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高強(qiáng)韌Ti-3Al-5Mo-4Cr-2Zr-1Fe合金低周疲勞性能研究
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1.南京工業(yè)大學(xué)材料科學(xué)與工程學(xué)院/新材料研究院;2.俄羅斯烏法國(guó)立航空技術(shù)大學(xué);3.中國(guó)人民解放軍92228部隊(duì);4.南京工業(yè)大學(xué)2011學(xué)院

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國(guó)家自然科學(xué)基金重點(diǎn)項(xiàng)目(No.51931008);江蘇省重點(diǎn)研發(fā)計(jì)劃((產(chǎn)業(yè)前瞻與關(guān)鍵核心技術(shù)--競(jìng)爭(zhēng)項(xiàng)目)(No.BE2019119)


Study on Low Cycle Fatigue Behavior of Ti-3Al-5Mo-4Cr-2Zr-1Fe Alloy with High Strength and Toughness
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Nanjing Tech university

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    摘要:

    本文通過室溫下應(yīng)變控制疲勞試驗(yàn)研究了高強(qiáng)韌Ti-3Al-5Mo-4Cr-2Zr-1Fe鈦合金的低周疲勞性能,結(jié)果表明:在高應(yīng)變幅值下(Δεt/2=1.0%,1.2%,1.4%,1.6%),合金的循環(huán)應(yīng)力幅值表現(xiàn)為初始循環(huán)軟化,而后趨于循環(huán)穩(wěn)定;在低應(yīng)變幅值下(Δεt/2=0.6%,0.8%),合金的循環(huán)應(yīng)力響應(yīng)表現(xiàn)為循環(huán)飽和特征。斷口形貌觀察發(fā)現(xiàn):應(yīng)變幅值為0.6%時(shí),疲勞裂紋源只有一處,在斷口表面分布有大量細(xì)小的二次裂紋。當(dāng)應(yīng)變幅增加到1.6%時(shí),組織中發(fā)現(xiàn)多處疲勞裂紋源,二次裂紋的數(shù)量明顯減少,但長(zhǎng)度和寬度明顯增加。透射電鏡結(jié)果表明:在低應(yīng)變幅值下(Δεt/2=0.6%),在αp/β界面處出現(xiàn)大量的位錯(cuò)堆積,在此處易產(chǎn)生應(yīng)力集中導(dǎo)致微裂紋形核。而在高應(yīng)變幅值下(Δεt/2=1.6%),在αp相中有明顯的變形不均勻性,在αp相內(nèi)出現(xiàn)大量的位錯(cuò)纏結(jié)和位錯(cuò)碎片,并且在αs相中出現(xiàn)一些位錯(cuò)塞積,但在β基體中沒有明顯的位錯(cuò)堆積情況。

    Abstract:

    In the present work, low cycle fatigue (LCF) behavior of Ti-35421 titanium alloy with bimodal microstructure consists of lath α (αp) and βtrans were investigated by strain-controlled mode at room temperature. Results indicated that the cyclic stress amplitude of the bimodal microstructure Ti-35421 alloy show cyclic softening at first, then reach to cyclic stability at high strain amplitude (Δεt/2=1.0%, 1.2%, 1.4%, 1.6%). However, the cyclic stress response was characterized by cyclic saturation at low strain amplitudes (Δεt/2=0.6%, 0.8%). One of fatigue crack source was found by fracture morphology observation when Δεt/2=0.6%, while a large number of small secondary cracks occurred on the surface. On the contrary, multiple fatigue crack sources generated when the strain amplitude increased to 1.6%, the number of secondary cracks reduced, but the length and width of the secondary cracks increased significantly. TEM results indicated that a large number of dislocations generate at the αp/βtrans interface at the low strain amplitude (Δεt/2=0.6%), which might lead to micro-crack nucleation due to the stress concentration. Meanwhile, at high strain amplitude ( Δεt/2=1.6%), deformation inhomogeneity phenomena happened in the αp phase, a large number of dislocation tangles and dislocation debris formed in the αp phase, and some dislocation pile-ups formed in the αs phase, which is not founded in the β substrate.

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引用本文

張航,孫洋洋,Igor. V. Alexandrov,方志剛,易承杰,董月成,常輝,周廉.高強(qiáng)韌Ti-3Al-5Mo-4Cr-2Zr-1Fe合金低周疲勞性能研究[J].稀有金屬材料與工程,2021,50(2):588~594.[Zhang Hang, Sun Yangyang, Igor. V. Alexandrov, Fang Zhigang, Yi Chengjie, Dong Yuecheng, Chang Hui, Zhou Lian. Study on Low Cycle Fatigue Behavior of Ti-3Al-5Mo-4Cr-2Zr-1Fe Alloy with High Strength and Toughness[J]. Rare Metal Materials and Engineering,2021,50(2):588~594.]
DOI:10.12442/j. issn.1002-185X.20200554

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  • 收稿日期:2020-07-29
  • 最后修改日期:2020-09-18
  • 錄用日期:2020-10-15
  • 在線發(fā)布日期: 2021-03-09
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