NX type silicon carbon analyzer Brief introduction:
NX type silicon carbon analyzer USES electromagnetic interference resistance, dustproof, ultra-thin portable design, easy to operate, non-professional personnel through simple training to operation in front of the furnace of molten iron carbon, silicon content for quick detection. Features:
Silicon carbon analyzer key features: by improving the evaluation methods of work, can automatically control the important metallurgical parameters, make up the "spectrum" is difficult to measure quasi nonmetallic elements (C, Si), and the analysis of the conventional instruments can not meet the requirement of the rapid analysis of time before furnace, satisfy the requirement of the foundry production quality control Two applications: for white, grey cast iron % % C, Si, CEL, SC, delta T, delta TM, such as measuring, also attached to the RM of alloy cast iron, HB, Z/H, and the calculation of the parameters such as MEC. Technical parameters:
1. According to the digital height: 500 mm temperature compensation scope: 0-15 ℃ matching sample cup type: K type measuring accuracy: + / - 1 ℃ show
2. Temperature units: Fahrenheit or Celsius temperature can be set up. Measuring the maximum time: 240 seconds
3. Working procedures: status display: measurement instrument on "to" green, "measuring" yellow, "finish" shows the red light cycle
4. The power supply requirements: 98-242 vac, 50 to 60 hz, about 30 va
5. The instrument protection standards: IP65 protection standard
6. Measuring range of content:
Carbon equivalent CE measurement range 3.2 4.8% accuracy: + / - 0.1%
C: carbon content measurement range 2.8 4.2% accuracy: + / - 0.04%
Si: silicon content measurement range 0.9 3.0% accuracy: + / - 0.1%
Brief introduction:
NX type silicon carbon analyzer USES electromagnetic interference resistance, dustproof, ultra-thin portable design, easy to operate, non-professional personnel through simple training to operation in front of the furnace of molten iron carbon, silicon content for quick detection.