-1-10 s-1,變形溫度為800 ℃-1100℃條件下的熱變形行為,計算合金在不同變形條件下的應(yīng)變速率敏感性指數(shù)m,并基于DMNR模型建立EB爐熔煉TC4鈦合金的雙重多元非線性回歸本構(gòu)方程。結(jié)果表明:在變形開始階段,加工硬化占主導(dǎo)作用,流動應(yīng)力隨著應(yīng)變的增加而增加,當(dāng)達到峰值應(yīng)力時,軟化作用比較明顯,位錯開始發(fā)生滑移和攀移,流動應(yīng)力隨著應(yīng)變的增加而降低。在低溫小應(yīng)變速率下m值較大,在高溫大應(yīng)變速率下m值較小,m值越大,對應(yīng)的顯微組織越均勻。采用所建立的非線性回歸本構(gòu)方程能夠較好地預(yù)測EB爐熔煉TC4鈦合金的流動應(yīng)力,預(yù)測值與實測值之間的平均絕對相對誤差為5.83% ,相關(guān)系數(shù)為0.98。"/>

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基于DMNR模型建立EB爐熔煉TC4鈦合金的雙重多元非線性回歸本構(gòu)方程
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作者單位:

1.西安建筑科技大學(xué)冶金工程學(xué)院;2.云南鈦業(yè)股份有限公司

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基金:中國博士后基金第65批面上項目(2019M653571),2019年云南省博士后科研基金


(28)A Double Multiple Nonlinear Regression Constitutive Equation for Prediction of High Temperature Flow Behavior of TC4 titanium alloy fabricated by electron beam cold hearth melting
Author:
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1.School of Materials Science and Engineering,Xi’an University of Architecture and Technology,Xi’an;2.Yunnan titanium industry Co,Ltd

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    摘要:

    通過熱模擬壓縮實驗研究EB爐熔煉TC4鈦合金在應(yīng)變速率為0.01 s-1-10 s-1,變形溫度為800 ℃-1100℃條件下的熱變形行為,計算合金在不同變形條件下的應(yīng)變速率敏感性指數(shù)m,并基于DMNR模型建立EB爐熔煉TC4鈦合金的雙重多元非線性回歸本構(gòu)方程。結(jié)果表明:在變形開始階段,加工硬化占主導(dǎo)作用,流動應(yīng)力隨著應(yīng)變的增加而增加,當(dāng)達到峰值應(yīng)力時,軟化作用比較明顯,位錯開始發(fā)生滑移和攀移,流動應(yīng)力隨著應(yīng)變的增加而降低。在低溫小應(yīng)變速率下m值較大,在高溫大應(yīng)變速率下m值較小,m值越大,對應(yīng)的顯微組織越均勻。采用所建立的非線性回歸本構(gòu)方程能夠較好地預(yù)測EB爐熔煉TC4鈦合金的流動應(yīng)力,預(yù)測值與實測值之間的平均絕對相對誤差為5.83% ,相關(guān)系數(shù)為0.98。

    Abstract:

    The thermal simulation compression experiment is used to study the thermal deformation behavior of EB furnace smelting TC4 titanium alloy at a strain rate of 0.01 s-1-10 s-1 and a deformation temperature of 800 ℃-1100 ℃, and calculate the strain rate of the alloy under different deformation conditions Sensitivity index m, and based on the DMNR model to establish a dual multivariate nonlinear regression constitutive equation for EB furnace smelting TC4 titanium alloy. The results show that at the beginning of deformation, work hardening is dominant, and the flow stress increases with the increase of strain. When the peak stress is reached, the softening effect is more obvious, the dislocations begin to slip and climb, and the flow stress increases with the strain. Increase and decrease. The value of m is larger under low temperature and small strain rate, and smaller under high temperature and large strain rate. The larger the value of m, the more uniform the corresponding microstructure. The established nonlinear regression constitutive equation can better predict the flow stress of EB furnace smelting TC4 titanium alloy. The average absolute relative error between the predicted value and the measured value is 5.83%, and the correlation coefficient is 0.98.

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王 偉,王萌,蔡軍,張浩澤,史亞鳴,張曉鋒,黃海廣,王快社.基于DMNR模型建立EB爐熔煉TC4鈦合金的雙重多元非線性回歸本構(gòu)方程[J].稀有金屬材料與工程,2021,50(10):3609~3620.[WANG Wei, WANG Meng, CAI Jun, ZHANG Haoze, SHI Yaming, ZHANG Xiaofeng, HUANG Haiguang, WANG Kuaishe.(28)A Double Multiple Nonlinear Regression Constitutive Equation for Prediction of High Temperature Flow Behavior of TC4 titanium alloy fabricated by electron beam cold hearth melting[J]. Rare Metal Materials and Engineering,2021,50(10):3609~3620.]
DOI:10.12442/j. issn.1002-185X.20200852

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歷史
  • 收稿日期:2020-11-07
  • 最后修改日期:2021-01-22
  • 錄用日期:2021-02-03
  • 在線發(fā)布日期: 2021-10-28
  • 出版日期: 2021-10-25