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7A52铝合金MIG焊接头的X射线衍射分析

X-ray diffraction analysis of 7A52 aluminum alloy MIG welded joint

  • 摘要: 采用微合金化Al-Mg-Mn-Sc-Zr合金焊丝按MIG方法焊接7A52铝合金板材。采用高功率X射线衍射仪对7A52铝合金焊接接头不同部位进行了精确的X射线衍射分析。结果表明,在焊接接头中存在四个本质的热扩散区域。离焊缝中心线0~4 mm范围为焊缝区,焊缝中心为铸态组织;4~10 mm区域为半熔化区,在自然时效过程中有较多微小的强化相η'析出;10~16 mm范围为淬火区,原有沉淀相部分地回溶到基体并不能在自然时效过程中重新析出;最远端为软化区,基材中原有强化相η在焊接热输入的影响下形成了粗大的T相,导致强度降低。焊接热输入对不同区域的影响大小不同,导致不同区域的固溶程度和晶格畸变量不同,从而使微观和宏观残余应力都略有差异。

     

    Abstract: 7A52 alloy plate was welded by means of MIG (metal inert-gas)welding using Al-Mg-Mn-Sc-Zr micro-alloyed wire.The specimens cut down at different regions of the welded joint were diffracted accurately by high-power X-ray diffractometer.The results showed that there are 4 different heat diffusion zones in the welded joint, these zones had themselves substantive characteristics.The first was the weld, and it was the α-Al matrix as cast structure distanced the weld centre line about 0-4 mm.The second was the semi-melted zone, and it distanced the weld centre line about 4-10 mm.The nanocrystalline η'(MgZn2)phase and Al6Mn re-precipitated in nature ageing process when it was laid at room temperature.The region distanced the weld centre 10-16 mm was the low temperature solution zone, and the strengthening phases redissolved into α-Al matrix partly at the weld temperature but could not re-precipitate at room temperature.The fourth was a soften zone. In this zone, the strengthening phase growth and formed the T phase.It was the reason of strength decreasing.Because the effects of welding heat on zones were different, it lead to different solid sol-ubility, distortion of lattice, the micro-strains and residual stress.

     

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