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温度对B_(4)C涂层氧化防护性能和防护机制的影响
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作者 胡凯飞 王佩佩 +4 位作者 孙万昌 侯兆琪 易大伟 罗欢 任宣儒 《表面技术》 EI CAS CSCD 北大核心 2024年第4期89-97,共9页
目的研究温度对B_(4)C涂层氧化防护性能和防护机制的影响,得出B_(4)C涂层最佳氧化防护温度范围,以及B_(4)C涂层在不同温度的氧化防护机制演变。方法以石墨为基体,采用放电等离子烧结法在石墨表面制备B_(4)C涂层,通过不同恒温氧化试验(80... 目的研究温度对B_(4)C涂层氧化防护性能和防护机制的影响,得出B_(4)C涂层最佳氧化防护温度范围,以及B_(4)C涂层在不同温度的氧化防护机制演变。方法以石墨为基体,采用放电等离子烧结法在石墨表面制备B_(4)C涂层,通过不同恒温氧化试验(800、1000、1200、1400℃)和室温至1400℃宽温域动态氧化试验来测试其氧化防护性能,并通过X射线衍射(XRD)、扫描电子显微镜(SEM)和能谱仪(EDS)对B_(4)C涂层石墨试样氧化前后的物相组成、微观形貌、氧扩散等进行分析。结果B_(4)C涂层氧化后可生成B2O3玻璃膜,在800、1000、1200、1400℃恒温氧化的防护效率分别为98.43%、98.61%、94.4%和92.8%,在室温至1400℃宽温域动态氧化的防护效率为93.1%。B_(4)C涂层在800℃以下主要依赖结构阻氧,800至900℃由结构阻氧向惰化阻氧转变,900℃以上主要依赖惰化阻氧。1100℃以上,随温度升高B2O3玻璃膜的挥发加剧,B_(4)C涂层惰化阻氧能力减弱。结论B_(4)C涂层的氧化防护效率随温度上升先增大后减小,结构阻氧机制逐渐降低,惰化阻氧机制先升高后降低。B_(4)C涂层在800至1100℃具有良好的氧化防护性能。 展开更多
关键词 涂层 石墨 碳化硼(b_(4)c) 玻璃膜 氧化防护 阻氧机制
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Ballistic behavior of boron carbide reinforced AA7075 aluminium alloy using friction stir processing-An experimental study and analytical approach 被引量:1
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作者 I.SUDHAKAR G.MADHUSUDHAN REDDY K.SRINIVASA RAO 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2016年第1期25-31,共7页
High strength-to-weight ratio of non-ferrous alloys, such as aluminium, magnesium and titanium alloys, are considered to be possible replacement of widely accepted steels in transportation and automobile sectors. Amon... High strength-to-weight ratio of non-ferrous alloys, such as aluminium, magnesium and titanium alloys, are considered to be possible replacement of widely accepted steels in transportation and automobile sectors. Among these alloys, magnesium is self explosive and titanium is costlier, and aluminium is most likely to replace steels. Application of aluminium or its alloys is also thought of as an appropriate replacement in defence field, especially to enhance the easiness in mobility of combat vehicles while maintaining the same standard as that of conventional armour grade steels. Hence most of the investigations have been confined to aluminium or its alloys as base material and open an era of developing the newer composite materials to address the major limitation, i.e. tribological properties. The surface composites can be fabricated by incorporating the ceramic carbides like silicon carbide, carbides of transition metals and oxides of aluminium using surface modification techniques, such as high energy laser melt treatment, high energy electron beam irradiation and thermal spray process which are based on fusion route. These techniques yield the fusion related problems, such as interfacial reaction, pin holes, shrinkage cavities or voids and other casting related defects, and pave the way to need of an efficient technique which must be based on solid state. Recently developed friction stir processing technique was used in the present investigation for surface modification of AA7075 aluminum alloy, which is an alternative to steels. In the present investigation, 160 μm sized boron carbide powder was procured and was reduced to 60 μm and 30 μm using high energy ball mill. Subsequently these powders were used to fabricate the surface composites using friction stir processing.Ballistic performance testing as per the military standard(JIS.0108.01) was carried out. In the