中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2015年
8期
2524-2532
,共9页
陈雨%丁桦%李继忠%赵敬伟%付明杰%李晓华
陳雨%丁樺%李繼忠%趙敬偉%付明傑%李曉華
진우%정화%리계충%조경위%부명걸%리효화
铝合金%搅拌摩擦焊接%热处理%热输入%硬度
鋁閤金%攪拌摩抆銲接%熱處理%熱輸入%硬度
려합금%교반마찰한접%열처리%열수입%경도
aluminum alloy%friction stir welding%heat treatment%heat input%hardness
在不同焊接热输入条件下对2024-T3铝合金进行搅拌摩擦焊接,并利用透射电镜、差热分析和维氏硬度测试对焊核区的组织和硬度进行分析检测。研究表明,焊核区的硬度受到焊接热输入的影响。在高焊接热输入条件下,焊接速度的提升有利于提升焊核区硬度。而在低焊接热输入条件下,焊核区硬度随着旋转速度的增加而增加。焊后热处理导致组织过时效,焊核区硬度降低。相比于其他参数下获得的焊核区,旋转速度为500 r/min,焊接速度为100 mm/min条件下获得的焊核区拥有较高的抗过时效性能,硬度下降仅为3.8%,而其他焊核区的硬度下降超过10%。焊核区硬度主要受到强化相形态的影响。
在不同銲接熱輸入條件下對2024-T3鋁閤金進行攪拌摩抆銲接,併利用透射電鏡、差熱分析和維氏硬度測試對銲覈區的組織和硬度進行分析檢測。研究錶明,銲覈區的硬度受到銲接熱輸入的影響。在高銲接熱輸入條件下,銲接速度的提升有利于提升銲覈區硬度。而在低銲接熱輸入條件下,銲覈區硬度隨著鏇轉速度的增加而增加。銲後熱處理導緻組織過時效,銲覈區硬度降低。相比于其他參數下穫得的銲覈區,鏇轉速度為500 r/min,銲接速度為100 mm/min條件下穫得的銲覈區擁有較高的抗過時效性能,硬度下降僅為3.8%,而其他銲覈區的硬度下降超過10%。銲覈區硬度主要受到彊化相形態的影響。
재불동한접열수입조건하대2024-T3려합금진행교반마찰한접,병이용투사전경、차열분석화유씨경도측시대한핵구적조직화경도진행분석검측。연구표명,한핵구적경도수도한접열수입적영향。재고한접열수입조건하,한접속도적제승유리우제승한핵구경도。이재저한접열수입조건하,한핵구경도수착선전속도적증가이증가。한후열처리도치조직과시효,한핵구경도강저。상비우기타삼수하획득적한핵구,선전속도위500 r/min,한접속도위100 mm/min조건하획득적한핵구옹유교고적항과시효성능,경도하강부위3.8%,이기타한핵구적경도하강초과10%。한핵구경도주요수도강화상형태적영향。
The microstructure and hardness of the stir zone (SZ) with different welding heat inputs were investigated for friction stir-welded 2024-T3 aluminum by transmission electron microscopy, differential scanning calorimeter and Vickers micro-hardness test. The results show that welding heat input has a significant effect on the hardness of the SZ. Under high welding heat input condition, a higher welding speed is beneficial for improving the hardness of the SZ. However, when the welding heat input is low, the hardness of the SZ elevates with increasing the rotation speed. The hardness of the SZ decreases after post-welded heat treatment due to overaging. The joints welded at 500 r/min and 100 mm/min show a high resistance to overaging. The reduction of hardness in the SZ is only 3.8%, while in other joints, the reduction is more than 10%. The morphology of strengthening precipitates plays important roles for the improvement of hardness.
