Complex of properties of 2219 alloy weld joint in T62 state under modeling operating conditions

Pub Date : 2022-04-29 DOI:10.15407/knit2022.02.014

L. Nyrkova, T. Labur, E. I. Shevtsov, O. Nazarenko, A. Dorofeev, S. Osadchuk, M. Yavorska, A. Poklyatsky, V. Fedorchuk

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Abstract

A complex of properties of aluminium alloy 2219 welded joint, made by single-pass welding with a non-fusible electrode along and across the rolled product, and heat-treated to the state T62, in liquid amyl and its vapors at a temperature of 50 °C for 45 days was investigated. Characteristics of plasticity and strength of 2219 alloy welded joints are as follows: in the longitudinal (D) direction – yield strength of the welded joint is (301–317) MPa, of the base metal (295—297) MPa, strength limit of the welded joint (409–415) MPa, of the base metal (422–425) MPa, elongation is (4.0–5.8)% and (17.6–19.1)%, respectively; in the transverse (P) direction – the yield strength of the welded joint is (309–331) MPa, of the base metal (304–307) MPa, the yield strength of the welded joint (392–414) MPa, of the base metal (428–433) MPa, elongation is (2.1–3.3)% and (12.6–15.0)%, respectively. The strength coefficient of welded joints in the longitudinal direction is 0.96, in the transverse – 0.94. Welded joints in the above environment are resistant to corrosion cracking and intergranular corrosion, resistance against exfoliating corrosion is evaluated by grade 2. Resistance of 2219 alloy in T62 state in amyl corresponds to the resistance group «stable», in amyl vapors – the group “highly resistant”. After aging in amyl and amyl vapors, the strength grades of the base metal samples and welded joints in both directions are almost unchanged, the plasticity parameters change ambiguously: the yield strength of the base metal increases by ~ (5–6)%, of welded joints decreases by ~ (6–7)%, the relative elongation of the base metal is reduced by ~ (5–16)%, of welded joints by about ~ 20 %. Independently of the direction of welding relative to metal’s rolling, samples’ fractures are mostly viscous. After the exposing in amyl, the coefficient of the strength of welded joints in the longitudinal and transverse directions is the same and equal to 0.91, after the influence of amyl vapors, it is 0.95 in the longitudinal direction and 0.96 in the transverse direction.

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模拟工况下T62状态下2219合金焊接接头的综合性能

研究了2219铝合金焊接接头的复杂性能，该焊接接头采用不熔化电极沿轧制产品进行单程焊接，并在50°C的温度下在液态戊基及其蒸汽中热处理至T62状态，持续45天。2219合金焊接接头的塑性和强度特征如下：在纵向（D）方向上，焊接接头的屈服强度为（301–317）MPa，母材的屈服强度（295–297）MPa，焊接接头强度极限（409–415）MPa，基体的强度极限（422–425）MPa，伸长率分别为（4.0–5.8）%和（17.6–19.1）%；在横向（P）方向上，焊接接头的屈服强度为（309–331）MPa，母材的屈服强度（304–307）MPa，焊接接头屈服强度（392–414）MPa，基体金属屈服强度（428–433）MPa，伸长率分别为（2.1–3.3）%和（12.6–15.0）%。焊接接头的纵向强度系数为0.96，横向强度系数为-0.94。上述环境下的焊接接头具有耐腐蚀开裂和晶间腐蚀的性能，抗剥落腐蚀性能评定为2级。在T62状态下，2219合金在戊基中的电阻对应于在戊基蒸汽中的“稳定”电阻组——“高电阻”组。在戊基和戊基蒸汽中老化后，母材样品和焊接接头在两个方向上的强度等级几乎没有变化，塑性参数变化不明确：母材的屈服强度增加了~（5–6）%，焊接接头的屈服强度降低了~（6–7）%，母材的相对伸长率降低了~。与焊接相对于金属轧制的方向无关，样品的断裂大多是粘性的。暴露在戊基中后，焊接接头在纵向和横向上的强度系数相同，等于0.91，在戊基蒸汽的影响下，在纵向上为0.95，在横向上为0.96。

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