Master Curve Fracture Toughness Characterization of Eurofer97 Using Miniature Multi-Notch Bend Bar Specimens for Fusion Applications

Volume 1A: Codes and Standards Pub Date : 2018-07-15 DOI:10.1115/PVP2018-85065

X. Chen, M. Sokolov, Y. Katoh, M. Rieth, L. Clowers

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引用次数: 4

Abstract

Eurofer97 is one of leading candidates of reduced activation ferritic martensitic (RAFM) steels for first wall structural materials of early demonstration fusion power plants. During fusion plant operation, high neutron irradiation damage on first wall materials can cause irradiation embrittlement and reduce the fracture toughness of RAFM steels. Therefore, it is critical to select proper testing techniques to characterize the fracture toughness of RAFM steels with high fidelity. In this manuscript, we present the feasibility study of using pre-cracked miniature multi-notch bend bar specimens (M4CVN) with a dimension of 45mm (length) × 3.3mm (width) × 1.65mm (thickness) to characterize the transition fracture toughness of Eurofer97 steel based on the ASTM E1921 Master Curve method. The testing yielded a provisional Master Curve reference temperature ToQ of −89°C of unirradiated Eurofer97 steel heat J362A in the normalized and tempered condition. The results are within the normal scatter range of Master Curve reference temperature T0 for Eurofer97 steel, indicating suitability of applying M4CVN specimens for characterizing the transition fracture toughness of Eurofer97 steel.

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用微型多缺口弯曲棒试件对Eurofer97的主曲线断裂韧性进行表征

Eurofer97是低活化铁素体马氏体(RAFM)钢作为早期示范核聚变电站第一壁结构材料的主要候选材料之一。在核聚变装置运行过程中，高中子辐照对第一壁材料的损伤会引起辐照脆化，降低RAFM钢的断裂韧性。因此，选择合适的测试技术来表征高保真的RAFM钢的断裂韧性是至关重要的。本文提出了基于ASTM E1921主曲线法，采用尺寸为45mm(长)× 3.3mm(宽)× 1.65mm(厚)的预裂微型多缺口弯曲棒试件(M4CVN)表征Eurofer97钢过渡断裂韧性的可行性研究。测试得到未辐照的Eurofer97钢热J362A在正火和回火状态下的临时主曲线参考温度ToQ为- 89℃。结果在Eurofer97钢的主曲线参考温度T0的正态散点范围内，说明M4CVN试样用于表征Eurofer97钢的过渡断裂韧性是合适的。

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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Volume 1A: Codes and Standards

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