Mixed mode loading test and analysis on bonded joints
Solder joints are a common sight in electronic packaging which serves as mechanical and electrical interconnects in a package. Solder joints are prone to failure during a drop and the fracture behaviour and failure modes can differ under various loading conditions. The failure modes can var...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2010
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/40852 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Solder joints are a common sight in electronic packaging which serves as mechanical and
electrical interconnects in a package. Solder joints are prone to failure during a drop and
the fracture behaviour and failure modes can differ under various loading conditions. The
failure modes can vary from brittle intermetallic layer fracture to ductile bulk solder shear
failure or a combination of both depending on the conditions.
In this project, the solder joint is subjected to different type of tests under varying
parameters and loading conditions to investigate the effect of mode mixity and plastic
constraint on the failure mechanism. A CMM specimen is used to measure the outcome
by putting it under a universal tester machine and changing the strain rate, type of tests
and creating a crack within the solder joint.
Yield strength and work hardening were observed to increase substantially as strain rate
increases. Brittle failure is also noticed to be associated with higher strain rates and pure
tensile test, and vice versa. Pure tensile test is noted to produce intermetallic failure while
pure shear and mixed-mode tests results in bulk solder failure.
Based on the results collected and computed, the fracture failure behaviour and mode of
the solder joint are then recorded and discussed so as to establish, and improve the
mechanical properties of the solder joint. |
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