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B4C/6061Al中子吸收材料FSW接头的纳米压痕和拉伸性能研究
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太原理工大学,太原理工大学

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TG77

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山西省科技攻关项目,太原理工大学研究生科技创新项目


Nanoindentation and tensile properties of B4C/6061Al neutron absorbers
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Taiyuan University of Technology,Taiyuan University of Technology

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    摘要:

    高B4C含量的Al基复合材料由于其优良的中子吸收性能被应用于核电乏燃料池的贮存格架,采用传统熔化焊方法由于凝固引起的结构变化和产生化学反应显著降低了焊接接头的性能。本文采用粉末冶金的方法制备了30vol.?C/6061Al中子吸收材料板材。通过搅拌摩擦焊(FSW)的方法对4 mm厚30vol.% B4C/6061Al中子吸收材料板材进行对接焊接,获得了表面成形良好的焊缝。采用纳米压痕法对FSW焊接接头的焊核(WZ)、热力影响区(TMAZ)、热影响区(HAZ)和母材(BM)四个区域中的微区力学性能进行研究,对焊接接头的拉伸性能进行了测试。运用扫描电镜对压痕的微观形貌和拉伸断口进行了表征。结果表明:在同一区域中,随着距颗粒/基体界面距离d(d<11 μm)的增加,微区的硬度和弹性模量总体呈现减小的趋势。在微区均值化后,不同区域的硬度和弹性模量由高到低为WZ、TMAZ、BM和HAZ,压入功恢复率在WZ、TMAZ、HAZ和BM依次为28.10%、25.14%、31.76%和29.30%。在焊接接头不同区域出现性能差别的原因是由于在FSW过程中不同区域的塑性变形程度和热循环作用不同导致的,FSW接头强度可达母材的85.7%,断裂部位在HAZ区。

    Abstract:

    Aluminum with a high B4C content are valuable as a neutron absorber for spent nuclear fule pool storage rack,welding of B4C/6061Al using conventional fusion methods degrades the joint properties due to solidification induced structure and chemical reactions. B4C/6061Al neutron absorbers were fabricated by powder metallurgy with the B4C volume fractions of 0 ~ 30%. Plates of 4 mm thickness and 30% B4C/6061Al neutron absorbers was prepared and successfully butt joined using friction stir welding (FSW). The weld displays the smooth appearance. The micro-mechanical properties in welded joints of FSW weld nugget (WZ), Thermo-mechanically affected zone (TMAZ), heat affected zone (HAZ) and base metal (BM) were investigated by nanoindentation method, and the tensile tests were carried out.Furthermore,the microstructure of indentation and fracture surface were characterized by scanning electron microscope. The results showed that in the same region, with the distance(d<11 μm) of the interface between particle and matrix increased, the micro-area of hardness and elastic modulus decreased overall. After the micro-area equalization, different regions of hardness and elastic modulus from high to low were WZ, TMAZ, BM and HAZ. The pressure into the power recovery rate in WZ, TMAZ, HAZ and BM were 28.10%, 25.14%, 31.76% and 29.30%. The performance difference in the welding joint of different areas was caused by the different degree of plastic deformation and the thermal cycle in different area. A joint efficiency of 85.7% was realized under the experimental conditions, and the welded joint failed at HAZ.

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陈洪胜,王文先. B4C/6061Al中子吸收材料FSW接头的纳米压痕和拉伸性能研究[J].稀有金属材料与工程,2017,46(2):392~398.[chenhongsheng, wangwenxian. Nanoindentation and tensile properties of B4C/6061Al neutron absorbers[J]. Rare Metal Materials and Engineering,2017,46(2):392~398.]
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  • 收稿日期:2014-10-27
  • 最后修改日期:2015-05-04
  • 录用日期:2015-06-11
  • 在线发布日期: 2017-04-10
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