CeO2>La2O3。滲Cr層明顯的分為雙層結(jié)構(gòu),外層是以(Cr,F(xiàn)e)23C6相為主的多孔層,內(nèi)層為(Cr,F(xiàn)e)7C3相為主的致密層。擴(kuò)滲初期在基材表面首先生成的(Cr,F(xiàn)e)23C6相層阻礙了表面活性Cr原子向內(nèi)擴(kuò)散,其自身作為Cr源向內(nèi)擴(kuò)散促進(jìn)了致密層的生長(zhǎng),Cr原子擴(kuò)散速度的差異及滲層中的應(yīng)力是產(chǎn)生孔隙的主要原因。發(fā)現(xiàn)降低基體碳含量抑制(Cr,F(xiàn)e)23C6相層的生成或細(xì)化該相層晶粒增加Cr原子擴(kuò)散通道可有效降低孔隙率,這為改進(jìn)滲鉻層質(zhì)量提供了一個(gè)重要思路。"/>

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GCr15銷軸固體滲Cr層的生長(zhǎng)機(jī)制及孔隙成因探索
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作者單位:

1.山東科技大學(xué)材料科學(xué)與工程學(xué)院;2.濟(jì)南天盟新材料科技有限公司;3.合鴻新材科技有限公司

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基金項(xiàng)目:

山東省自然科學(xué)(項(xiàng)目號(hào)ZR2020ME015);泰山學(xué)者攀登計(jì)劃項(xiàng)目(No. tspd20161006)


Exploration on the Growth Mechanism and Pore Formation of Solid Chromizing Layer of GCr15 Pin
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Affiliation:

1.School of Materials Science and Engineering,Shandong University of Science and Technology;2.Jinan Tianmeng New Material Technology Co,LTD;3.Hehong New Material Technology Co., LTD

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    摘要:

    低擴(kuò)滲效率和滲層孔隙是困擾著滲鉻生產(chǎn)的兩個(gè)重要難題。本文采用固體包埋法在GCr15表面制備滲Cr涂層,重點(diǎn)探討了滲層的生長(zhǎng)機(jī)制、孔隙成因及不同稀土氧化物的催滲作用。結(jié)果表明,加入稀土氧化物后滲層厚度明顯提高,三種稀土氧化物的催滲效率依次為Y2O3>CeO2>La2O3。滲Cr層明顯的分為雙層結(jié)構(gòu),外層是以(Cr,F(xiàn)e)23C6相為主的多孔層,內(nèi)層為(Cr,F(xiàn)e)7C3相為主的致密層。擴(kuò)滲初期在基材表面首先生成的(Cr,F(xiàn)e)23C6相層阻礙了表面活性Cr原子向內(nèi)擴(kuò)散,其自身作為Cr源向內(nèi)擴(kuò)散促進(jìn)了致密層的生長(zhǎng),Cr原子擴(kuò)散速度的差異及滲層中的應(yīng)力是產(chǎn)生孔隙的主要原因。發(fā)現(xiàn)降低基體碳含量抑制(Cr,F(xiàn)e)23C6相層的生成或細(xì)化該相層晶粒增加Cr原子擴(kuò)散通道可有效降低孔隙率,這為改進(jìn)滲鉻層質(zhì)量提供了一個(gè)重要思路。

    Abstract:

    Low diffusion efficiency and porous layer are two important problems in chromeizing production. In this paper, cr-permeable coating was prepared on GCr15 surface by solid embedding method. The growth mechanism of permeable layer, pore formation and the effect of different rare earth oxides on permeable layer were discussed. The results show that the permeability layer thickness increases obviously after adding rare earth oxides, and the permeability efficiency of the three rare earth oxides is Y2O3> CeO2> La2O3. The Cr permeable layer is obviously divided into two layers, the outer layer is porous layer dominated by (Cr, Fe)23C6 phase, and the inner layer is dense layer dominated by (Cr, Fe)7C3 phase. The (Cr, Fe)23C6 phase layer, which is first generated on the substrate surface at the early stage of diffusion, inhibits the inward diffusion of active Cr atoms and promotes the growth of the tight layer as a Cr source. The difference in the diffusion rate of Cr atoms and the stress in the permeable layer are the main reasons for the formation of pores. It is found that reducing the carbon content of substrate inhibits the formation of (Cr, Fe)23C6 phase layer or refining the grain of the phase layer to increase the diffusion channel of Cr atom can effectively reduce the porosity, which provides an important idea for improving the quality of chromizing layer.

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王海峰,王燦明,劉婷婷,宋強(qiáng),薛云嶺,馬慶超,崔洪芝. GCr15銷軸固體滲Cr層的生長(zhǎng)機(jī)制及孔隙成因探索[J].稀有金屬材料與工程,2023,52(5):1809~1818.[Wang Haifeng, Wang Canming, Liu Tingting, Song Qiang, Xue Yunling, Ma Qingchao, Cui Hongzhi. Exploration on the Growth Mechanism and Pore Formation of Solid Chromizing Layer of GCr15 Pin[J]. Rare Metal Materials and Engineering,2023,52(5):1809~1818.]
DOI:10.12442/j. issn.1002-185X.20220335

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  • 收稿日期:2022-04-20
  • 最后修改日期:2022-05-24
  • 錄用日期:2022-06-17
  • 在線發(fā)布日期: 2023-06-08
  • 出版日期: 2023-05-29