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离子注入对LaFe_(11.6)Si_(1.4)合金的缓蚀及其机理研究
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作者 张恩耀 陈云贵 《表面技术》 EI CAS CSCD 北大核心 2017年第2期194-198,共5页
目的通过表面Cr离子注入在LaFe_(11.6)Si_(1.4)合金表面生成一层具有耐蚀作用的保护层,从而提高合金的耐腐蚀性能。方法采用表面离子注入法,分别在注入电压为20、30、40 k V,注入计量为5×10^(16)、10×10^(16)、50×10^(16... 目的通过表面Cr离子注入在LaFe_(11.6)Si_(1.4)合金表面生成一层具有耐蚀作用的保护层,从而提高合金的耐腐蚀性能。方法采用表面离子注入法,分别在注入电压为20、30、40 k V,注入计量为5×10^(16)、10×10^(16)、50×10^(16) ions/cm^2的条件下注入Cr离子。利用扫描电子显微镜及X-射线衍仪对合金的表面形貌、组织结构及成分进行了分析,通过电化学方法对合金表面离子注入后的耐腐蚀性进行了研究。结果当Cr离子的注入电压为40 k V,注入剂量为5×10^(16)、1×10^(17)、5×10^(17) ions/cm^2时,合金的开路电位分别是-0.585、-0.584、-0.57V(vs.SCE)。当Cr离子的注入剂量为5×10^(17) ions/cm2,注入电压为20、30、40 k V时,合金的开路电位分别是-0.63、-0.61、-0.57 V(vs.SCE)。可以看到,随着Cr离子注入计量和注入电压的增加,合金表面的腐蚀电位正向移动,耐腐蚀性提高。结论 Cr离子注入能够显著提高合金的耐腐蚀性,分析认为主要是由于合金表面生成了一层具有耐腐蚀性能的Cr_2O_3钝化层。此外,由于注入离子的轰击导致表面La(Fe,Si)13相分解生成α-Fe,也提高了合金的电极电位,增强了耐腐蚀性。 展开更多
关键词 LaFe11.6Si1.4合金 形貌分析 电化学方法 离子注入 Cr2O3钝化层 腐蚀机理
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Effects of solidification rate and excessive Fe on phase formation and magnetoclaoric properties of LaFe_(11.6x)Si_(1.4) 被引量:3
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作者 Xiang CHEN Yun-gui CHEN +1 位作者 Yong-bai TANG Ding-quan XIAO 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2017年第9期2015-2021,共7页
The effects of solidification rate and excessive Fe on phase formation and magnetocaloric properties of LaFe11.6xSi1.4(x=1.1,1.2)were investigated by XRD,SEM and VSM measurements.The XRD results show that the amount o... The effects of solidification rate and excessive Fe on phase formation and magnetocaloric properties of LaFe11.6xSi1.4(x=1.1,1.2)were investigated by XRD,SEM and VSM measurements.The XRD results show that the amount of LaFeSi phase in the as-cast melt-spun ribbons prepared by a copper wheel at a speed of10m/s is less than that in the as-cast arc melting buttons with the same x values.The annealed melt-spun ribbons contain smaller amount of La(Fe,Si)13(1:13)phase than the corresponding annealed arc melting buttons.Although the melt-spun sample has finer crystalline grains ofα-Fe,as indicated by SEM analysis,its crystalline size has not reached nano-scale.Therefore,the magnetic exchange-coupling between1:13phase andα-Fe phase has not been observed in melt-spun ribbons.Further,the maximum negative magnetic entropy change(?SMax)and relative cooling power(RCP)of annealed melt-spun ribbons under a field change of0?2T are weaker than those of the corresponding annealed arc melting buttons. 展开更多
关键词 LaFe11.6xSi1.4 alloy solidification rate MICROSTRUCTURE magnetocaloric properties
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BTA/苯甲酸钠对LaFe_(11.6)Si_(1.4)合金的腐蚀抑制(英文) 被引量:1
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作者 张恩耀 陈云贵 +1 位作者 唐永柏 王金伟 《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2011年第5期769-772,共4页
研究LaFe11.6Si1.4合金在苯甲酸钠与苯并三氮唑混合溶液中的腐蚀行为。利用动电位极化曲线与电化学阻抗谱对合金的耐腐蚀性进行表征。结果显示,高浓度的苯并三氮唑和高pH值有利于形成厚的氧化层,进而降低合金表面Fe的溶解。
关键词 LaFe11.6Si1.4合金 腐蚀 电化学测量
