-1、變形量為60%條件下的熱變形行為,流變應(yīng)力隨著變形溫度的升高或應(yīng)變速率的降低而顯著降低;根據(jù)Arrhenius方程和Zener-Hollomon參數(shù),計算了熱變形激活能Q,建立了GH2907合金的熱變形本構(gòu)方程;根據(jù)動態(tài)材料模型,確定了GH2907合金在不同應(yīng)變下的功率耗散圖,功率耗散效率η較高的區(qū)域位于溫度為1050~1100℃,應(yīng)變速率為0.01~0.03s-1范圍,在該變形區(qū)域內(nèi)組織發(fā)生了明顯的動態(tài)再結(jié)晶現(xiàn)象;基于Preased失穩(wěn)判據(jù),繪制了GH2907合金在不同應(yīng)變下的熱加工圖,流變失穩(wěn)區(qū)位于高溫高應(yīng)變速率區(qū)域,即溫度為970~1100℃,應(yīng)變速率為0.6~10s-1范圍,在該變形區(qū)域內(nèi)動態(tài)再結(jié)晶晶粒沿著絕熱剪切帶和局部流動分布。根據(jù)GH2907合金熱加工圖及微觀組織分析得到適宜的加工區(qū)域是溫度為1050~1100℃,應(yīng)變速率為0.01~0.03s-1范圍。"/>

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GH2907合金熱變形行為及熱加工圖
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1.西安建筑科技大學(xué) 冶金工程學(xué)院;2.西北工業(yè)大學(xué)材料學(xué)院;3.中國航發(fā)沈陽黎明航空發(fā)動機(jī)(集團(tuán))有限責(zé)任公司

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國家自然科學(xué)基金項目(面上項目,重點(diǎn)項目,重大項目);陜西省重點(diǎn)研發(fā)計劃項目


Hot Deformation Behavior and Hot Processing Map of GH2907 Superalloy
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1.Xi'2.'3.an University of Architecure and Technology

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NSFC;Key R&D Program Projects in Shaanxi Province

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    摘要:

    通過熱模擬壓縮實驗研究了GH2907合金在變形溫度為950~1100℃、應(yīng)變速率為0.01~10s-1、變形量為60%條件下的熱變形行為,流變應(yīng)力隨著變形溫度的升高或應(yīng)變速率的降低而顯著降低;根據(jù)Arrhenius方程和Zener-Hollomon參數(shù),計算了熱變形激活能Q,建立了GH2907合金的熱變形本構(gòu)方程;根據(jù)動態(tài)材料模型,確定了GH2907合金在不同應(yīng)變下的功率耗散圖,功率耗散效率η較高的區(qū)域位于溫度為1050~1100℃,應(yīng)變速率為0.01~0.03s-1范圍,在該變形區(qū)域內(nèi)組織發(fā)生了明顯的動態(tài)再結(jié)晶現(xiàn)象;基于Preased失穩(wěn)判據(jù),繪制了GH2907合金在不同應(yīng)變下的熱加工圖,流變失穩(wěn)區(qū)位于高溫高應(yīng)變速率區(qū)域,即溫度為970~1100℃,應(yīng)變速率為0.6~10s-1范圍,在該變形區(qū)域內(nèi)動態(tài)再結(jié)晶晶粒沿著絕熱剪切帶和局部流動分布。根據(jù)GH2907合金熱加工圖及微觀組織分析得到適宜的加工區(qū)域是溫度為1050~1100℃,應(yīng)變速率為0.01~0.03s-1范圍。

    Abstract:

    The hot deformation behavior of GH2907 superalloy in deformation temperature of 950℃~1100℃, strain rates of 0.01s-1~10s-1 and deformation degree of 60% was studied by thermal simulation compression experiments. The flow stress decreases significantly as the deformation temperature increases or strain rate decreases; according to the Arrhenius equation and the Zener-Hollomon parameter, the thermal deformation activation energy (Q) can be calculated, and the hot deformation constitutive equation of GH2907 superalloy also is established. On the basis of the dynamic material model, the power dissipation map under different strains of the GH2907 superalloy is obtained. The region with higher power dissipation efficiency (η) is located in the temperature of 1050~1100℃ with strain rates of 0.01~0.03s-1, and the microstructure dynamic recrystallization phenomenon also occurs in the deformation region; based on the Preased instability criterion, the hot processing map of GH2907 superalloy under different strains is drawn. The rheological instability zone is located in the high temperature range of 970~1100℃ and high strain rate range of 0.6~10s-1. In addition, the dynamic recrystallized grains are distributed along the adiabatic shear band and local flow in this deformation region. According to the hot processing map and microstructure analysis of GH2907 superalloy, the suitable processing area is in the temperature of 1050~1100℃ and strain rates of 0.01~0.03s-1.

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陳益哲,龐玉華,王建國,劉東,王健研. GH2907合金熱變形行為及熱加工圖[J].稀有金屬材料與工程,2020,49(9):2956~2965.[chenyizhe, pangyuhua, wangjianguo, liudong, wangjianyan. Hot Deformation Behavior and Hot Processing Map of GH2907 Superalloy[J]. Rare Metal Materials and Engineering,2020,49(9):2956~2965.]
DOI:10.12442/j. issn.1002-185X.20190555

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  • 收稿日期:2019-07-01
  • 最后修改日期:2019-09-05
  • 錄用日期:2019-09-06
  • 在線發(fā)布日期: 2020-10-15
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