AWS F1.5 : 1996
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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METHODS FOR SAMPLING AND ANALYZING GASES FOR WELDING AND ALLIED PROCESSES
23-07-2013
12-01-2013
Personnel
Foreword
List of figures
1. Scope
2. Purpose
3. Background
4. Summary of Analytical Techniques
4.1 General
4.3 Safety considerations
4.4 Detector Tubes and Passive Dosimeters
4.5 Chemical Methods
4.6 Interferences
4.7 Calibration
5. Basic Requirements for Sampling
5.1 General
5.2 Sampling Periods
5.3 Breathing Zone Sampling
5.4 Static Background Sampling
5.5 Sample Filtration
5.6 Sampling Materials
5.7 Sampling Pump and Rate
6. Ozone (0.01 to 1 ppm)
6.1 Sampling
6.2 Instruments
6.3 Detector Tubes
6.4 Chemical Method
6.5 Calibration
6.6 Preferred Method
7. Carbon Monoxide (5 to 500 ppm)
7.1 Sampling
7.2 Instruments
7.3 Detector Tubes and Dosimeters
7.4 Chemical Methods
7.5 Calibration
7.6 Recommended Method
8. Nitric Oxide (1 to 100 ppm) and Nitrogen Oxide
(0.5 to 25 ppm)
8.1 Sampling
8.2 Instruments
8.3 Detector Tubes
8.4 Chemical Methods
8.5 Calibration
8.6 Recommended Method
9. Fluoride Ion (F-) (0.03-1.2 mg)
9.1 Sampling
9.2 Instruments
9.3 Detector Tubes
9.4 Chemical Methods
9.5 Calibration
9.6 Recommended Method
Annex A
A1. Detector Tubes and Dosimeters
A2. Carbon Monoxide Dosimeters
A3. Colorimetric or Length of Stain Dosimeters
A4. References
Annex B Ozone in Air
B1. Principle of the Method
B2. Range and Sensitivity
B3. Interferences
B4. Precision and Accuracy
B5. Advantages and Disadvantages
B6. Apparatus
B7. Reagents
B8. Procedure
B9. Calibration and Standards
B10. Calculations
B11. References
Annex C Ozone in Air
C1. Principle of the Method
C2. Range and Sensitivity
C3. Interferences
C4. Precision and Accuracy
C5. Advantages and Disadvantages
C6. Apparatus
C7. Reagents
C8. Procedure
C9. Calibration and Standards
C10. Calculations
C11. References
Annex D Carbon Monoxide in Air
D1. Principle of the Method
D2. Method performance
D3. Advantages and disadvantages
D4. Sampling
D5. Analysis
D6. Method performance - conclusions
D7. References
Annex E Nitrogen Dioxide in Air
E1. Principle of the Method
E2. Advantages and disadvantages
E3. Range, detection limit and sensitivity
E4. Method performance
E5. Interferences
E6. Sampling
E7. Analysis
E8. Calculations
E9. References
Annex F Nitric Oxide in Air
F1. Principle of the Method
F2. Advantages and disadvantages
F3. Range, detection limit and sensitivity
F4. Method performance
F5. Interferences
F6. Sampling
F7. Analysis
F8. Calculations
F9. References
Annex G Gaseous and Particulate Fluorides
G1. Principle of the Method
G2. Other methods
G3. Applicability
G4. Accuracy
G5. Interferences
G6. Calibration and quality control
G7. Sampling
G8. Measurement
G9. Calculations
G10. References
FIGURES
1. Detector Tube
2. Passive Dosimeter
3. Pump and Filter
Details recommended procedures for sampling and methods of analysis for gases produced or present during the use of various welding and allied processes and is intended for use by safety personnel or those with backgrounds in analytical techniques, assigned responsibilities for employees performing welding.
DocumentType |
Standard
|
PublisherName |
American Welding Society
|
Status |
Superseded
|
SupersededBy |
AWS F1.3M : 2006 | A SAMPLING STRATEGY GUIDE FOR EVALUATING CONTAMINANTS IN THE WELDING ENVIRONMENT |
ANSI Z49.1 : 2012 | SAFETY IN WELDING, CUTTING, AND ALLIED PROCESSES |
AWS D8.14M/D8.14 : 2000 | SPECIFICATION FOR AUTOMOTIVE AND LIGHT TRUCK COMPONENTS WELD QUALITY - ALUMINIUM ARC WELDING |
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