HTS1000HR High Temperature Resistivity Measurement System — 1

Overview

Designed for top-tier research institutes and industry leaders (such as SICCAS and Huawei), the HTS1000HR High Temperature Resistivity Measurement System provides a highly controlled environment for evaluating the absolute limits of high-resistance insulating materials and piezoelectric ceramics. The system features a highly integrated, modular design equipped with an oxidation-resistant high-temperature heating furnace capable of reaching 800℃ with an exceptional ±1℃ temperature control accuracy.

Researchers can effortlessly monitor how a material's resistivity changes over time and temperature under diverse experimental environments, including ambient air, flowing gas atmospheres, and vacuum conditions. By employing a sophisticated three-ring electrode method and an automated, safe maximum sample pressure of 0.25N, the HTS1000HR ensures superior electrical contact, high repeatability, and strictly non-destructive testing for delicate samples up to 30mm in diameter.

Specifications

Temperature RangeRT to 800℃
Resistance Measurement Range10³ Ω to 10¹⁵ Ω
Current Measurement Range500fA to 20mA
Temperature Control Accuracy±1℃
Heating Rate0-10℃/min (Typical: 3℃/min)
Measurement EnvironmentAir, Flowing gas atmosphere, Vacuum
Maximum Sample SizeOuter Diameter (OD) ≤ 30mm, Thickness (t) ≤ 5mm
Electrode MaterialPlatinum
Measurement MethodsThree-ring electrode method
Maximum Sample Pressure0.25N (Non-destructive)
Heating MethodResistance wire heating
Power Supply220V / 50Hz~60Hz, 1600W
Dimensions (L x W x H)480 x 320 x 830 mm
Weight46 Kg

Applications

  1. Insulating materials evaluation and degradation research.
  2. Piezoelectric ceramics conductivity and stability testing.
  3. High-temperature solid-state electronics characterization.
  4. Dielectric property evaluation for aerospace and semiconductor components.

FAQ

  • What test environments can the HTS1000HR simulate for resistivity measurement?

    The system is engineered to easily accommodate multiple experimental environments, including ambient air, flowing gas atmospheres, and vacuum conditions, allowing for versatile and complex material characterization.
  • Can this system safely measure highly delicate insulating materials?

    Yes. The HTS1000HR is specifically designed to evaluate extreme high-resistance limits up to 10¹⁵ Ω. Furthermore, it utilizes a factory-calibrated maximum sample pressure of just 0.25N, guaranteeing that delicate samples remain completely undamaged during the measurement process.
  • What kind of electrode configuration does the equipment use?

    The system utilizes an advanced three-ring electrode method constructed from premium platinum. This design ensures phenomenal electrical contact, superior data repeatability, and uncompromised stability even at temperatures up to 800℃.