| 热轧工艺对20%B4C/Al复合材料显微组织及缺陷的影响 |
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| 引用本文: | 靳涛,王伟,庞晓轩,鲜亚疆,晏朝晖,张国峰.热轧工艺对20%B4C/Al复合材料显微组织及缺陷的影响[J].材料导报,2017,31(Z1):102-104. |
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| 作者姓名: | 靳涛 王伟 庞晓轩 鲜亚疆 晏朝晖 张国峰 |
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| 作者单位: | 中国工程物理研究院材料研究所,江油 621907,中国工程物理研究院材料研究所,江油 621907,中国工程物理研究院材料研究所,江油 621907,中国工程物理研究院材料研究所,江油 621907,中国工程物理研究院材料研究所,江油 621907,中国工程物理研究院材料研究所,江油 621907 |
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| 基金项目: | 靳涛:男,1977年生,主要研究方向为粉末冶金材料 E-mail:415019108@qq.com 王伟:通讯作者,女,1986年生,硕士,主要从事复合材料及粉末冶金方面的研究 E-mail:13628080837@163.com |
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| 摘 要: | 采用热等静压烧结与热轧相结合的方法制备了20%B_4C/Al(质量分数,下同)复合材料,采用排水法及SEM、EDS等手段研究了热轧工艺(道次变形量、总变形量)对复合材料缺陷及显微组织的影响。研究结果表明,热等静压制备的B_4C/Al复合材料坯体密度可达2.66g/cm3(相对密度100%),B_4C颗粒分布均匀且与Al界面处结合紧密;B_4C/Al复合材料轧制道次变形量应控制在10%以内,进一步增加道次变形量复合材料内出现宏观裂纹。复合材料经热轧后,B_4C颗粒仍分布较为均匀,且与Al基体结合紧密,复合材料内部未观察到明显的显微缺陷。
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| 关 键 词: | B4C/Al复合材料 热等静压 热轧 显微组织 |
Effect of Hot Rolling Process on the Microstructures and Defects of 20wt% B4C/Al Composites |
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| JIN Tao,WANG Wei,PANG Xiaoxuan,XIAN Yajiang,YAN Zhaohui and ZHANG Guofeng.Effect of Hot Rolling Process on the Microstructures and Defects of 20wt% B4C/Al Composites[J].Materials Review,2017,31(Z1):102-104. |
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| Authors: | JIN Tao WANG Wei PANG Xiaoxuan XIAN Yajiang YAN Zhaohui and ZHANG Guofeng |
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| Affiliation: | Institute of Materials Science, China Academy of Engineering Physics, Jiangyou 621907,Institute of Materials Science, China Academy of Engineering Physics, Jiangyou 621907,Institute of Materials Science, China Academy of Engineering Physics, Jiangyou 621907,Institute of Materials Science, China Academy of Engineering Physics, Jiangyou 621907,Institute of Materials Science, China Academy of Engineering Physics, Jiangyou 621907 and Institute of Materials Science, China Academy of Engineering Physics, Jiangyou 621907 |
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| Abstract: | 20wt%B4C/Al composites were prepared by hot isostatic pressing in order to study the hot rolling process. The defects and microstructure of the composite were examined before and after hot rolling process. The hot isostatic pressed samples show fully dense, homogenous distributions of B4C particles, and firm boundaries between B4C particles and Al matrix. The hot rolling experiment indicated that one pass reduction should be less that 10% in order to avoid crack of the composite. After hot rolling, the microstructure of the composite also show homogenous distributions of B4C particles, and firm boundaries between B4C particles and Al matrix. No obvious microscopic defects can be observed in the composite. |
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| Keywords: | B4C/Al composites HIP hot rolling microstructure |
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