PA100 dual analysis ferrograph Introduction: Iron spectrum analysis technology is one of the important technologies for equipment condition monitoring and predictive maintenance. It can accurately and reliably predict the wear status and potential faults of machine lubrication components, and optimize equipment utilization and efficiency through maintenance actions. The ferrographic analysis technology developed by Shuhao Instrument has established equipment diagnostic standards and is widely used in oil analysis laboratories worldwide. Ferrography is mainly used for image analysis of wear particles in lubricating oil. Ferrography technology utilizes the effect of a magnetic field to separate iron debris particles and adhesive particles from machine lubricating oil samples, and analyzes the morphology, size, quantity, and particle size distribution of their deposition and separation, in order to obtain relevant information about the wear process. By using ferrography technology, the wear status of mechanical equipment during operation can be diagnosed and monitored, thereby improving the reliability and safety of the system. One of the important tools for applying ferrography technology is the ferrograph. The PA100 dual analysis ferrograph is designed as two independent circuits, allowing for the preparation of two oil samples simultaneously. Operators can choose between automatic, semi-automatic, and manual production of spectrograms. Features: 1. The moisture in the oil has almost no effect on the production of the spectrum Once the oil sample is ready and inserted, the operation can be carried out automatically, and the operator can perform other tasks 3. Convenient button operation 4. Adjustable control of sample flow rate to ensure consistent spectral deposition and repeatability 5. Produce 2 spectra simultaneously within less than 20 minutes 6. The spectrum is transparent, allowing for the differentiation of metal, organic, and non-metal particles, making diagnosis easier 7. The particles are arranged according to their magnetization coefficient and size, making it easy to quickly interpret the particles 8. Rarely does particle accumulation occur, making it easy to observe particles that are important for reflecting the machine's condition Technical parameters: Can produce two spectra simultaneously, automatically or semi-automatically; Magnetic field: maximum magnetic flux density ≈ 1.8T; Maximum magnetic field gradient: > 0.5T/mm; Oil sample transportation: flow rate range 10-30ml/h; Oil pipeline size: outer diameter 2.3mm, inner diameter 1.7mm; Transportation method: pneumatic; Iron spectrum inclination angle: 2 degrees; Iron spectrum substrate size: 60mm * 24mm * 0.12mm Size: 395mm * 355mm * 330mm Weight: 13.5kg
Introduction: Iron spectrum analysis technology is one of the important technologies for equipment condition monitoring and predictive maintenance. It can accurately and reliably predict the wear status and potential faults of machine lubrication components, and optimize equipment utilization and efficiency through maintenance actions. The ferrographic analysis technology developed by Shuhao Instrument has established equipment diagnostic standards and is widely used in oil analysis laboratories worldwide. Ferrography is mainly used for image analysis of wear particles in lubricating oil. Ferrography technology utilizes the effect of a magnetic field to separate iron debris particles and adhesive particles from machine lubricating oil samples, and analyzes the morphology, size, quantity, and particle size distribution of their deposition and separation, in order to obtain relevant information about the wear process. By using ferrography technology, the wear status of mechanical equipment during operation can be diagnosed and monitored, thereby improving the reliability and safety of the system. One of the important tools for applying ferrography technology is the ferrograph. The PA100 dual analysis ferrograph is designed as two independent circuits, allowing for the preparation of two oil samples simultaneously. Operators can choose between automatic, semi-automatic, and manual production of spectrograms.
