Study of Dielectric Constant & Curie Temperature | AE 1245 | ASICO

Description

Specifications Table

Product Material – High-purity ferroelectric ceramic

Grade – Research-grade (99.9% purity)

Application – Dielectric constant measurement, phase transition studies

Product Overview

This specialized ferroelectric lab kit enables precise investigation of dielectric properties and phase transitions in ferroelectric materials. Engineered with high-purity ceramic components, the kit maintains exceptional thermal stability across a wide temperature range, ensuring accurate Curie temperature determination. The material’s uniform crystalline structure minimizes measurement variability, while its optimized composition provides sharp dielectric response at transition points. Designed for compatibility with standard impedance analyzers and temperature control systems, this kit facilitates seamless integration into existing experimental setups. The research-grade purity (99.9%) eliminates impurities that could affect dielectric measurements, while the carefully controlled manufacturing process ensures consistent performance across multiple samples. Whether investigating fundamental ferroelectric behavior or developing new materials, this kit provides the reliability needed for reproducible results in demanding research environments.

FAQs

1. What type of equipment is required to use this ferroelectric kit?

An impedance analyzer with frequency sweep capability and a precision temperature control system (like a tube furnace or Peltier stage) are recommended for complete characterization.

2. How does the purity level affect measurement accuracy?

The 99.9% purity minimizes ionic impurities that could create spurious dielectric responses or shift the Curie temperature, ensuring your data reflects the intrinsic material properties.

3. Can this kit be used for studying frequency-dependent dielectric properties?

Yes, the material’s consistent response across a broad frequency range (100Hz to 1MHz) makes it suitable for frequency-dependent studies when paired with appropriate measurement equipment.

4. What’s the typical thermal cycling stability of this ferroelectric material?

The material maintains its properties through at least 50 thermal cycles between room temperature and 200°C without significant degradation of dielectric performance.

5. How should this kit be stored when not in use?

Store in a dry, temperature-stable environment (20-25°C) away from direct sunlight, preferably in a sealed container with desiccant to prevent moisture absorption that could affect measurements.