[1] ASME N510-1989 |
Testing of Nuclear Air-Treatment Systems. Fairfield, New Jersey, US: American Society of Mechanical Engineers |
[2] ASTM F24-00 |
Standard Method for Measuring and Counting Particulate Contamination on Surfaces. Philadelphia, Pennsylvania, US: American Society for Testing and Materials |
[3] ASTM F50-92 (2001) e1 |
Standard Practice for Continuous Sizing and Counting of Airborne Particles in Dust-Controlled Areas and Clean Rooms Using Instrument Capable of Detecting Single Sub-Micrometre and Larger Particles. Philadelphia, Pennsylvania, US: American Society for Testing and Materials |
[4] ASTM F312-97 (2003) |
Standard Test Methods for Microscopical Sizing and Counting Particles from Aerospace Fluids on Membrane Filters. Philadelphia, Pennsylvania, US: American Society for Testing and Materials |
[5] ASTM F328-98 (2003) |
Standard Practice for Calibration of an Airborne Particle Counter Using Monodisperse Spherical Particles. Philadelphia, Pennsylvania, US: American Society for Testing and Materials |
[6] ASTM F1471-93 (2001) |
Standard Test Method for Air Cleaning Performance of a High-Efficiency Particulate Air-Filter System. Philadelphia, Pennsylvania, US: American Society for Testing and Materials |
[7] |
Chemical Abstracts Service Registry, Columbus, Ohio, US: American Chemical Society |
[8] EN 1822-2:1998 |
High efficiency air filters (HEPA and ULPA) - Part 2: Aerosol production, measuring equipment, particle counting statistics |
[9] EN 1822-4:2000 |
High efficiency air filters (HEPA and ULPA) - Part 4: Determining leakage of filter element (scan method) |
[10] EN 12599:2000 V |
Ventilation for buildings Test procedures and measuring methods for handing over installed ventilation and air conditioning systems |
[11] IEST-G-CC1001:1999 |
Counting Airborne Particles for Classification and Monitoring of Cleanrooms and Clean Zones. Rolling Meadows, Illinois, US: Institute of Environmental Sciences and Technology |
[12] IEST-G-CC1002:1999 |
Determination of the Concentration of Airborne Ultrafine Particles. Rolling Meadows, Illinois, US: Institute of Environmental Sciences and Technology |
[13] IEST-G-CC1003:1999 |
Measurements of Airborne Macroparticles. Rolling Meadows, Illinois, US: Institute of Environmental Sciences and Technology |
[14] IEST-RP-CC001.3:1993 |
HEPA and ULPA Filters. Rolling Meadows, Illinois, US: Institute of Environmental Sciences and Technology |
[15] IEST-RP-CC006.3:2004 |
Testing Cleanrooms. Rolling Meadows, Illinois, US: Institute of Environmental Sciences and Technology |
[16] IEST-RP-CC007.1:1992 |
Testing ULPA Filters. Rolling Meadows, Illinois, US: Institute of Environmental Sciences and Technology |
[17] IEST-RP-CC021.1:1993 |
Testing HEPA and ULPA Filter Media. Rolling Meadows, Illinois, US: Institute of Environmental Science and technology |
[18] IEST-RP-CC034.2:1999 |
HEPA and ULPA Filter Media. Rolling Meadows, Illinois, US: Institute of Environmental Sciences and Technology |
[19] ISO 5167-1:2003 |
Measurement of fluid flow by means of pressure differential devices inserted in circular cross-section conduits running full - Part 1: General principles and requirements |
[20] ISO 5167-2:2003 |
Measurement of fluid flow by means of pressure differential devices inserted in circular cross-section conduits running full - Part 2: Orifice plates |
[21] ISO 5167-3:2003 |
Measurement of fluid flow by means of pressure differential devices inserted in circular cross-section conduits running full - Part 3: Nozzles and Venturi nozzles |
[22] ISO 5167-4:2003 |
Measurement of fluid flow by means of pressure differential devices inserted in circular cross-section conduits running full - Part 4: Venturi tubes |
[23] JACA No.24:1989 |
Standardization and Evaluation of Clean Room Facilities. Japan Air Cleaning Association |
[24] JIS B 9921:1997 |
Light scattering automatic particle counter. Japanese Industrial Standards Committee |
[25] SEMI E14-93 |
Measurement of particle contamination contributed to the product from the process or support tool. San Jose, California, US: SEMI (1997) |
[26] US Patent 5,059,349 |
Method of measuring the efficiency of gas mask filters using monodispersed aerosols |
[27] US Patent 5,059,352 |
Method for the generation of monodispersed aerosols for filter testing |
[28] VDI 2083 Part 4:1996 |
Cleanroom technology - Surface cleanliness. Berlin: Beuth Verlag GmbH |
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