Effect of uniaxial stretching on the structural and dielectric properties of melt cast Nylon 11 films
Abstract
In this study, the effect of processing on the structural and dielectric properties of Nylon 11 melt cast film was studied. Capacitor grade thin films were cast using a film extruder and stretched uniaxially and real‐time mechano‐optical data were acquired at temperatures ranging from solid state all the way to partially molten state. These studies were supplemented with offline WAXS, SAXS, and DSC to develop a complete understanding of processing induced structural changes and their relation to dielectric properties. When stretched in the solid‐state, preferential crystalline and amorphous chain orientation levels increased as a function of strain while the long spacing remained constant due to lamellar slippage. Processing in the partially molten state led to the formation of new lamellae with larger long spacings. It was also observed that the dielectric properties of Nylon 11 were strongly dependent on the crystallinity and crystal phase, with higher crystallinity of the α′ phase giving higher electrical breakdown strength. When films were stretched to 3X solid and partially molten states, together with crystallinity, the breakdown strength is increased, while the dielectric constant and loss decrease. Since crystalline regions are stiffer, they form effective barriers to hot carriers, retarding the electric breakdown.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Dec 10, 2022
- Source ID
- 10.1002/pen.26214
Entities
People
- Chao Wu
- Jiahao Mao
- Jierui Zhou
- Mayank Jain
- Mukerrem Cakmak
- Peinan Zhou
- Yang Cao
- Zeynep Mutlu
Organizations
- Office of Naval Research
- Purdue University
- University of Connecticut