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压力对热压法制备LaFe_(11.6)Si_(1.4)H_(1.02)-In复合材料组织与性能的影响(英文) 被引量:4
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作者 庞文凯 陈云贵 +2 位作者 唐永柏 周龄童 郭华强 《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2017年第9期2384-2388,共5页
主动式磁蓄冷器中的制冷材料需要满足优良的机械性能、磁热性能和导热性能。然而,目前大多数磁制冷材料在成形和导热性能方面存在着一些问题。在本研究中,介绍了一种在430 K的温度下,将LaFe_(11.6)Si_(1.4)H_(1.02)和铟粉混合后在不同... 主动式磁蓄冷器中的制冷材料需要满足优良的机械性能、磁热性能和导热性能。然而,目前大多数磁制冷材料在成形和导热性能方面存在着一些问题。在本研究中,介绍了一种在430 K的温度下,将LaFe_(11.6)Si_(1.4)H_(1.02)和铟粉混合后在不同压力下进行压制成形的方法。结果显示,当压制压力超过200 MPa时,复合磁工质的磁热性能将会大幅度降低。在压制压力为100 MPa时,厚度为0.8 mm的片状磁工质在0~2 T的磁场下,达到的最大绝热温变为5.88 K。 展开更多
关键词 磁热效应 热压工艺 LaFe11.6Si1.4H1.02复合材料
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Phase, microstructure, and magnetocaloric effect of the large disc LaFe_(11.6)Si_(1.4) alloy 被引量:2
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作者 陈湘 陈云贵 +1 位作者 肖定全 唐永柏 《Journal of Rare Earths》 SCIE EI CAS CSCD 2015年第2期182-188,共7页
The large disc LaFe11.6Si1.4 alloy, which was prepared by medium-frequency induction furnace, was annealed at 1503 K for different time. The main phases were 1:13 phase in the edge parts of the large discs alloy; the... The large disc LaFe11.6Si1.4 alloy, which was prepared by medium-frequency induction furnace, was annealed at 1503 K for different time. The main phases were 1:13 phase in the edge parts of the large discs alloy; the impurity phases included α-Fe phase, LaFeSi phase, and even very small amount of La5Si3 phase. The amounts of impurity phases reduced with increasing in annealing time. The magnetic properties in the edge parts of the large discs LaFe11.6Si1.4 alloy were investigated. The magnetic susceptibility had an abrupt change at Curie temperature(TC) as the magnetization in M-T curves. The alloys had almost the same TC(191 K), the magnetocaloric effect(MCE) and relative cooling power(RCP) increased with increasing in annealing time. In addition, for the same alloy, the magnetic hysteresis decreased with the increase in temperature. 展开更多
关键词 large disc LaFe11.6Si1.4 alloy magnetocaloric effect high-temperature annealing magnetic susceptibility rare earths
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Corrosion behavior and magnetocaloric effect of FeNi(1J85) coated LaFe_(11.6)Si_(1.4)/Sn composites 被引量:3
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作者 Xi Zhao Ping Fang +3 位作者 Yongbai Tang Yungui Chen Lingtong Zhou Huaqiang Guo 《Journal of Rare Earths》 SCIE EI CAS CSCD 2019年第6期633-637,共5页
The FeNi coated LaFe_(11.6)Si_(1.4)/Sn composites were prepared by hot pressing(HP). The microstructure,corrosion behavior and magnetocaloric effect(MCE) of FeNi coated LaFe_(11.6)Si_(1.4)/Sn composites were investiga... The FeNi coated LaFe_(11.6)Si_(1.4)/Sn composites were prepared by hot pressing(HP). The microstructure,corrosion behavior and magnetocaloric effect(MCE) of FeNi coated LaFe_(11.6)Si_(1.4)/Sn composites were investigated systematically. The results show that the corrosion resistance of FeNi coated LaFe_(11.6)Si_(1.4)Sn composites is better than that of LaFe_(11.6)Si_(1.4)/Sn composites