Shinji Konosu scite author profile

In order to establish design criteria for materials which may sustain creep-fatigue damage, the creep rupture and creep-fatigue behavior of a high-carbon centrifugal cast steel was investigated at three different temperatures of 800, 900, and 1000°C, using HK-40 alloy which is a typical furnace tube material for fuel cell plant reformers and so on. The strain waveforms used for the creep-fatigue tests consisted of triangular waveforms—pp waves (fast-fast waves), cc waves (slow-slow waves), pc waves (fast-slow waves), and cp waves (slow-fast waves)—and a trapezoidal waveform holding the peak strain at the tension side. The applicability of various creep-fatigue interaction damage assessment methods were evaluated with particular emphasis on the life fraction rule (LFR) employed in ASME Section III, Boiler & Pressure Vessel Code Case N-47 and the strain range partitioning method (SRP). As it turned out that through the LFR life evaluation of HK-40 alloy subjected to strain cycling with holding at the tension side was well interpreted, design criteria for reformer tubes were established by applying the LFR to creep-fatigue life evaluation.

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A criterion for low-stress brittle fracture of notched specimens based on combined micro- and macro fracture mechanics—1

Yokobori

Kamei

Konosu

1976

Engineering Fracture Mechanics

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Effects of pretest aging on creep crack growth properties of type 308 austenitic stainless steel weld metals

Konosu

Mashiba

Takeshima

et al. 2001

Engineering Failure Analysis

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Shinji Konosu

Micro and Macro Fracture Mechanics Approach to Brittle Fracture and Fatigue Crack Growth

Effects of ferrite grain size, notch acuity and notch length on brittle fracture stress of notched specimens of low carbon steel

Evaluation of Creep-Fatigue Damage Interaction in HK40 Alloy

A criterion for low-stress brittle fracture of notched specimens based on combined micro- and macro fracture mechanics—1

Effects of pretest aging on creep crack growth properties of type 308 austenitic stainless steel weld metals

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