Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Moisture and Thermal Degradation of Cyanate-ester-based Die Attach Material
Cyanate-ester-based thermo-setting die attached materials, commonly known as Low Temperature Die Attach (LTDA) are the newest innovation in Hermetic Die Attach Technology due to their improved manufacturability, high decomposition temperature and a moisture gettering effect. Although their dispensability and decomposition temperatures are well documented, little information is available on the effects of prolonged exposure to moisture and thermal conditions. A study was therefore conducted to investigate the behavior of LTSA under thermal and moisture conditioning.Results of the experiment showed that the LTDA initially exhibit weight loss and subsequent weight gain after prolonged exposure. Incorporation of the moisture into the polymeric structure was verified by Infrared Spectroscopy. Die shear strength was also observed to decrease exponentially with exposure time. The time-to-failure equation (10 kilograms die shear strength) as a function of temperature and humidity was established to follow the model. tf (%RH)n exp (E/kT), n <0 Calculations for shop floor condition (25 C/55%RH) show that an exposure time in the order of 106 hours is required for the die shear strength to degrade to 10 kilograms for a 224x225 mil die.
Moisture and Thermal Degradation of Cyanate-ester-based Die Attach Material
Cyanate-ester-based thermo-setting die attached materials, commonly known as Low Temperature Die Attach (LTDA) are the newest innovation in Hermetic Die Attach Technology due to their improved manufacturability, high decomposition temperature and a moisture gettering effect. Although their dispensability and decomposition temperatures are well documented, little information is available on the effects of prolonged exposure to moisture and thermal conditions. A study was therefore conducted to investigate the behavior of LTSA under thermal and moisture conditioning.Results of the experiment showed that the LTDA initially exhibit weight loss and subsequent weight gain after prolonged exposure. Incorporation of the moisture into the polymeric structure was verified by Infrared Spectroscopy. Die shear strength was also observed to decrease exponentially with exposure time. The time-to-failure equation (10 kilograms die shear strength) as a function of temperature and humidity was established to follow the model. tf (%RH)n exp (E/kT), n <0 Calculations for shop floor condition (25 C/55%RH) show that an exposure time in the order of 106 hours is required for the die shear strength to degrade to 10 kilograms for a 224x225 mil die.
Moisture and Thermal Degradation of Cyanate-ester-based Die Attach Material
Gonzales, John Ivan J. (Autor:in) / Mena, Manolo G. (Autor:in)
31.08.2021
Philippine Engineering Journal; Vol 18, No 1 (1997) ; 2718-9287 ; 0117-5564
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC:
690
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