in deionized water. The maximum magnetic entropy change((-△S_M)^(max)) and relative cooling power(RCP) of FeNi coated LaFe_(11.6)Si_(1.4)/Sn composites are 13.30 J/(kg-K) and 146.25 J/kg, respectively, which are larger than that((-△S_M)^(max), 10.65 J/(kg·K) and RCP, 106.53 J/kg) of LaFe_(11.6)Si_(1.4)/Sn composites in a low magnetic field change of 2 T. FeNi coated LaFe_(11.6)Si_(1.4)/Sn composites possess a more negative slope. The improvement of magnetic properties is due to high permeability FeNi permalloy(1 J85) which improves the itinerant-electron metamagnetic(IEM) transition. So, the method of coating FeNi can provide a new idea for enhancing the corrosion resistance and magnetocaloric effect of La(Fe_xSi_(1-x))_(13)-based materials. 展开更多
关键词 FeNi COATED LaFe11.6Si1.4/Sn COMPOSITES Hot PRESSING Corrosion resistance Magnetic entropy change Relative cooling power Itinerant-electron metamagnetic transition
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不同热处理温度下LaFe_(11.6)Si_(1.4)合金的相和组织结构
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作者 赵芸 杨美菱 +1 位作者 吴晓维 陈湘 《内江师范学院学报》 2015年第2期14-18,共5页
研究了经不同温度热处理后的LaFe11.6Si1.4合金的相和组织结构,并探究其相变机理.铸态LaFe11.6Si1.4合金在高温热处理时经历包析反应和包晶反应.在低于1423K左右时,铸态LaFe11.6Si1.4合金发生Fe(Si)+LaFeSi→1∶13固固包析反应;在142... 研究了经不同温度热处理后的LaFe11.6Si1.4合金的相和组织结构,并探究其相变机理.铸态LaFe11.6Si1.4合金在高温热处理时经历包析反应和包晶反应.在低于1423K左右时,铸态LaFe11.6Si1.4合金发生Fe(Si)+LaFeSi→1∶13固固包析反应;在1423~1593K,发生Fe(Si)+LaFeSi→1∶13固液包晶反应;在1593~1739K,已形成的1∶13相熔化,合金处于固相Fe和液相两相区.基于相变热力学及动力学的因素,铸态合金在1523K附近具有最大的包晶反应驱动力,LaFe11.6Si1.4合金热处理5小时后,合金1∶13相含量最高. 展开更多
关键词 LaFe11.6Si1.4合金 1∶13相 相变 形成热
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Effect of copper ion implantation on corrosion morphology and corrosion behavior of LaFe_(11.6)Si_(1.4) alloy 被引量:2
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作者 张恩耀 陈云贵 唐永柏 《Journal of Rare Earths》 SCIE EI CAS CSCD 2012年第3期269-273,共5页
The morphology analysis and electrochemical method were used to study the corrosion behavior of LaFe11.6Si1.4 alloy of copper ion implantation. X-ray photoelectron spectroscopy (XPS) and atomic emission spectroscopy... The morphology analysis and electrochemical method were used to study the corrosion behavior of LaFe11.6Si1.4 alloy of copper ion implantation. X-ray photoelectron spectroscopy (XPS) and atomic emission spectroscopy (AES) research results showed that a 15 nm-thick oxide film was formed on the surface of sample, and the copper content reached the highest value at 60 nm with a normal distribution. Immersion experiments indicated that the corrosion happened in the copper-poor zone firstly and a galvanic connection was formed among different zones on the surface due to the inhomogeneous distribution of copper. Electrochemical experiment results showed that the corrosion was serious when the ion acceleration voltage increased, and the high acceleration could reduce the thermodynamic performance of corrosion of LaFe11.6Si1.4 alloy. 展开更多
关键词 LaFe11.6Si1.4 alloy ion implantation corrosion morphology rare earths
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