MSE PRO Dilatometer (Thermal Expansion Coefficient Analyzer) with 1400℃ Max Furnace Temperature
Introduction
The MSE PRO Dilatometer (Thermal Expansion Coefficient Analyzer) with 1400℃ Max Furnace Temperature is designed for analyzing the high-temperature expansion behavior of solid inorganic and metallic materials. It is suitable for materials such as alumina, refractory materials, precision-casting shells and cores, ceramics, ceramic raw materials, clay bodies, glazes, glass, graphite, carbon products, and various metal products.
This instrument can measure and analyze linear change, linear expansion coefficient, volumetric expansion coefficient, rapid heating expansion, softening temperature, sintering kinetics, glass transition temperature, phase transitions, density changes, and rate-controlled sintering (RCS), along with their corresponding change curves. It is a versatile solution for materials research, quality control, and thermal expansion analysis.
Key Features
- Maximum furnace temperature up to 1400℃
- Suitable for solid inorganic and metallic materials
- Measures linear expansion and thermal expansion coefficient
- Supports volumetric expansion coefficient analysis
- Capable of rapid heating expansion testing
- Helps evaluate softening temperature and glass transition temperature
- Supports phase transition and density change analysis
- Enables sintering kinetics research and rate-controlled sintering (RCS)
- Computer-controlled heating program
- Automatic calculation, data recording, storage, and printing
- High-precision optical grating sensor for accurate expansion detection
Applications
This dilatometer is suitable for testing:
- Alumina
- Refractory materials
- Precision casting shells and cores
- Ceramics and ceramic raw materials
- Clay bodies and glazes
- Glass
- Graphite and carbon products
- Metal products
Standards
This instrument is suitable for testing in accordance with:
- ISO 10545-8:2014, ASTM C372-12 (2021), GB/T 3810.8-2016 for ceramic tiles
- ISO 7991:1987, ASTM E228-17, GB/T 16920 for mean linear thermal expansion coefficient of glass
- ASTM E831-19, GB/T 3074.4-2016 for thermal expansion coefficient (CTE) of graphite electrodes
- ASTM E228-17, NMPA drug packaging standards, and YBB 00202002/3 for linear thermal expansion coefficient testing
Specifications
Datasheet
| Parameter |
Specification |
| Maximum Furnace Temperature |
1400℃ |
| Heating Rate |
0–30°C/min, adjustable, computer program control |
| Automatic Calculation |
Computer automatically calculates expansion coefficient, volumetric expansion coefficient, linear expansion, and rapid heating expansion |
| Compensation |
Automatic calculation and compensation of coefficient; online manual correction is also available |
| Data & Output |
Automatic data recording, storage, and printing; prints temperature-expansion coefficient curves |
| Minimum Temperature Interval |
1°C |
| Expansion Measurement Range |
12.7 mm |
| Expansion Resolution |
0.1 µm |
| Expansion Accuracy |
0.2 µm |
| CTE Resolution |
0.001 × 10^-6/℃ |
| System Measurement Error |
±0.1% |
| Sample Size (L × W × H) |
(2–15) × (2–15) × (20–150) mm |
| Sample Shape |
Square/Circular samples acceptable |
| Transmission System |
Imported linear ball bearings for friction-free transmission of expansion value, ensuring high transmission precision and repeatability |
| Power Supply |
110V / 60Hz |
| Control & Software |
Equipped with standard computer interface; connects to a standard PC; all operations are performed via the computer interface; full software package provided |
| Measurement Sensor |
High-precision optical grating sensor and data processing system for detecting expansion deformation |
Control and Software
The system is equipped with a standard computer interface and connects to a standard PC. All operations are performed through the computer interface, providing user-friendly control and full software support for testing and analysis.
