The solidification and in-service transformation behaviour of type 316 and 347 welds fabricated with type 321 plate

Materials Science and Engineering Pub Date : 1988-04-01 DOI:10.1016/0025-5416(88)90259-5

B.A. Senior

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引用次数: 12

Abstract

Characterization of the microstructure of AISI type 316 (containing molybdenum) and 347 (containing niobium) stainless welds fabricated with type 321 plate (containing titanium) material has been performed, to assess the effects of using a non-matching filler metal to weld this type of austenitic plate. Such an assessment is essential if the long-term properties of these types of weldment are to be predicted confidently. The solidification mode was generally in close agreement with previously published data, although dilution of the filler material with plate resulted in one exception to the anticipated result. Precipitation was characterized in the as-received (type 347 weld only), post-weld heat-treated and service-aged material, and compared with the predictions of thermodynamic data where these are available. Agreement with such predictions was generally good, although kinetic constraints and the formation of a previously unreported Laves-type (Ti, Cr)₂Nb phase meant that the precipitation sequence was complex.

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用321型钢板焊接316型和347型焊缝的凝固和在役转变行为

对321型钢板(含钛)材料制备的AISI型316(含钼)和347(含铌)不锈钢焊缝的显微组织进行了表征，以评估使用不匹配的填充金属焊接这类奥氏体板的效果。如果要自信地预测这些类型的焊件的长期性能，这样的评估是必不可少的。凝固模式通常与先前公布的数据密切一致，尽管填充材料与板材的稀释导致一个例外的预期结果。在收到的(仅347型焊接)、焊后热处理和使用时效材料中都有析出的特征，并与现有热力学数据的预测结果进行了比较。尽管动力学约束和先前未报道的laves型(Ti, Cr)2Nb相的形成意味着沉淀序列是复杂的，但这些预测总体上是一致的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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