Martensite Formation and Dynamic Recrystallization in Cold Sprayed SS304L

Christopher M. Roper; C. Jacob Williamson; Ke An; Luke N. Brewer

doi:10.1007/s11666-024-01805-4

Martensite Formation and Dynamic Recrystallization in Cold Sprayed SS304L

Christopher M. Roper, C. Jacob Williamson, Ke An, Luke N. Brewer

Materials Engineering

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

Abstract

In this study, a comprehensive set of characterization techniques are employed to demonstrate that the cold spray deposition process can result in a significant increase in martensite in austenitic stainless steel. The lack of consensus in the literature on the formation of strain-induced martensite in cold spray can be attributed to the diverse processing conditions and measurement techniques used in different studies. In this work, EBSD, neutron diffraction, TEM imaging, and precession electron diffraction were used in combination to examine whether strain-induced martensite is formed during cold spray deposition of 304L stainless steel powder and to give further insight into possible mechanisms controlling this phenomenon. Cold spray was performed at both 350 °C and room temperature (25 °C) to investigate the effects of spray temperature on the martensite transformation. It is shown that the strain-induced martensite formation is significantly suppressed compared to that which would be expected for comparable levels of plastic strain at quasi-static strain rates. Additionally, the spray gas temperature is shown to directly impact the microstructure formed at the prior particle interface and the formation of dynamically recrystallized regions.

Original language	English
Pages (from-to)	1955-1967
Number of pages	13
Journal	Journal of Thermal Spray Technology
Volume	33
Issue number	6
DOIs	https://doi.org/10.1007/s11666-024-01805-4
State	Published - Aug 2024

Funding

This research was supported by NEUP 18-15372 Work scope FC-4.2; Contract DE-NE0008770. Neutron diffraction was performed by the VULCAN beamline at the SNS facility at ORNL.

Keywords

EBSD
STEM
austenite-to-martensite phase transformation
cold spray
neutron diffraction

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10.1007/s11666-024-01805-4

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title = "Martensite Formation and Dynamic Recrystallization in Cold Sprayed SS304L",

abstract = "In this study, a comprehensive set of characterization techniques are employed to demonstrate that the cold spray deposition process can result in a significant increase in martensite in austenitic stainless steel. The lack of consensus in the literature on the formation of strain-induced martensite in cold spray can be attributed to the diverse processing conditions and measurement techniques used in different studies. In this work, EBSD, neutron diffraction, TEM imaging, and precession electron diffraction were used in combination to examine whether strain-induced martensite is formed during cold spray deposition of 304L stainless steel powder and to give further insight into possible mechanisms controlling this phenomenon. Cold spray was performed at both 350 °C and room temperature (25 °C) to investigate the effects of spray temperature on the martensite transformation. It is shown that the strain-induced martensite formation is significantly suppressed compared to that which would be expected for comparable levels of plastic strain at quasi-static strain rates. Additionally, the spray gas temperature is shown to directly impact the microstructure formed at the prior particle interface and the formation of dynamically recrystallized regions.",

keywords = "EBSD, STEM, austenite-to-martensite phase transformation, cold spray, neutron diffraction",

author = "Roper, {Christopher M.} and {Jacob Williamson}, C. and Ke An and Brewer, {Luke N.}",

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AU - Roper, Christopher M.

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AU - Brewer, Luke N.

N1 - Publisher Copyright: © ASM International 2024.

PY - 2024/8

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N2 - In this study, a comprehensive set of characterization techniques are employed to demonstrate that the cold spray deposition process can result in a significant increase in martensite in austenitic stainless steel. The lack of consensus in the literature on the formation of strain-induced martensite in cold spray can be attributed to the diverse processing conditions and measurement techniques used in different studies. In this work, EBSD, neutron diffraction, TEM imaging, and precession electron diffraction were used in combination to examine whether strain-induced martensite is formed during cold spray deposition of 304L stainless steel powder and to give further insight into possible mechanisms controlling this phenomenon. Cold spray was performed at both 350 °C and room temperature (25 °C) to investigate the effects of spray temperature on the martensite transformation. It is shown that the strain-induced martensite formation is significantly suppressed compared to that which would be expected for comparable levels of plastic strain at quasi-static strain rates. Additionally, the spray gas temperature is shown to directly impact the microstructure formed at the prior particle interface and the formation of dynamically recrystallized regions.

AB - In this study, a comprehensive set of characterization techniques are employed to demonstrate that the cold spray deposition process can result in a significant increase in martensite in austenitic stainless steel. The lack of consensus in the literature on the formation of strain-induced martensite in cold spray can be attributed to the diverse processing conditions and measurement techniques used in different studies. In this work, EBSD, neutron diffraction, TEM imaging, and precession electron diffraction were used in combination to examine whether strain-induced martensite is formed during cold spray deposition of 304L stainless steel powder and to give further insight into possible mechanisms controlling this phenomenon. Cold spray was performed at both 350 °C and room temperature (25 °C) to investigate the effects of spray temperature on the martensite transformation. It is shown that the strain-induced martensite formation is significantly suppressed compared to that which would be expected for comparable levels of plastic strain at quasi-static strain rates. Additionally, the spray gas temperature is shown to directly impact the microstructure formed at the prior particle interface and the formation of dynamically recrystallized regions.

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Martensite Formation and Dynamic Recrystallization in Cold Sprayed SS304L

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