Hydrogen Compatibility of Materials
Technical Reference for Hydrogen Compatibility of Materials
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Guidance on materials selection for hydrogen service is needed to support the deployment of hydrogen as a fuel as well as the development of codes and standards for stationary hydrogen use, hydrogen vehicles, refueling stations, and hydrogen transportation. Materials property measurement is needed on deformation, fracture and fatigue of metals in environments relevant to this hydrogen economy infrastructure. The identification of hydrogen-affected material properties such as strength, fracture resistance and fatigue resistance are high priorities to ensure the safe design of load-bearing structures.
To support the needs of the hydrogen community, Sandia National Laboratories ("Sandia") is conducting an extensive review of reports and journal publications to gather existing materials data for inclusion in the *Technical Reference for Hydrogen Compatibility of Materials*. Additionally, Sandia is working internationally with collaborators to acquire newly generated data for inclusion in the Technical Reference. **SAND2012-7321** is an archival report issued by Sandia National Laboratories representing the reference information compiled as of September 2012. Updates and additions of individual sections of this report are available at http://www.sandia.gov/matlsTechRef .
### Technical Database for Hydrogen Compatibility of Materials
The Technical Database for Hydrogen Compatibility of Materials is intended to be a complement to the Technical Reference for Hydrogen Compatibility of Materials. Although still in the development stage, the Technical Database will provide a repository of technical data measured in hydrogen and is meant to be an engineering tool to aid the selection of materials for use in hydrogen.
The structure of the Technical Database will mirror the Technical Reference, using the same designations and classifications of materials. Below are some examples of the database information that is being compiled in the form of spreadsheets. A single material from a single study is represented in each spreadsheet: the material is indicated by the first four digits; the author and year are represented by the following characters; and the type of data follows (i.e. tensile, fracture and/or fatigue).
#### Plain Carbon Ferritic Steels
- 1100_CIA85_ten_fra_fat.xlsx
- 1100_SAN10_fra_fat.xlsx
- 1100_SAN10B_fra_fat.xlsx
- 1100_SAN11_fra_fat.xlsx
- 1100_SAN11B_fra_fat.xlsx
#### Low-Alloy Ferritic Steels
- 1211_NIB10_fra_fat.xlsx
- 1211_SAN11_fat.xlsx
#### Aluminum Alloys
- 3230_SAN11_far_fat.xlsx
*Financial support for the Technical Reference and the Technical Database is provided by the Safety, Codes and Standards program element of the Hydrogen and Fuel Cells Program, Office of Energy Efficiency and Renewable Energy, United States Department of Energy.*
Citation Formats
TY - DATA
AB - Technical Reference for Hydrogen Compatibility of Materials
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Guidance on materials selection for hydrogen service is needed to support the deployment of hydrogen as a fuel as well as the development of codes and standards for stationary hydrogen use, hydrogen vehicles, refueling stations, and hydrogen transportation. Materials property measurement is needed on deformation, fracture and fatigue of metals in environments relevant to this hydrogen economy infrastructure. The identification of hydrogen-affected material properties such as strength, fracture resistance and fatigue resistance are high priorities to ensure the safe design of load-bearing structures.
To support the needs of the hydrogen community, Sandia National Laboratories ("Sandia") is conducting an extensive review of reports and journal publications to gather existing materials data for inclusion in the *Technical Reference for Hydrogen Compatibility of Materials*. Additionally, Sandia is working internationally with collaborators to acquire newly generated data for inclusion in the Technical Reference. **SAND2012-7321** is an archival report issued by Sandia National Laboratories representing the reference information compiled as of September 2012. Updates and additions of individual sections of this report are available at http://www.sandia.gov/matlsTechRef .
### Technical Database for Hydrogen Compatibility of Materials
The Technical Database for Hydrogen Compatibility of Materials is intended to be a complement to the Technical Reference for Hydrogen Compatibility of Materials. Although still in the development stage, the Technical Database will provide a repository of technical data measured in hydrogen and is meant to be an engineering tool to aid the selection of materials for use in hydrogen.
The structure of the Technical Database will mirror the Technical Reference, using the same designations and classifications of materials. Below are some examples of the database information that is being compiled in the form of spreadsheets. A single material from a single study is represented in each spreadsheet: the material is indicated by the first four digits; the author and year are represented by the following characters; and the type of data follows (i.e. tensile, fracture and/or fatigue).
