Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials (2021) / Chapter Skim
Currently Skimming:
Pages 70-80
The Chapter Skim interface presents what we've algorithmically identified as the most significant single chunk of text within every page in the chapter.
Select key terms on the right to highlight them within pages of the chapter.
From page 70... ...
70 A P P E N D I X Proposed AASHTO Standard Practice: Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials 1. Introduction 1.1.
|
From page 71... ...
Proposed AASHTO Standard Practice: Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials 71 1.13. The protocol describes sampling procedures and requirements for characterizing the corrosion potential of earthen materials.
|
From page 72... ...
72 Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials 3. Identify Application 3.1.
|
From page 73... ...
Proposed AASHTO Standard Practice: Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials 73 4.2. Unconventional Fills.
|
From page 74... ...
74 Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials 5.1.2. Best practices for sampling in place materials are identified.
|
From page 75... ...
Proposed AASHTO Standard Practice: Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials 75 6.1.2. For materials with more than 15% passing the No.
|
From page 76... ...
76 Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials content at 100% saturation should be considered the end point for AASHTO T 288. Density and degree of saturation are important parameters relating to soil resistivity, but compaction is not a variable for the current test standard.
|
From page 77... ...
Proposed AASHTO Standard Practice: Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials 77 7.2. Parameter Thresholds (limits on electrochemical parameters including resistivity, pH, and chloride and sulfate content)
|
From page 78... ...
Figure A-1. Flow chart of proposed AASHTO Standard Practice: Electrochemical Test Methods to Evaluate the Corrosion Potential of Earthen Materials.
|
From page 79... ...
Abbreviations and acronyms used without definitions in TRB publications: A4A Airlines for America AAAE American Association of Airport Executives AASHO American Association of State Highway Officials AASHTO American Association of State Highway and Transportation Officials ACI–NA Airports Council International–North America ACRP Airport Cooperative Research Program ADA Americans with Disabilities Act APTA American Public Transportation Association ASCE American Society of Civil Engineers ASME American Society of Mechanical Engineers ASTM American Society for Testing and Materials ATA American Trucking Associations CTAA Community Transportation Association of America CTBSSP Commercial Truck and Bus Safety Synthesis Program DHS Department of Homeland Security DOE Department of Energy EPA Environmental Protection Agency FAA Federal Aviation Administration FAST Fixing America's Surface Transportation Act (2015) FHWA Federal Highway Administration FMCSA Federal Motor Carrier Safety Administration FRA Federal Railroad Administration FTA Federal Transit Administration HMCRP Hazardous Materials Cooperative Research Program IEEE Institute of Electrical and Electronics Engineers ISTEA Intermodal Surface Transportation Efficiency Act of 1991 ITE Institute of Transportation Engineers MAP-21 Moving Ahead for Progress in the 21st Century Act (2012)
|
Key Terms
This material may be derived from roughly machine-read images, and so is provided only to facilitate research.
More
information on Chapter Skim is available.