Title page for ETD etd-07242002-225112

Type of Document Dissertation
Author Eichstadt, Amy Elizabeth
Author's Email Address aeichsta@vt.edu
URN etd-07242002-225112
Title Structure-Property Relationships and Adhesion in Polyimides of Varying Aliphatic Content
Degree PhD
Department Materials Science and Engineering
Advisory Committee
Advisor Name Title
Ward, Thomas C. Committee Chair
Davis, Richey M. Committee Member
Dillard, David A. Committee Member
Dillard, John G. Committee Member
Kander, Ronald G. Committee Member
  • viscoelastic properties
  • aliphatic diamine
  • polyimide
  • adhesion
  • shaft loaded blister test
  • dielectric properties
  • structure-property relations
Date of Defense 2002-07-16
Availability unrestricted
Aromatic polyimides have found widespread applicability which can be partially attributed to their thermal stability, chemical resistance, and high glass transition temperature. However, deficiencies in their processability, solubility, transparency, and relatively high dielectric constants do not always provide the optimum properties for many specialty microelectronics applications. The incorporation of aliphatic segments to form partially aliphatic polyimides, has been used to counteract these shortcomings. Many of the potential uses of partially aliphatic polyimides require them to adhere to ceramic substrates, a main topic of this research.

Polyimides and copolyimides that varied in chemical composition by their aliphatic content were characterized by their molecular weight, glass transition temperature, thermal stability, coefficient of thermal expansion, refractive index, dielectric behavior, and mechanical properties. Structure-property relationships were established. The gamma and beta sub-Tg viscoelastic relaxations were investigated to understand their molecular origins.

The adhesion performance of a selected series of partially aliphatic polyimides to SiO2/Si was examined using a shaft loaded blister test, which was designed and instrumented for use in a dynamic mechanical analysis instrument. The adhesion was studied at high and low percent relative humidities and for several temperatures to examine if adhesion strength is influenced by polymer chemical composition. The adhesion energy could not be quantified for the entire series of polyimides. It was possible to interpret the quantitative adhesive fracture energies along with the qualitative adhesion strength behaviors, the failure surface analyses, and to offer an understanding of the adhesive chemical structure-physical property relationships. These understandings provide a conclusion that the incorporation of aliphatic segments into the polyimide chemical structure improves the durability of the adhesive bond to SiO2/Si under high percent relative humidities.

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