present work, an analytical method of predicting the ballistic behavior of surface composites was developed. This method was based on energy balance, i.e., the initial energy of impact is same as that of energy absorbed by multi layers. An attempt also has been made to validate the analytical results with the experimental findings. Variation between the analytical and experimental results may be accounted due to the assumptions considering such as isotropic behavior of target and shearing area of contact as cylindrical instead of conical interface As the analytical model yields the ballistic performance in the closer proximity of experimentally obtained, it can be considered to be an approximation to evaluate the ballistic performance of targets. 展开更多
关键词 AA7075 aluminium alloy Friction stir processing(FSP) Surface metal matrix composite(SMMc) boron carbide(b4c) ballistic performance TARGET
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B_(4)C(0001)及Al-B_(4)C(0001)表面的结构和电子性质
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作者 赵玉文 张航舶 朱岩 《河北科技师范学院学报》 CAS 2021年第3期36-41,共6页
为了从微观的角度揭示Al与B_(4)C(0001)面的相互作用情况,确定Al原子在B_(4)C(0001)表面吸附这一过程的反应机理和Al原子在B_(4)C表面的结构信息,采用密度泛函理论,通过计算表面自由能、吸附能和电子结构性能,推导出在不同的化学势下C... 为了从微观的角度揭示Al与B_(4)C(0001)面的相互作用情况,确定Al原子在B_(4)C(0001)表面吸附这一过程的反应机理和Al原子在B_(4)C表面的结构信息,采用密度泛函理论,通过计算表面自由能、吸附能和电子结构性能,推导出在不同的化学势下C原子暴露的B_(4)C(0001)表面均为最稳定的表面结构;给出了Al原子在C-B_(4)C(0001)表面的最佳吸附位置。 展开更多
关键词 碳化硼 b_(4)c(0001)表面 表面结构 电子性质 第一性原理
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SiC-BN及Si-B-C-N复合陶瓷的研究进展 被引量:2
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作者 杨治华 贾德昌 周玉 《机械工程材料》 CAS CSCD 北大核心 2005年第3期7-10,共4页
从制备工艺、组织结构及其性能的角度综述了晶态SiC-BN及非晶Si-B-C-N陶瓷材料的研究进展情况,并对碳化硅-氮化硼及非晶Si-B-C-N陶瓷材料的研究方向提出一些见解。
关键词 碳化硅 氮化硼 Si-b-c-N 复合陶瓷
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Machine learning and a computational fluid dynamic approach to estimate phase composition of chemical vapor deposition boron carbide 被引量:1
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作者 Qingfeng ZENG Yong GAO +2 位作者 Kang GUAN Jiantao LIU Zhiqiang FENG 《Journal of Advanced Ceramics》 SCIE CAS CSCD 2021年第3期537-550,共14页
Chemical vapor deposition is an important method for the preparation of boron carbide.Knowledge of the correlation between the phase composition of the deposit and the deposition conditions (temperature,inlet gas comp... Chemical vapor deposition is an important method for the preparation of boron carbide.Knowledge of the correlation between the phase composition of the deposit and the deposition conditions (temperature,inlet gas composition,total pressure,reactor configuration,and total flow rate) has not been completely determined.In this work,a novel approach to identify the kinetic mechanisms for the deposit composition is presented.Machine leaning (ML) and computational fluid dynamic (CFD) techniques are utilized to identify core factors that influence the deposit composition.It has been shown that ML,combined with CFD,can reduce the prediction error from about 25% to 7%,compared with the ML approach alone.The sensitivity coefficient study shows that BHCl_(2 )and BCl_(3) produce the most boron atoms,while C_(2)H_(4) and CH_(4) are the main sources of carbon atoms.The new approach can accurately predict the deposited boron-carbon ratio and provide a new design solution for other multi-element systems. 展开更多
