Hot-Wire-Thermal-Conductivity-Tester

Thermal Conductivity Tester (Hot Wire Method)

High-Precision Thermal Conductivity Measurement

The thermal conductivity tester (hot wire method) is engineered to deliver reliable and precise thermal conductivity measurements for non-carbon-containing refractory materials. Adhering to GB/T5990 and ISO8894:1990 standards, it ensures the accuracy of your thermal conductivity tests.

Test Temperature Range
Room temperature to 1250℃
Thermal Conductivity Test Range
0.02-28W/(m·K)

Why Choose Our Thermal Conductivity Tester?

The thermal conductivity tester (hot wire method) is a high-precision physical testing equipment designed for measuring the thermal conductivity of non-carbon-containing refractory materials. It operates within a wide temperature range from room temperature to 1250℃, ensuring adaptability to various extreme environments. The test accuracy of this instrument reaches ±0.5%, providing reliable data support for material performance evaluation.

This equipment is widely used in materials science research, industrial production, and quality control, offering crucial test data for the production and application of refractory materials. It helps researchers and engineers optimize product design and production processes by evaluating the thermal conductivity of materials.

Compared to other thermal conductivity testers, our model stands out with its high precision, high stability, and wide range of applications. It has become an essential tool for testing the thermal conductivity of refractory materials, providing strong technical support for materials science research and development and industrial production.

  • High-precision test results with an accuracy of ±0.5%.
  • Wide temperature range from room temperature to 1250℃.
  • Microcomputer measurement and control mode for advanced data handling.

Key Technical Features

STEP 1

Wide Temperature Range

Operates from room temperature to 1250℃, accommodating various extreme environments and material testing needs.

STEP 2

High Test Accuracy

Achieves a test accuracy of ±0.5%, ensuring reliable data support for material performance evaluation.

STEP 3

Microcomputer Measurement and Control

Utilizes a microcomputer measurement and control mode, allowing for continuous drawing of hot wire current, voltage, power, and temperature rise curves.

STEP 4

Advanced Signal Acquisition

Adopts an imported ultra-high precision digital signal acquisition transmitter, enhancing signal acquisition accuracy and stability.

FAQs about Thermal Conductivity Tester

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