-1 到 10 s-1條件下的高溫流變行為。結(jié)果表明,Ti-6Al-4V-0.1Ru鈦合金的峰值應(yīng)力隨著變形溫度的降低以及變形速率的增大而增大,軟化機制在950℃以下為動態(tài)回復(fù),在950℃以上為動態(tài)再結(jié)晶。通過使用線性回歸的方法建立了Ti-6Al-4V-0.1Ru鈦合金的Arrhenius本構(gòu)模型,計算得到該合金的熱激活能為720.477 kJ/mol,應(yīng)變速率敏感指數(shù)為4.809。通過引入應(yīng)變對材料常數(shù)α、n、A 和Q 的影響,建立了考慮應(yīng)變的流變應(yīng)力預(yù)測模型,通過對試驗值和預(yù)測值的比對,相關(guān)系數(shù)達到96.9%,說明該模型具有較好的預(yù)測精度。"/>

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石油管用Ti-6Al-4V-0.1Ru鈦合金高溫流變行為及預(yù)測模型研究
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1.中國石油集團石油管工程技術(shù)研究院;2.有研科技集團有限公司

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基金項目:

國家科技重大專項(2016ZX05020-002);陜西省創(chuàng)新能力支撐計劃(2018KJXX-046)


An Investigation of High Temperature Behavior and Constitutive Model of Ti-6Al-4V-0.1Ru Titanium Alloy Used for Oil Country Tubular Goods
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The National Natural Science Foundation of China (2016ZX05020-002);the Shaanxi Innovation Capability Support Program(2018KJXX-046)

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    摘要:

    通過使用Gleeble-3500熱模擬試驗機進行等溫單軸壓縮試驗,研究了Ti-6Al-4V-0.1Ru鈦合金在溫度800℃ 到 1100℃,應(yīng)變速率0.01 s-1 到 10 s-1條件下的高溫流變行為。結(jié)果表明,Ti-6Al-4V-0.1Ru鈦合金的峰值應(yīng)力隨著變形溫度的降低以及變形速率的增大而增大,軟化機制在950℃以下為動態(tài)回復(fù),在950℃以上為動態(tài)再結(jié)晶。通過使用線性回歸的方法建立了Ti-6Al-4V-0.1Ru鈦合金的Arrhenius本構(gòu)模型,計算得到該合金的熱激活能為720.477 kJ/mol,應(yīng)變速率敏感指數(shù)為4.809。通過引入應(yīng)變對材料常數(shù)α、n、A 和Q 的影響,建立了考慮應(yīng)變的流變應(yīng)力預(yù)測模型,通過對試驗值和預(yù)測值的比對,相關(guān)系數(shù)達到96.9%,說明該模型具有較好的預(yù)測精度。

    Abstract:

    The hot deformation behavior of Ti-6Al-4V-0.1Ru titanium alloy was investigated by isothermal compression on Gleeble-3500 thermal simulator under the conditions of deformation temperature ranging from 800℃ to 1100℃ and strain rate ranging from 0.01 s-1 to 10 s-1. The results revealed that the peak stress of Ti-6Al-4V-0.1Ru titanium alloy increased with decreasing the deformation temperature and increasing the strain rate, the softening mechanism was dynamic recovery below 950℃ and dynamic recrystallization above 950℃. The constitutive equation of Ti-6Al-4V-0.1Ru alloy was calculated by a linear regression analysis in two phase regions in the form of Arrhenius-type relationships. It is found that the apparent activation energies were calculated to be 720.477 kJ/mol and strain rate sensitivity index was 4.809. By introducing the influence of strain on the material constants of α, n, A and Q, the fixed constitutive model of flow stress was established, through comparing the experimental and predicted results, the correlation coefficient reached 96.9%, it was illustrated that this constitutive model had better prediction precision.

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劉強,白強,田峰,于洋,惠松曉,宋生印.石油管用Ti-6Al-4V-0.1Ru鈦合金高溫流變行為及預(yù)測模型研究[J].稀有金屬材料與工程,2020,49(1):177~184.[劉強,baiqiang, tianfeng, yuyang, huisongxiao, songshenying. An Investigation of High Temperature Behavior and Constitutive Model of Ti-6Al-4V-0.1Ru Titanium Alloy Used for Oil Country Tubular Goods[J]. Rare Metal Materials and Engineering,2020,49(1):177~184.]
DOI:10.12442/j. issn.1002-185X.20181182

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  • 收稿日期:2018-11-25
  • 最后修改日期:2019-01-29
  • 錄用日期:2019-02-22
  • 在線發(fā)布日期: 2020-02-16
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