JH370 micro hot table melting point instrument Introduction
JH370 micro-thermal table has a wide range of applications in medicine, chemical, synthetic fiber, biology, mineralogy, criminology and other fields. Using a microscope with a digital eyepiece, it is possible to use not only a general eyepiece, but also an advanced color CCD to study and measure the thermal properties of a substance through a television or display (provided by the customer). It can be used as a melting point for micro-samples, as a melting point for sliced samples, and as a thermodynamic study for bioengineering.
Feature
1: Closed furnace body to ensure temperature stability;
2: Accurate heating rate 0.1-20.0 infinitely adjustable;
3: Adopt TFT true color touch screen;
4: Up to 20 sets of methods, each set of up to 99 segments.
5: The maximum temperature is 350 °C.
Technical Parameters
Temperature range: room temperature -350 °
Heating rate: (0.1--20) °C/Min
Temperature resolution: 0.1 °C
Temperature control accuracy: ±0.3°C
Display mode: TFT high-definition color screen
Data interface: USB RS232 SD network port
Slide/cover glass specifications: 76*19*1/15*15*0.5mm
Field of view: 2mm
Sample lens working distance: at least 7mm
X-Y watch: Move up to 13mm
Dimensions (length * width * height) / weight: 185 * 85 * 28mm / 1kg
User Management: 15
Number of method segments: 99 segments
Experimental method storage capacity: 20 sets
Save results: 400
Optional accessories: Biological microscope, partial microscope (optional)
Introduction
JH370 micro-thermal table has a wide range of applications in medicine, chemical, synthetic fiber, biology, mineralogy, criminology and other fields. Using a microscope with a digital eyepiece, it is possible to use not only a general eyepiece, but also an advanced color CCD to study and measure the thermal properties of a substance through a television or display (provided by the customer). It can be used as a melting point for micro-samples, as a melting point for sliced samples, and as a thermodynamic study for bioengineering.
