Posted on October 29, 2014
MISTRAS' worldwide leadership in Acoustic Emission (AE) testing is helping to launch another practical application - detecting pad cratering of printed circuit boards. AE testing provides very early-detection and location capabilities prior to electronic signature.
Printed circuit boards help power some of the industry's greatest and most advanced technologies, so ensuring their proper functionality is paramount. Yet electronics assemblies with large flip-chip BGA packages can be prone to either pad cratering or brittle intermetallic (IMC) failures under excessive printed circuit board bending.
Electrical testing or non-destructive testing methods cannot detect pad cratering cracks, which pose a long-term risk to reliability since cracks may spread under increased loads and subsequently lead to electrical failure. Since the beginning of pad cratering doesn't produce an instantaneous electrical signature, early detection has been an issue.
Currently, the industry is challenged by the inability to detect pad cratering without an explicit electronic signature in an efficient fashion. The process of pad cratering initiates well ahead of actual electronic failure, which gives ample time for detection and location, provided the right diagnostic solution is in place - like Acoustic Emission (AE) testing.
An Acoustic Emission application was recently developed by CISCO Systems, Inc. to detect the onset of pad cratering. The instantaneous release of elastic energy associated with the initiation and growth of an internal crack produces an acoustic emission, which can be monitored to accurately determine the onset of both pad cratering and brittle intermetallic (IMC) failures. In addition, when detected by multiple sensors, the source of the Acoustic Emission can be located using triangulation techniques.
AE monitoring can detect the rapid release of energy within a material at its earliest stages of breakdown.
By monitoring the surface-mount solder attachments on printed circuit boards, an AE testing system can not only detect pad cratering in its earlier stages, but also:
The IPC 6-10d Task Group (Surface Mount Attachment Reliability Test Methods) is developing test guidelines for AE measurement during mechanical testing. The latest update on the process of this document (IPC-9709) can be accessed online at (www.ipc.org).
By performing thousands of Acoustic Emission (AE) field tests of a wide variety of structures, MISTRAS has developed an extensive database for interpreting the significance of AE signals as they relate to flaws, cracks and leaks. This experience has produced numerous knowledge-based systems that reach a broad range of industries and exceed customer expectations. Our state-of-the-art AE systems and sensors are manufactured under ISO-9001 Certification and calibrated and maintained by MISTRAS' highly-trained staff.
For more information, call MISTRAS at 1(609) 716-4000 today!
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