Characterization of the Master Curve Based Fracture Toughness of ORNL TSE5 Steel and Unirradiated and Irradiated ASTM A203D 3.5 % Ni Steel by the IGCAR Procedure

P. Sreenivasan
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引用次数: 1

Abstract

The Indira Gandhi Centre for Atomic Research (IGCAR) procedure for predicting the master curve (MC) reference temperature T0 has been further validated via its application to ORNL thermal shock experiment (TSE) 5 steel, an A508 Cl.2 steel that has been widely characterized in the literature. The procedure also was applied to ASTM A203D 3.5% Ni steel tested at IGCAR in virgin and irradiated states. The IGCAR procedure involves the application of the inverse Wallin strain rate equation to TQSchdy, the dynamic reference temperature obtained from Charpy tests using the modified Schindler procedure corresponding to a stress intensity factor rate of ∼106 MPa√m.s−1. A direct correlation of TQSchdy to T0 is also used. The larger of the estimates from these two, namely, TQSchW, provides an accurate and acceptably conservative estimate of the reference temperature TQ-est for steels with TQSchdy ≤ 60°C; for steels with TQSchdy>60°C, TQ-est=the larger of TQSchW and TQM2. The value of TQ-est obtained via the IGCAR procedure is termed TQ-IGC. Mostly, TQM2 gives the most conservative estimate, and TQBT (based on the value of TD obtained from instrumented Charpy V-notch impact tests) has a tendency toward accuracy, provided a robust estimate of TD can be obtained (which is not always the case). The IGCAR procedure was compared with two other conservative lower-bound (LB) procedures (Schindler-LB and Merkle-LB procedures), and it was shown that the IGCAR procedure with a 1% MC provides an LB curve without the difficulties involved in using the more tortuous calculations necessary for applying the Schindler- and Merkle-LB procedures. For the irradiated A203D steel, the shift in the estimated T0 was ΔTQ-IGC=340°C.
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用IGCAR方法表征ORNL TSE5钢和未辐照和辐照ASTM A203D 3.5% Ni钢的主曲线断裂韧性
英迪拉甘地原子研究中心(IGCAR)预测主曲线(MC)参考温度T0的程序已通过应用于ORNL热冲击实验(TSE) 5钢进一步验证,该钢是一种A508 Cl.2钢,已在文献中广泛表征。该程序也适用于在IGCAR测试的ASTM A203D 3.5% Ni钢在原始状态和辐照状态下的测试。IGCAR程序涉及将反Wallin应变速率方程应用于TQSchdy, TQSchdy是使用改进的Schindler程序从Charpy测试中获得的动态参考温度,对应于应力强度因子率为~ 106 MPa√m.s−1。TQSchdy与T0的直接相关性也被使用。对于TQSchdy≤60°C的钢,较大的TQSchW为参考温度tq - test提供了准确且可接受的保守估计;对于TQSchdy>60℃的钢,TQ-est= TQSchW和TQM2中较大的一个。通过IGCAR程序获得的TQ-est值称为TQ-IGC。在大多数情况下,TQM2给出了最保守的估计,而TQBT(基于从仪器夏比v型缺口冲击试验中获得的TD值)如果可以获得对TD的稳健估计(情况并非总是如此),则倾向于准确性。将IGCAR程序与其他两种保守下限(LB)程序(Schindler-LB和Merkle-LB程序)进行了比较,结果表明,1% MC的IGCAR程序提供了LB曲线,而没有使用应用Schindler-LB和Merkle-LB程序所需的更曲折的计算所涉及的困难。对于辐照后的A203D钢,估计T0的位移为ΔTQ-IGC=340℃。
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