作者:周鑫, 教授, 博士; 電話:0535-6902637; E-mail: zhouxin@ytu.edu.cn


Hot Deformation Behavior and Microstructure Evolution of IN783 Low-expansion Superalloy
Author:
Affiliation:

Yantai University

Fund Project:

Project (2022KJ272) supported by the Youth Innovation team Project of Higher Education Institutions in Shandong Province; Project (2021, 2022) supported by Taishan Scholars Program of Shandong Province; Project (ZR2022ME067) supported by the Natural Science Foundation of Shandong Province

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    摘要:

    本文通過熱壓縮試驗研究了IN783低膨脹高溫合金在溫度為1000-1120℃、應(yīng)變速率為0.01-10 S-1條件下的熱變形行為,并采用電子背散射衍射( EBSD)研究了不同變形參數(shù)下合金的組織演變規(guī)律。結(jié)果表明,IN783合金的峰值應(yīng)力隨著溫度的升高和應(yīng)變速率的減小而顯著降低?;?Arrhenius 方程和 Zener-Hollomon 參數(shù)模型,建立了該合金的本構(gòu)方程,可以很好地描述熱變形過程中峰值應(yīng)力與變形溫度和應(yīng)變速率的關(guān)系?;趧討B(tài)材料模型繪制了IN783合金的熱加工圖,并根據(jù)熱加工圖和微觀組織分析,確定IN783鎳基高溫合金的失穩(wěn)區(qū)為:變形溫度1095℃-1120℃、應(yīng)變速率100.39814-101 S-1此外,在高溫低速率條件下(1060-1120℃、0.01 S-1),盡管合金具有較高的功率耗散值,但會出現(xiàn)混晶組織和晶粒粗化現(xiàn)象,也不適合作為IN783合金的熱加工區(qū)間。

    Abstract:

    In this paper, the hot deformation behavior of IN783 low-expansion superalloy was investigated through hot compression experiments at the deformation temperatures of 1000-1120 ℃ and strain rates of 0.01-10 S-1. The microstructure evolution of the alloy under different deformation conditions was studied using electron backscatter diffraction (EBSD). The results indicate that the peak stress of IN783 alloy significantly decreases with the increase of deformation temperature and the decrease of strain rates. Combined with Arrhenius equation and Zener Hollomon parameter model, the constitutive equation of the alloy was established, which can well describe the relationship between peak stress, deformation temperature and strain rate during hot deformation of IN783 alloy. The hot working diagram of IN783 alloy was drawn based on the dynamic material model. According to the hot working diagram and the microstructure observation, the instability zone of IN783 superalloy was determined as: deformation temperature of 1095 ℃ - 1120 ℃, strain rate of 100.39814-101 S-1. In addition, under the condition of high temperature and low strain rates (1060-1120 ℃, 0.01 S-1), mixed crystal and grain coarsening would occur, which makes it not suitable for the hot working of IN783 alloy although the alloy has high power dissipation coefficient in those parameters.

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蘇海,王晨,羅通,黃海亮,張華,張尚洲,江亮,周鑫. IN783低膨脹高溫合金的熱變形行為和組織演變[J].稀有金屬材料與工程,2024,53(7):2006~2017.[Su Hai, Wang Chen, Luo Tong, Huang Hailiang, Zhang Hua, Zhang Shangzhou, Jiang Liang, Zhou Xin. Hot Deformation Behavior and Microstructure Evolution of IN783 Low-expansion Superalloy[J]. Rare Metal Materials and Engineering,2024,53(7):2006~2017.]
DOI:10.12442/j. issn.1002-185X.20230286

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  • 收稿日期:2023-05-15
  • 最后修改日期:2023-07-26
  • 錄用日期:2023-07-28
  • 在線發(fā)布日期: 2024-07-22
  • 出版日期: 2024-07-12