关键词 machine learning(ML) computational fluid dynamic(cFD) chemical vapor deposition boron carbide b/c ratio kinetic mechanisms
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Thermal conductivity of boron carbide under fast neutron irradiation 被引量:1
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作者 Zhixue QU Chuanjin YU +2 位作者 Yitong WE Xiping SU Aibing DU 《Journal of Advanced Ceramics》 SCIE EI CAS CSCD 2022年第3期482-494,共13页
Due to the complex products and irradiation-induced defects, it is hard to understand and even predict the thermal conductivity variation of materials under fast neutron irradiation, such as the abrupt degradation of ... Due to the complex products and irradiation-induced defects, it is hard to understand and even predict the thermal conductivity variation of materials under fast neutron irradiation, such as the abrupt degradation of thermal conductivity of boron carbide (B_(4)C) at the very beginning of the irradiation process. In this work, the contributions of various irradiation-induced defects in B_(4)C primarily consisting of the substitutional defects, Frenkel defect pairs, and helium bubbles were re-evaluated separately and quantitatively in terms of the phonon scattering theory. A theoretical model with an overall consideration of the contributions of all these irradiation-induced defects was proposed without any adjustable parameters, and validated to predict the thermal conductivity variation under irradiation based on the experimental data of the unirradiated, irradiated, and annealed B_(4)C samples. The predicted thermal conductivities by this model show a good agreement with the experimental data after irradiation. The calculation results and theoretical analysis in light of the experimental data demonstrate that the substitutional defects of boron atoms by lithium atoms, and the Frenkel defect pairs due to the collisions with the fast neutrons, rather than the helium bubbles with strain fields surrounding them, play determining roles in the abrupt degradation of thermal conductivity with burnup. 展开更多
关键词 boron carbide(b_(4)c) thermal conductivity fast neutron irradiation
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淬火温度对Fe-Cr-B-C合金涂层组织及硬度的影响 被引量:1
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作者 吴宪吉 宋元元 +3 位作者 杨志荣 闫德胜 姜海昌 胡小锋 《金属热处理》 CAS CSCD 北大核心 2022年第10期224-227,共4页
利用等离子堆焊工艺制备了Fe-Cr-B-C合金涂层,并对其进行了不同温度(850、950和1050℃)的淬火处理。利用OM、SEM、XRD研究了合金涂层不同温度淬火后的显微组织,利用显微硬度计对合金涂层的硬度进行了测试。结果表明:堆焊态Fe-Cr-B-C合... 利用等离子堆焊工艺制备了Fe-Cr-B-C合金涂层,并对其进行了不同温度(850、950和1050℃)的淬火处理。利用OM、SEM、XRD研究了合金涂层不同温度淬火后的显微组织,利用显微硬度计对合金涂层的硬度进行了测试。结果表明:堆焊态Fe-Cr-B-C合金涂层的显微组织由树枝晶基体和网状硼碳化物组成;经1050℃淬火处理的Fe-Cr-B-C合金涂层网状硼碳化物回溶、球化,硬度达64.3 HRC,综合性能最优。 展开更多
关键词 Fe-cr-b-c合金涂层 淬火 显微组织 硼碳化物
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热压烧结碳化硼陶瓷的相成分控制
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作者 魏一统 瞿志学 +1 位作者 吉雅柔 冯航航 《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2022年第4期1385-1390,共6页
碳化硼陶瓷具有极高的硬度和良好的热传导性能,但这些性能极大地依赖于其化合硼碳比。当化合硼碳比偏离4(B_(4)C)时,其性能会有大幅下降。本研究以几种商业碳化硼粉体为研究对象,通过对其X射线衍射谱图的细致分析,从重叠峰中分离出富硼... 碳化硼陶瓷具有极高的硬度和良好的热传导性能,但这些性能极大地依赖于其化合硼碳比。当化合硼碳比偏离4(B_(4)C)时,其性能会有大幅下降。本研究以几种商业碳化硼粉体为研究对象,通过对其X射线衍射谱图的细致分析,从重叠峰中分离出富硼碳化硼的衍射峰并进行标定。在此基础上,研究了不同烧结工艺下碳化硼陶瓷的物相组成及富硼相的转变过程。研究结果表明,商业碳化硼粉体通常为B_(4)C与B_(4)C等富硼相及其他杂相的混合相。XRD及拉曼光谱结果显示,在热压烧结过程中,粉体中的富硼相会与游离碳反应生成B_(4)C,采用商业碳化硼粉在2100℃、40 MPa条件下热压60 min制备得到了纯相的B_(4)C陶瓷。 展开更多
关键词 碳化硼 热压烧结 富硼碳化硼 硼碳比
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