ASTM-F3004 › Standard Test Method for Evaluation of Seal Quality and Integrity Using Airborne Ultrasound
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Scope
1.1 This standard method describes the technology and testing procedures that can be used to detect seal defects in the size range of 1 mm and characterize seal quality in a variety of packaging styles using airborne ultrasound technology.
1.2 This test method does not purport to be the only method for measurement of seal quality.
1.3 Heat seals and other package components can be tested in flexible, semi-rigid and rigid packages. Only the precision and bias for flexible package seals were evaluated in a recent ILS included in the method. The precision and bias for any specific package needs to be individually determined.
1.4 On-line, real time inspection of seals can be considered particularly in the L-Scan mode.
1.5 This method provides a non-destructive, quantitative, non-subjective approach to flexible package seal inspection.
1.6 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
1.7 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Significance and Use
5.1 This method allows for the evaluation of seal quality by passing an ultrasound signal through the sealed area of a package or item. Poorly sealed areas will not transmit as much ultrasonic energy as properly sealed areas.
5.2 This method relies on quantitative analysis of ultrasound signal strength, providing a non-subjective approach to assessing package seal quality and detecting defects.
5.3 This technique has been used for inspecting a variety of materials including flexible pouch seals, rigid tray seals and other packaging components such as affixed valves. The precision and bias for any specific package and seal configuration needs to be individually determined and validated.
5.4 The C-Scan approach is useful for laboratory applications or off-line seal inspection. The L-Scan approach can be used for on-line, real time inspection of seal quality. The sensitivity of either approach to detect a given defect size and level of severity needs to be individually determined.
5.5 Sound waves propagate at different speeds through different materials generally moving faster through more dense materials. The acoustic impedance (expressed as g/cm2·μs) is the product of density (g/cm3) and velocity (cm/μs). Of particular importance is the extreme difference between the impedance of air and that of any solid material. Any gap or poorly bonded area can be readily detected.
Material | Velocity | Density | Acoustic |
Air (20°C, 1 bar) | 0.0344 | 0.00119 | 0.000041 |
Water (20°C) | 0.148 | 1.0 | 0.148 |
Polyethylene | 0.267 | 1.1 | 0.294 |
Aluminum | 0.632 | 2.7 | 1.710 |
Keywords
airborne ultrasound; heat seal; seal defect; seal integrity; transducer; ICS Number Code 55.040 (Packaging materials and accessories)
To find similar documents by ASTM Volume:
15.10 (Packaging; Flexible Barrier Packaging)
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Document Number
ASTM-F3004-13R20
Revision Level
2013 R20 EDITION
Status
Current
Modification Type
New
Publication Date
Dec. 2, 2020
Document Type
Test Method
Page Count
5 pages
Committee Number
F02.40