Study of Dielectric Constant and Curie Temperature of Ferroelectric Ceramics

100 INR/Piece

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Product Details:

Display Digital LCD Display
Usage Measurement of Dielectric Constant and Curie Temperature in Ferroelectric Ceramics
Voltage 220 V AC, 50 Hz
Power 50 W
Product Type Laboratory Instrument
Material Powder Coated Steel Body
Design Table-top, Compact
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Study of Dielectric Constant and Curie Temperature of Ferroelectric Ceramics Price And Quantity

Minimum Order Quantity 1 Piece
Price 100 INR/Piece

Connection Interface 4-Terminal Connection for Accuracy
Frequency Range 50 Hz to 1 MHz
Safety Features Overheat Protection, Fuse Provided
Heating Control Digital Temperature Controller
Sample Holder Type Analytical Ceramic Mount
Calibration Pre-Calibrated with Certificate
Temperature Range Room Temperature up to 500°C
Application Physics, Materials Science Lab, Educational & Research Use

Study of Dielectric Constant and Curie Temperature of Ferroelectric Ceramics Product Specifications

Charging Time 1 hour (Approx.)
Voltage 220 V AC, 50 Hz
Dimension (L*W*H) 250 x 200 x 100 mm
Usage Measurement of Dielectric Constant and Curie Temperature in Ferroelectric Ceramics
Material Powder Coated Steel Body
Display Digital LCD Display
Accuracy 1% or better
Power Source Mains Electricity
Product Type Laboratory Instrument
Weight About 3.5 kg
Design Table-top, Compact
Power 50 W
Detector Digital Readout with LCD Display

Connection Interface 4-Terminal Connection for Accuracy
Frequency Range 50 Hz to 1 MHz
Safety Features Overheat Protection, Fuse Provided
Heating Control Digital Temperature Controller
Sample Holder Type Analytical Ceramic Mount
Calibration Pre-Calibrated with Certificate
Temperature Range Room Temperature up to 500°C
Application Physics, Materials Science Lab, Educational & Research Use

Study of Dielectric Constant and Curie Temperature of Ferroelectric Ceramics Trade Information

Main Domestic Market All India

Product Description

Description of theExperimental Setup

1 ProbesArrangement

It has twoindividually spring loaded probes. The probes arrangement is mounted in asuitable stand, which also holds the sample plate. To ensure the correctmeasurement of sample temperature, the RTD is embedded in the sample plate justbelow the sample. This stand also serves as the lid of temperature controlledoven. Proper leads are provided for connection to Capacitance Meter andTemperature Controller.

2 Sample Barium Titanate (BaTiO 3)

3 Oven This is a high quality temperature controlled oven. The oven has been designed for fast heating and cooling rates which enhances the effectiveness of the controller.

4 Main UnitsThe Set-up consists of two unitshoused in the same cabinet.

Oven Controller PlatinumRTD (A class) has been used for sensing the temperature.

Specifications

Temperature Range Ambient to 200 degrees C

Digital CapacitanceMeter This a compact directreading Instrument for the measurement of capacitance of the sample.

Specifications

Range 50-6000 pf

Precise Measurement and User-Friendly Design

Engineered for researchers and educators, this system offers accurate dielectric constant and Curie temperature measurement, catering to a wide frequency range. Its digital temperature controller ensures consistent heating, and its compact, sturdy design makes it easy to integrate into any laboratory, facilitating seamless operation and dependable results.

Safety and Accuracy Assured for Laboratory Needs

Equipped with overheat protection and a fuse, this unit meets essential safety standards for laboratory environments. Pre-calibrated accuracy lets users trust their readings, while the four-terminal connection minimizes electrical inaccuracy, supporting rigorous physical and material science research.

FAQ's of Study of Dielectric Constant and Curie Temperature of Ferroelectric Ceramics:

Q: How is the dielectric constant and Curie temperature measured using this system?

A: The system uses a digital LCD display and four-terminal connection for precise measurements. After placing ferroelectric ceramic samples into the analytical ceramic mount, measurements can be conducted across 50 Hz to 1 MHz and temperatures up to 500C, controlled digitally for optimal accuracy.

Q: What safety features does this device offer during operation?

A: For safe laboratory use, the unit includes an overheat protection mechanism and a fuse. These features help prevent potential hazards, ensuring dependable protection during extended heating cycles.

Q: Where is this product typically used?

A: This measurement system is commonly employed in physics and materials science laboratories. Its applications include educational experiments and advanced research on ferroelectric ceramics, primarily in academic and research institutions.

Q: When should the calibration certificate be checked or renewed?

A: The device is pre-calibrated with a certificate provided by the manufacturer. Users should check the certificate before initiating critical experiments and follow institutional guidelines for periodic recalibration as needed.

Q: What is the process for controlling temperature during experiments?

A: A digital temperature controller allows users to set and maintain specific temperatures up to 500C. This ensures reproducibility in measurements and supports exploring the temperature-dependent properties of ferroelectric materials.

Q: How does the four-terminal connection improve measurement accuracy?

A: Four-terminal connections reduce the impact of lead and contact resistance, providing more reliable readings of electrical properties, thus ensuring the system's measurement accuracy is 1% or better.

Q: What are the benefits of the compact, table-top design?

A: The compact dimensions and powder coated steel body offer portability, durability, and space-saving advantages. Labs can easily accommodate the unit and transport it when required, supporting flexible research and teaching setups.

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