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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.

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Showing 1 to 3 of 3 (0.114 seconds)

Spelling suggestions: "subject:"carbon steel -- aydrogen embrittlement"" "subject:"carbon steel -- bydrogen embrittlement""

1

Hydrogen diffusion, trapping and crack growth in two low carbon steels with different contents of sulfur /

Chou, Kuo-chin January 1987 (has links)
No description available.
Engineering
Carbon steel--Hydrogen embrittlement
2

Study of the corrosion and cracking susceptibility of low carbon steels under cathodic protection with AC Interference

Sanchez Camacho, Lizeth johana 24 July 2022 (has links)
No description available.
Chemical Engineering
Engineering
3

The effects of hydrogen on the fracture behavior of welded carbon steel plate

Watson, Thomas January 1983 (has links)
The effects of hydrogen on the fracture behavior of manual SMA welds in carbon steel plate was investigated utilizing modified ½T compact tension specimens. Tests performed on these specimens in the presence of hydrogen were compared to similar tests in helium. These tests showed that hydrogen lowers J<sub>C</sub> in both the heat affected zone and the base metal. In 350 psi helium, the experimental value of J<sub>C</sub> in the heat affected zone (2826 in.-lbs./in.<sup>2</sup>) was greater than that obtained in the base metal (1650 in.-lbs./in.<sup>2</sup>). The tests conducted in 350 psi hydrogen resulted in a reduction in J<sub>C</sub> for both the heat affected zone (1425 in.-lbs./in.<sup>2</sup>) and the base metal (59 in.-lbs./in.<sup>2</sup>). Furthermore, when compared to specimens tested in helium, it was determined that the material tearing modulus for specimens tested in hydrogen was significantly reduced. Slow stable crack growth occurred in all helium tests and in tests performed on the heat affected zone in hydrogen. However, unstable crack growth (fast fracture) was obtained for base metal tests in hydrogen. Fractographic studies revealed that the mechanism for all slow stable crack growth was microvoid coalescence; whereas, the surface of base metal specimens tested in hydrogen showed that fast fracture occurred by cleavage. Optical microscopy revealed that the fracture path for all base metal tests remained in the base metal, but that the fracture path for all heat affected zone tests moved towards the base. These observations, in conjunction with microhardness readings and quantitative metallography, were used to develop explanations for the observed behavior. These explanations include the combined effects of hydrogen, weld defects, residual stresses, grain size, and test variables such as temperature and specimen size and geometry. / M. S.
LD5655.V855 1983.W387
Carbon steel -- Fracture
Carbon steel -- Hydrogen embrittlement
Carbon steel -- Testing
Welded joints -- Testing

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