Development of the SENT Test for Strain-Based Design of Welded Pipelines

Abstract: Strain-based design (SBD) pipelines are being considered to develop hydrocarbon resources in severe environments. As part of a research program to develop a SBD methodology, work was conducted to develop a suitable fracture mechanics test that can be used as part of a strain capacity prediction technique. The single edge notched tensile (SENT) specimen geometry has been chosen due to the similarity in crack-tip constraint conditions with that of defects in pipeline girth welds. This paper describes a single-sp… Show more

“…(3) is approximately equivalent to Eq. (1) with m (1) = m SSY = 2 for low loading levels (d pl /d el % 0) and m (1) = m (3) for high loadings levels (d el /d pl % 0). Over the last decade, the use of the non-standard single-edge tension (SE(T)) specimen to determine the R-curve has gained much attention in the energy pipeline industry largely as a result of the development of SBD [3,4,12].…”

“…(1) with m (1) = m SSY = 2 for low loading levels (d pl /d el % 0) and m (1) = m (3) for high loadings levels (d el /d pl % 0). Over the last decade, the use of the non-standard single-edge tension (SE(T)) specimen to determine the R-curve has gained much attention in the energy pipeline industry largely as a result of the development of SBD [3,4,12]. The cracktip stress and strain fields of the SE(T) specimen are more relevant to the full-scale pipe containing surface cracks under internal pressure and/or longitudinal tension than the conventional standard SE(B) and C(T) specimens [12][13][14].…”

J - CTOD relationship for clamped SE(T) specimens based on three-dimensional finite element analyses

“…(3) is approximately equivalent to Eq. (1) with m (1) = m SSY = 2 for low loading levels (d pl /d el % 0) and m (1) = m (3) for high loadings levels (d el /d pl % 0). Over the last decade, the use of the non-standard single-edge tension (SE(T)) specimen to determine the R-curve has gained much attention in the energy pipeline industry largely as a result of the development of SBD [3,4,12].…”

“…(1) with m (1) = m SSY = 2 for low loading levels (d pl /d el % 0) and m (1) = m (3) for high loadings levels (d el /d pl % 0). Over the last decade, the use of the non-standard single-edge tension (SE(T)) specimen to determine the R-curve has gained much attention in the energy pipeline industry largely as a result of the development of SBD [3,4,12]. The cracktip stress and strain fields of the SE(T) specimen are more relevant to the full-scale pipe containing surface cracks under internal pressure and/or longitudinal tension than the conventional standard SE(B) and C(T) specimens [12][13][14].…”

J - CTOD relationship for clamped SE(T) specimens based on three-dimensional finite element analyses

“…A commonly applied method for the evaluation of the CTOD in SENT testing, is the double clip gauge method [25][26][27]. The method considered in this publication essentially relies on Rice's 90° degrees intercept method [28], starting from the original crack tip.…”

Single-specimen evaluation of tearing resistance in SENT testing

“…Subsequently, the measured potential drop across the crack is related to the crack size, through the use of either analytical equations or finite element simulations. For the evaluation of the crack tip opening displacement (CTOD), the double clip gauge method has been applied for both the medium and small scale tests [12,13]. Different parameters are known to impact the tearing resistance.…”

Comparison of girth weld tearing resistance obtained from Curved Wide Plate and Single Edge Notch Tensile testing