The Homogenized Energy Model (HEM) for Characterizing Polarization and Strains in Hysteretic Ferroelectric Materials: Implementation Algorithms and Data-Driven Parameter Estimation Techniques
Abstract
Ferroelectric materials, such as PZT, PLZT, PMN and BaTiO3, provide unique actuator and sensor capabilities for applications including nanopositioning, high speed valves and fuel injectors camera focusing and shutter mechanisms, ultrasonic devices for biomedical imaging and treatment and energy harvesting devices. However, to achieve the full potential of the materials, it is necessary to develop and employ models that quantify the creep, rate-dependent hysteresis, and constitutive nonlinearities that are intrinsic to the materials due to their domain structure. The success of models requires that they be highly efficient to implement since real-time applications can require kHz to MHz rates. The calibration of models for specific materials, devices, and applications, requires efficient and robust parameter estimation algorithms. Finally, control designs can be facilitated by models that admit efficient and robust approximate inversion. The homogenized energy model (HEM) is a multiscale, micromechanical framework that quantifies a range of hysteretic phenomena intrinsic to ferroelectric, ferromagnetic and ferroelastic materials. In this paper, we present highly efficient implementation and parameter estimation algorithms for the ferroelectric model. This includes techniques to construct analytic Jacobians and data-driven algorithms to determine initial parameter estimates to facilitate subsequent optimization. The efficiency of these algorithms facilitates material and device characterization and provides the basis for constructing efficient and robust inverse algorithms for model-based control design. The model implementation, calibration and validation are illustrated using rate-dependent PZT data and single crystal BaTiO3 data.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 2012
- Accession Number
- ADA556961
Entities
People
- Jon Ernstberger
- Ralph C. Smith
- Zhengzheng Hu
Organizations
- North Carolina State University