Joint design influence on hybrid laser arc welding of maraging steel

IF 2.4 4区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING Welding in the World Pub Date : 2024-03-14 DOI:10.1007/s40194-024-01751-3
L. Subashini, K. V. Phani Prabhakar, Swati Ghosh
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Abstract

Hybrid laser arc welding (HLAW) was performed in a single-pass on M250 maraging steel plates of 10-mm thickness with three modified joint designs. A Y-groove joint preparation with included angles (IA) of 16°, 24°, and 30° and root face of 2.5 mm was used. Welding was performed using M250 W2 filler wire. The heat input for welding increased as the IA increased. The composition of weld fusion zone affected the reverted austenite (RA) volume fraction formed on aging. With an increase in base metal melting, the fusion zone was enriched with solute elements such as Ni, Mo, and Ti, ultimately increasing RA after aging. The fusion zone hardness of joints 1 and 2 was in the range 500–550 HV. The fusion zone of joint 3 exhibited a lower hardness of 475–525 HV due to the increased heat input involved in making the joint. When the transverse tensile strength of all welds was comparable to that of the parent metal, a significant reduction in KIc fracture toughness of fusion zone (FZ) was observed as the RA increased. KIc fracture toughness values were in the order, base > joint 1 > joint 2 > joint 3. The space between neighboring RA pools was smaller in the laser fusion zone (LFZ) owing to its fine cell size compared to the arc fusion zone (AFZ), and the welds failed by connecting series of cavities that only arise in the RA. LFZ appears to play an important role in determining weld toughness of HLAW welds.

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接头设计对马氏体时效钢混合激光弧焊的影响
混合激光弧焊(HLAW)在厚度为 10 毫米的 M250 马氏体时效钢板上进行了单道焊接,并采用了三种改进的接头设计。采用的是 Y 型沟槽接头制备方法,其包含角 (IA) 为 16°、24° 和 30°,根面为 2.5 mm。使用 M250 W2 焊丝进行焊接。随着内含角(IA)的增加,焊接输入的热量也随之增加。焊接熔合区的成分影响时效形成的回复奥氏体(RA)体积分数。随着母材熔化量的增加,熔合区富含镍、钼和钛等溶质元素,最终增加了时效后的还原奥氏体体积分数。接合点 1 和 2 的熔合区硬度在 500-550 HV 之间。接头 3 的熔合区硬度较低,为 475-525 HV,原因是制作接头时输入的热量增加。当所有焊缝的横向拉伸强度与母体金属的横向拉伸强度相当时,随着 RA 的增加,熔合区 (FZ) 的 KIc 断裂韧度显著降低。KIc 断裂韧度值依次为:基底> 接头 1 > 接头 2 > 接头 3。与电弧熔合区(AFZ)相比,激光熔合区(LFZ)的熔池尺寸较小,因此相邻 RA 熔池之间的空间较小,焊缝通过连接一系列仅在 RA 中产生的空腔而失效。LFZ 似乎在决定 HLAW 焊缝的焊接韧性方面起着重要作用。
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来源期刊
Welding in the World
Welding in the World METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
4.20
自引率
14.30%
发文量
181
审稿时长
6-12 weeks
期刊介绍: The journal Welding in the World publishes authoritative papers on every aspect of materials joining, including welding, brazing, soldering, cutting, thermal spraying and allied joining and fabrication techniques.
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