#### Plain Carbon Ferritic Steels
- 1100_CIA85_ten_fra_fat.xlsx
- 1100_SAN10_fra_fat.xlsx
- 1100_SAN10B_fra_fat.xlsx
- 1100_SAN11_fra_fat.xlsx
- 1100_SAN11B_fra_fat.xlsx
#### Low-Alloy Ferritic Steels
- 1211_NIB10_fra_fat.xlsx
- 1211_SAN11_fat.xlsx
#### Aluminum Alloys
- 3230_SAN11_far_fat.xlsx
*Financial support for the Technical Reference and the Technical Database is provided by the Safety, Codes and Standards program element of the Hydrogen and Fuel Cells Program, Office of Energy Efficiency and Renewable Energy, United States Department of Energy.*
AU - Marci, C. San
A2 - Laboratories, Sandia National
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO -
KW - Compatibility of materials
KW - NREL
KW - SNL
KW - Sandia
KW - Technical Database
KW - Technical Reference
KW - compatibility
KW - energy
KW - hydrogen
KW - materials
KW - materials science
LA - English
DA - 2014/11/25
PY - 2014
PB - National Renewable Energy Laboratory
T1 - Hydrogen Compatibility of Materials
UR - https://data.openei.org/submissions/277
ER -
Marci, C. San, and Sandia National Laboratories. Hydrogen Compatibility of Materials. National Renewable Energy Laboratory, 25 November, 2014, Open Energy Data Initiative (OEDI). https://data.openei.org/submissions/277.
Marci, C., & Laboratories, S. (2014). Hydrogen Compatibility of Materials. [Data set]. Open Energy Data Initiative (OEDI). National Renewable Energy Laboratory. https://data.openei.org/submissions/277
Marci, C. San and Sandia National Laboratories. Hydrogen Compatibility of Materials. National Renewable Energy Laboratory, November, 25, 2014. Distributed by Open Energy Data Initiative (OEDI). https://data.openei.org/submissions/277
@misc{OEDI_Dataset_277,
title = {Hydrogen Compatibility of Materials},
author = {Marci, C. San and Laboratories, Sandia National},
abstractNote = {Technical Reference for Hydrogen Compatibility of Materials
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Guidance on materials selection for hydrogen service is needed to support the deployment of hydrogen as a fuel as well as the development of codes and standards for stationary hydrogen use, hydrogen vehicles, refueling stations, and hydrogen transportation. Materials property measurement is needed on deformation, fracture and fatigue of metals in environments relevant to this hydrogen economy infrastructure. The identification of hydrogen-affected material properties such as strength, fracture resistance and fatigue resistance are high priorities to ensure the safe design of load-bearing structures.
To support the needs of the hydrogen community, Sandia National Laboratories ("Sandia") is conducting an extensive review of reports and journal publications to gather existing materials data for inclusion in the *Technical Reference for Hydrogen Compatibility of Materials*. Additionally, Sandia is working internationally with collaborators to acquire newly generated data for inclusion in the Technical Reference. **SAND2012-7321** is an archival report issued by Sandia National Laboratories representing the reference information compiled as of September 2012. Updates and additions of individual sections of this report are available at http://www.sandia.gov/matlsTechRef .
### Technical Database for Hydrogen Compatibility of Materials
The Technical Database for Hydrogen Compatibility of Materials is intended to be a complement to the Technical Reference for Hydrogen Compatibility of Materials. Although still in the development stage, the Technical Database will provide a repository of technical data measured in hydrogen and is meant to be an engineering tool to aid the selection of materials for use in hydrogen.
The structure of the Technical Database will mirror the Technical Reference, using the same designations and classifications of materials. Below are some examples of the database information that is being compiled in the form of spreadsheets. A single material from a single study is represented in each spreadsheet: the material is indicated by the first four digits; the author and year are represented by the following characters; and the type of data follows (i.e. tensile, fracture and/or fatigue).
#### Plain Carbon Ferritic Steels
- 1100_CIA85_ten_fra_fat.xlsx
- 1100_SAN10_fra_fat.xlsx
- 1100_SAN10B_fra_fat.xlsx
- 1100_SAN11_fra_fat.xlsx
- 1100_SAN11B_fra_fat.xlsx
#### Low-Alloy Ferritic Steels
- 1211_NIB10_fra_fat.xlsx
- 1211_SAN11_fat.xlsx
#### Aluminum Alloys
- 3230_SAN11_far_fat.xlsx
*Financial support for the Technical Reference and the Technical Database is provided by the Safety, Codes and Standards program element of the Hydrogen and Fuel Cells Program, Office of Energy Efficiency and Renewable Energy, United States Department of Energy.*
},
url = {https://data.openei.org/submissions/277},
year = {2014},
howpublished = {Open Energy Data Initiative (OEDI), National Renewable Energy Laboratory, https://data.openei.org/submissions/277},
note = {Accessed: 2025-05-29}
}
Details
Data from Nov 25, 2014
Last updated Nov 25, 2014
Submitted Nov 25, 2014
Organization
National Renewable Energy Laboratory
Contact
C. San Marci
