Advancing quantitative description of porosity in autogenous laser-welds of 304L stainless steel

Jonathan D. Madison; Larry K. Aagesen; Victor Wl Chan; Katsuyo Thornton

doi:10.1186/2193-9772-3-11

Advancing quantitative description of porosity in autogenous laser-welds of 304L stainless steel

Jonathan D. Madison, Larry K. Aagesen, Victor Wl Chan, Katsuyo Thornton

Nuclear Science & Technology

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Porosity in linear autogenous laser welds of 304L stainless steel has been investigated using micro-computed tomography to reveal defect content in fifty-four welds made with varying delivered power, travel speed and focal lens. Trends associated with porosity size and frequencies are shown and interfacial measures are employed to provide quantitative descriptors of pore shape, directionality, interspacing and solid linear fraction. Lastly, the coefficient of variation associated with equivalent pore radii is reported toward a discussion of microstructural variability and the influence of process-parameters on such variability.

Original language	English
Pages (from-to)	141-157
Number of pages	17
Journal	Integrating Materials and Manufacturing Innovation
Volume	3
Issue number	1
DOIs	https://doi.org/10.1186/2193-9772-3-11
State	Published - Dec 1 2014

Keywords

Interfacial normal distribution
Interfacial shape distribution
Micro-computed tomography
Porosity
Stainless steel

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title = "Advancing quantitative description of porosity in autogenous laser-welds of 304L stainless steel",

abstract = "Porosity in linear autogenous laser welds of 304L stainless steel has been investigated using micro-computed tomography to reveal defect content in fifty-four welds made with varying delivered power, travel speed and focal lens. Trends associated with porosity size and frequencies are shown and interfacial measures are employed to provide quantitative descriptors of pore shape, directionality, interspacing and solid linear fraction. Lastly, the coefficient of variation associated with equivalent pore radii is reported toward a discussion of microstructural variability and the influence of process-parameters on such variability.",

keywords = "Interfacial normal distribution, Interfacial shape distribution, Micro-computed tomography, Porosity, Stainless steel",

author = "Madison, {Jonathan D.} and Aagesen, {Larry K.} and Chan, {Victor Wl} and Katsuyo Thornton",

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AU - Madison, Jonathan D.

AU - Aagesen, Larry K.

AU - Chan, Victor Wl

AU - Thornton, Katsuyo

PY - 2014/12/1

Y1 - 2014/12/1

N2 - Porosity in linear autogenous laser welds of 304L stainless steel has been investigated using micro-computed tomography to reveal defect content in fifty-four welds made with varying delivered power, travel speed and focal lens. Trends associated with porosity size and frequencies are shown and interfacial measures are employed to provide quantitative descriptors of pore shape, directionality, interspacing and solid linear fraction. Lastly, the coefficient of variation associated with equivalent pore radii is reported toward a discussion of microstructural variability and the influence of process-parameters on such variability.

AB - Porosity in linear autogenous laser welds of 304L stainless steel has been investigated using micro-computed tomography to reveal defect content in fifty-four welds made with varying delivered power, travel speed and focal lens. Trends associated with porosity size and frequencies are shown and interfacial measures are employed to provide quantitative descriptors of pore shape, directionality, interspacing and solid linear fraction. Lastly, the coefficient of variation associated with equivalent pore radii is reported toward a discussion of microstructural variability and the influence of process-parameters on such variability.

KW - Interfacial normal distribution

KW - Interfacial shape distribution

KW - Micro-computed tomography

KW - Porosity

KW - Stainless steel

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JO - Integrating Materials and Manufacturing Innovation

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ER -

Advancing quantitative description of porosity in autogenous laser-welds of 304L stainless steel

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Keywords

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