James Rule scite author profile

James Rule

5Publications

13Citation Statements Received

10Citation Statements Given

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Affiliations

The Ohio State University, BP (United States)

Publications

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Cross Weld Tensile Testing With Digital Image Correlation to Determine Local Strain Response

Siefert

Rule

Alexandrov

et al. 2020

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Qualification for weld strength is typically accomplished using cross weld tensile testing. This style of testing only gives the global behavior of the welded joint and limited materials properties, such as elongation at failure and tensile strength of the material where final failure occurs. Qualification for welded structures usually requires the weldment fails in the base metal. Final failure in cross weld tensile tests in the base metal does not provide information about the actual weld metal and heat affected zone properties. There may be weaker points in the microstructure that cannot be identified in a global cross weld tensile test due to being constrained by surrounding microstructures. Additionally, the traditional cross weld tensile test does not quantify how strain accumulates and transfers in the microstructure at various loads. Using Digital Image Correlation (DIC) in combination with tensile testing, local strain of the various microstructures present across the weld was obtained for ferritic to austenitic dissimilar metal welds (DMW), as well as for a typical “matching” ferritic steel filler metal weld with a higher tensile strength than the base metal. This test also showed where and how strain accumulated and transferred during tensile loading of various welded microstructures. Local yield stresses of each region were also obtained. Obtaining such local properties provides insight into design and service limits of welded components in service.

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Physical Simulation of Friction Stir Welding and Processing of Nickel-Base Alloys Using Hot Torsion

Rule

Lippold

2013

Metall Mater Trans A

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Ni-Mn-Ga AC engineering properties

et al. 2003

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Friction Stir Processing as a Base Metal Preparation Technique for Modification of Fusion Weld Microstructures

Rodelas¹,

Lippold²,

Rule³

et al. 2011

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Friction stir processing of Ni-base alloys

Lippold

Rodelas

Rule

2013

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James Rule

Cross Weld Tensile Testing With Digital Image Correlation to Determine Local Strain Response

Physical Simulation of Friction Stir Welding and Processing of Nickel-Base Alloys Using Hot Torsion

Ni-Mn-Ga AC engineering properties

Friction Stir Processing as a Base Metal Preparation Technique for Modification of Fusion Weld Microstructures

Friction stir processing of Ni-base alloys

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