2O3納米顆粒及其與TiO2、MoS2的混合物,試圖人工誘導含F(xiàn)e2O3摩擦層在室溫下的快速形成;研究了Fe2O3、TiO2、MoS2在鈦合金滑動過程中的作用,并探討Fe2O3相對含量對鈦合金磨損行為及磨損機制的影響。結果表明:干滑動下的Ti6Al4V合金耐磨性較差,磨面添加的TiO2進一步加速磨損,MoS2一定程度上降低了磨損但并不顯著,而Fe2O3完全抑制磨損但增大了摩擦系數(shù)。高載下,富TiO2、MoS2顆粒并不能形成摩擦層,反而聚集在磨面犁溝或者凹坑處,而富Fe2O3則容易形成致密的摩擦層覆蓋于磨損表面,這證實了鈦合金高溫耐磨性的改善是由于Fe2O3的出現(xiàn)?;旌螹oS2+80wt.% Fe2O3形成的摩擦層,兼具MoS2的潤滑性和Fe2O3的承載能力,給Ti6Al4V合金帶來最佳的摩擦磨損性能。"/>

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Fe2O3在鈦合金干滑動磨損及摩擦層形成中的作用
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1.淮陰工學院;2.江蘇大學

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國家自然科學基金資助項目 (51701079, 51501067), 江蘇省自然科學基金基金 (BK20140458), 江蘇省高等學校自然科學研究項目(17KJD430001)


Role of Fe2O3 in Dry Sliding Wear of A Titanium Alloy and Formation of Tribo-Layers
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Huaiyin Institute of Technology

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    通過在Ti6Al4V合金滑動界面人工添加Fe2O3納米顆粒及其與TiO2、MoS2的混合物,試圖人工誘導含F(xiàn)e2O3摩擦層在室溫下的快速形成;研究了Fe2O3、TiO2、MoS2在鈦合金滑動過程中的作用,并探討Fe2O3相對含量對鈦合金磨損行為及磨損機制的影響。結果表明:干滑動下的Ti6Al4V合金耐磨性較差,磨面添加的TiO2進一步加速磨損,MoS2一定程度上降低了磨損但并不顯著,而Fe2O3完全抑制磨損但增大了摩擦系數(shù)。高載下,富TiO2、MoS2顆粒并不能形成摩擦層,反而聚集在磨面犁溝或者凹坑處,而富Fe2O3則容易形成致密的摩擦層覆蓋于磨損表面,這證實了鈦合金高溫耐磨性的改善是由于Fe2O3的出現(xiàn)?;旌螹oS2+80wt.% Fe2O3形成的摩擦層,兼具MoS2的潤滑性和Fe2O3的承載能力,給Ti6Al4V合金帶來最佳的摩擦磨損性能。

    Abstract:

    Artificial tribo-layer containing Fe2O3 were induced to form at room temperature by supplying Fe2O3 nanoparticles and its mixtures with TiO2 or MoS2 onto the sliding interfaces of Ti6Al4V alloy and GCr15 steel. The role of Fe2O3, TiO2 and MoS2 on the sliding wear performance of Ti6Al4V alloy was respectively studied. The effect of the relative content of Fe2O3 in artificial tribo-layer on wear behavior and mechanism of Ti6Al4V alloy was also explored. Results showed that Ti6Al4V alloy indeed presented a terrible wear resistance, but it would be changed by the supplied particles. The wear rate of Ti6Al4V alloy was further accelerated by TiO2, was slightly and inappreciably reduced by MoS2, but was completely inhibited by Fe2O3. In the case of supplying TiO2-rich or MoS2-rich particles, they were agglomerated into the grooves or pits on worn surfaces, instead of forming a tribo-layer. For Fe2O3-rich particles, an artificial tribo-layer were noticed to form and cover the worn surfaces. It was confirmed that the improved elevated-temperature wear resistance of titanium alloy was attributed to the appearance of Fe2O3. As the particles of MoS2+80wt.% Fe2O3 were supplied, the tribo-layer possessed both of the lubricating property of MoS2 and the load-carrying ability from Fe2O3, which brought the best performance of friction and wear for Ti6Al4V alloy.

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張秋陽,丁紅燕,周廣宏,王樹奇,張臨財,夏木建,郭嘯棟. Fe2O3在鈦合金干滑動磨損及摩擦層形成中的作用[J].稀有金屬材料與工程,2019,48(1):159~164.[zhangqiuyang, Ding Hongyan, ZHOU Guanghong, Wang Shuqi, Zhang Lincai, Xia Mujian, Guo Xiaodong. Role of Fe2O3 in Dry Sliding Wear of A Titanium Alloy and Formation of Tribo-Layers[J]. Rare Metal Materials and Engineering,2019,48(1):159~164.]
DOI:10.12442/j. issn.1002-185X.20170411

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  • 收稿日期:2017-05-17
  • 最后修改日期:2017-08-17
  • 錄用日期:2017-09-11
  • 在線發(fā)布日期: 2019-02-18
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