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New Methods for Testing and Extraction of Soluble Salts. Presented by: Dr. Lisa D. Detter-Hoskin, Principal Research Scientist Georgia Tech Research Institute. Introduction.
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New Methods for Testing and Extraction of Soluble Salts Presented by: Dr. Lisa D. Detter-Hoskin, Principal Research Scientist Georgia Tech Research Institute
Introduction This webinar will describe the most commonly used field methods for the retrieval and analysis of soluble salts on steel and other nonporous substrates.
SSPC Guide 15 • A guide that describes the most commonly used field methods for extraction and analysis of soluble salts • Recently revised • Expected to be published in July 2013
Field Methods for Measuring Soluble Salts by Conductivity • Fully Automated Conductivity Measurement • Soluble Salt Meter • Surface Salinity Meter • Continuous Flow Extraction Fiber Strip • Multi-Step Conductivity Measurement • Surface Swab or Wash/Probe Type Conductivity Meter Technique • Adhesively Bonded Latex Patch or Cell/Probe Type Conductivity Meter Technique • Saturated Special Filter Paper/Concentric Ring Conductivity Meter Technique
Fully Automated Conductivity Measurement Direct real-time automated systems Measures solution salinity from conductance Hand-held and portable Self calibrating and paperless
Advantages • Some sensors will attach magnetically to some metals • Methods are real time • All critical steps are automated and pre-measured • Reduced setup • Testing can be performed on vertical, horizontal and overhead surfaces • Methods are paperless; digital output • Reduction in consumables and no hazardous materials required • Readings may be recorded • Sensor test area is standardized and cannot be manipulated
Limitations • Meters may not conform to curved and irregular surfaces • Sensors will not adhere to a surface that is not magnetic • Measures conductivity of total soluble salts rather than a specific ion • Fully automated conductivity measurement techniques must be purchased as systems and are not interchangeable
Surface Swab or Wash/Probe Type Conductivity Meter Technique
Advantages • The swabbing retrieval method provides a means for acquiring samples of salt from steel or other non-porous surfaces using readily available materials • Retrievals can be conducted on a range of surfaces without regard to surface irregularities or condition • The swabbing method can be used on large areas to indicate general surface contamination by salts • The extractions also provide sufficient sample size for several analyses to be performed for different ions
Limitations Swabbing methods are difficult to perform in an overhead or vertical position Swabbing is not well suited for measuring salt levels of small, localized contamination such as craters or pits There is a risk of contamination of a sample by the operator if gloves or any other equipment used for these procedures become damaged
Adhesively Bonded Latex Patch or Cell/Probe-Type Conductivity Meter Technique
Adhesively Bonded Latex Patch or Cell/Probe-Type Conductivity Meter Technique
Advantages Cells can conform to curved and irregular surfaces Cells such as these are commercially available in a variety of sizes If reagent water has been used as the extraction liquid, conductivity can be determined using commercially available conductivity meters
Limitations The adhesively attached cells only accommodate a small amount of extraction liquid No in-line determination of conductivity can be performed with these cells
Limitations The cell may not adhere well to heavily rusted surfaces, but it may adhere to abrasive blast cleaned surfaces so well as to cause difficulty in removing the patch The cell may leak through the hole introduced by the syringe The cells are consumable and can be used only once The patch cell will add background conductivity
Limitations Dilution of extraction liquid introduces greater error in final result No standard procedure for the intensity of rubbing, thus making the result subject to operator Flexible patches can be stretched to 10% more than their original intended footprint influencing the final result When acidic extraction solutions are used, patch cell is not suitable for conductivity measurement
Saturated Special Filter Paper/Concentric Ring Conductivity Meter Technique
Advantages Suitable for a wide range of shapes, orientations, surface and finishes Battery operated and portable
Limitations No in-line determination of conductivity can be performed with this unit Water may be lost from the filter paper introducing error The filter paper is a consumable and can be used only to extract salts Background correction for the blank filter paper must be manually performed
Field Methods Measuring Specific Ions • Chloride Ion paper Strip Test of Swab/Wash or Latex Patch/Cell Extracts • Chloride Ion Detection Tube Test of Swab/Wash or Latex Patch/Cell Extracts • Ferrous Ion Paper Strip Test of Swab/Wash or Latex Patch/Cell Extracts • Field Drop Titration for Chloride of Swab/Wash or Latex Patch/Cell Extracts • Latex Sleeve Methodology • Field Detection Sulfate Ion by Visual Turbidity • Qualitative Field Detection of Ferrous Ions
Chloride Ion Paper Strip Test of Swab/Wash or Latex Patch/Cell Extracts Chloride ion paper test strips are utilized to determine chloride ion concentrations of swab- or patch cell-extracted solutions
Chloride Ion Paper Strip Test of Swab/Wash or Latex Patch/Cell Extracts
Chloride Ion Detection Tube Test of Swab/Wash or Latex Patch/Cell Extracts Sealed vacuum tubes are utilized to determine chloride ion concentrations of swab- or patch cell-extracted solutions
Ferrous Ion Paper Strip Test or Swab/Wash or Latex Patch/Cell Extracts Ferrous ion paper test strips are utilized to determine ferrous ion concentrations of swab- or patch cell-extracted solutions
Field Drop Titration for Chloride of Swab/Wash or Latex Patch/Cell Extracts Test kit is used to analyze the solution collected from the surface using swab or patch cell extraction methods
Field Drop Titration for Chloride of Swab/Wash or Latex Patch/Cell Extracts
Field Drop Titration for Chloride of Swab/Wash or Latex Patch/Cell Extracts The chart below is used to determine the concentration of chloride ion in the sample
Latex Sleeve Methodology This method uses a small flexible chloride-free latex sleeve with a self-contained adhesive edge. A proprietary solution is dosed into the sleeve, and the sleeve is attached to the structure being tested, forming a cavity. The solution is massaged against the surface being tested for a specified period of time and is then removed. The sleeve then is removed and extracted solution tested for levels of chlorides.
Advantages This method is very simple to perform, as all components are pre-measured The adhesive sleeve can conform to curved and irregular surfaces. Tests can be performed on vertical, horizontal, and overhead surfaces For extremely rough or pitted surfaces, the seal ring may be doubled, thereby allowing testing to be performed
Advantages The kit form of this method provides a pre-measured volume of extraction solution and a fixed area of the sleeve opening. All components are one-time usage, eliminating cross contamination from test to test In hot weather or on hot surfaces, the encapsulated extract solution will not evaporate
Advantages The extractions also provide sufficient sample size for analyses to be performed for different ions Acidic extraction liquids normally provide improved extraction efficiency compared to reagent water
Limitations The adhesive sleeve may not adhere well to rusted surfaces, but may adhere so well to clean or grit blasted surfaces that it is difficult to remove the adhesive sleeve from the surface No in-line conductivity can be performed with the sleeves The sleeves are consumable and can be used only once
Field Detection Sulfate Ion by Visual Turbidity Works on the principle that if sulfate is present in the extracted salt solution, it becomes turbid (cloudy) when barium chloride is added
Qualitative Field Detection of Ferrous Ions Blotting paper is treated with potassium ferricyanide solution. The blotting paper is moistened and placed in contact with the steel surface to be tested. On contact with ferrous ions, the paper shows blue spots
Summary This webinar described several ways to test for soluble salts on a surface. The technique selected is based on whether you want to know both the quantity and the type of soluble salt that is on the surface or, whether you just want to know if soluble salts are present.