DEVELOPMENT OF C-RING GEOMETRY TO EXPLORE FATIGUE CRACK EXTENSION AND VERIFICATION IN HIGH-PRESSURE VESSELS

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作者
Wheeler, Robert W. [1 ]
Ronevich, Joseph [1 ]
San Marchi, Chris [1 ]
Grimmer, Peter [2 ]
Emery, John M. [3 ]
机构
[1] Sandia Natl Labs, Hydrogen & Mat Sci Dept, Livermore, CA 94550 USA
[2] Solid Mech Dept, Albuquerque, NM 87123 USA
[3] Mat & Failure Modeling Dept, Albuquerque, NM 87123 USA
来源
PROCEEDINGS OF ASME 2022 PRESSURE VESSELS AND PIPING CONFERENCE, PVP2022, VOL 3 | 2022年
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TU [建筑科学];
学科分类号
0813 ;
摘要
High pressure hydrogen storage vessels are frequently retired upon reaching their designed number of pressure cycles, even in cases where the in-use pressure cycles are significantly less severe than the design pressure cycle. One method for extending the life of hydrogen vessels is recertification through non-destructive evaluation (NDE); however, NDE techniques are frequently evaluated with machined defects in test samples rather than fatigue cracks which occur during pressure cycling and may be more difficult to detect. In this paper, 50 mm wide ring sections (called C-rings, since they represent slightly more than half the circumference) were extracted from pressure vessels and mechanically cycled to establish fatigue cracks. Sub-millimeter starter notches were machined, via plunge electrical discharge machining (EDM), to control the location of crack initiation. Crack growth was monitored via direct current potential difference (DCPD) and backface strain gauges, both of which were shown to be good indicators for crack propagation. The C-ring geometry and fatigue crack growth were modeled to demonstrate the ability to monitor/control the crack length and area, which can be used to develop calibration samples of varying crack depth for NDE techniques. Additionally, this sample is intended to evaluate the influence of residual stresses on the sensitivity of NDE techniques, such as the design stresses in autofrettaged vessels.
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页数:6
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