Abrasive blasting is a powerful and efficient method used to prepare metal surfaces for painting, powder coating, or other finishing processes. The process involves propelling various media—such as sand, silicon carbide, aluminum oxide, or steel shot—onto a surface under high pressure. This not only removes contaminants like grease, oil, dirt, and corrosion but also ensures a clean, uniform surface for better adhesion of coatings. One of the biggest advantages of abrasive blasting is that many types of blast media can be reused, which helps reduce costs and environmental impact. Instead of constantly buying new materials, you can recover and recycle them, saving both time and money. It’s a sustainable choice that benefits your business and the planet. Properly cleaning and recovering spent abrasive media is key to maximizing its reuse potential. A blast recovery system is designed to collect and process the used media efficiently, making it ready for the next project. This not only cuts down on material expenses but also increases productivity by minimizing downtime. Blast recovery systems are essential tools for any company that regularly uses abrasive blasting. They provide a reliable, cost-effective way to gather, clean, and return media to the blasting system. This streamlines the entire process, allowing you to complete jobs faster and with less effort. There are numerous advantages to incorporating a blast recovery system into your workflow: With the right system in place, you can significantly enhance your efficiency and sustainability efforts. There are several options available when it comes to recovering blast media. One common system is the abrasive blast cabinet with a vacuum recovery setup. This allows you to blast and then use a vacuum attachment to collect the spent media quickly. It's ideal for portable operations and less aggressive media, though it does require more compressed air. Another option is a continuous vacuum system, which works while blasting takes place. This is perfect for smaller or indoor jobs where dust control is critical. Although it may be slower, it prevents media spillage and maintains a cleaner workspace. In addition to vacuum systems, there are mechanical and pneumatic recovery methods. Pneumatic systems use air pressure to move the media to a reclaimer, where it is filtered and returned to the blasting pot. These are ideal for lighter media such as glass beads, plastics, and small steel grit. Mechanical systems, on the other hand, are typically used for heavier media like steel grit. They are more robust and effective for highly abrasive materials, ensuring efficient recovery and reuse. Since 1972, Finishing Systems has been providing reliable and cost-effective solutions for metal finishing. Our expertise lies in designing and manufacturing high-performance blast recovery systems tailored to meet your specific needs. When you partner with us, you gain access to competitive pricing, expert support, and long-term collaboration. We work closely with our clients to develop custom systems that deliver consistent results and improve operational efficiency. Whether you're looking to reduce costs, improve sustainability, or streamline your blasting process, we have the right solution for you. Contact us today to learn more about our sandblasting recovery systems and find the best fit for your business. Low-temperature 2-color Ratio Pyrometer
This classification includes two color infrared pyrometers measuring range is 250℃-2200℃.
Compared with one color infrared pyroemter, two color pyrometer measuring result will not change with state of object surface (surface roughness or surface chemical state), that means two color infrared thermometer accuracy will not be affacted, while the 1-color pyrometer will.
Products in this classification are usually applied to metallurgical industry(rod and wire mills, Hot rolling mills), foundry, cement kiln, induction heating, heat treatment, heating furnace, vacuum furnace, monocrystalline silicon, polysilicon, semiconductor and other industrial temperature measurement.
two color pyrometer, two color infrared pyrometer, 2-color infrared pyrometer, ratio pyrometer Changzhou Sijie Optoelectronics Technology Co.,Ltd. , https://www.sjinfrared.comHow Sandblasting Recovery Systems Help Recycle Blast Media
Updated: May 9, 2023
Can You Reuse Sandblasting Media?
Recycling Abrasive Media with a Blast Recovery System
Key Benefits of Using a Blast Recovery System
Types of Sandblasting Recovery Systems
Mechanical vs. Pneumatic Recovery Systems
Why Choose Finishing Systems?
The optical part of pyrometer, such as glass, will accumulate some dust in the surfac after using for a period. Water, gas, oil vapour, dust in the air will reduce the emissivity coefficient, so the monochromatic pyrometer will reduce the measured value at this time. The Dual color pyrometer measures the ratio of infrared radiation intensities of two band wavelength in a specific range. With dust, water vapor and other disturbances, the signals of two wavelength fall simultaneously and the ratio remains constant after division. And user just need to wipe the glass when it is too dirty.
Monochromatic thermometers cannot measure objects smaller than the field of view. When the object does not fill the field of view, the measurement temperature will be low. A bicolor pyrometer can measure objects smaller than the field of view.
Using Sandblasting Recovery Systems for Blast Media Recycling