Discover the key benefits of twin-screw granulation (TSG) for continuous manufacturing, superior process control, and consistent, high-quality granules.
Learn the precise method to regenerate carbon felt pores using 350°C thermal cleaning in an inert Argon atmosphere to remove contaminants and restore efficiency.
Discover when and why RF sputtering works for conductive materials, its advantages over DC sputtering, and how to choose the right method for your lab.
Learn the core method of filtration testing: comparing upstream and downstream particle counts with a particle counter to calculate precise efficiency.
Learn how agitators drive heat transfer efficiency in vessels for chemical reactions, mixing, and crystallization. Understand key factors like U-value and ΔT.
Explore the primary feedstocks for ethylene crackers, from ethane to naphtha, and understand how the choice impacts ethylene yield and co-product value.
Discover the essential raw materials for CVD diamonds: a diamond seed and a carbon-rich gas mixture, used to cultivate high-quality lab-grown diamonds.
Learn the step-by-step process of pelletizing recycled plastic, from shredding and washing to extrusion, filtration, and cutting for consistent, reusable pellets.
Learn why DC sputtering fails with insulating materials due to charge buildup and how RF sputtering provides a stable solution for dielectric thin films.
Discover the key benefits of argon gas, including its complete inertness, high-temperature stability, and role in preventing oxidation for sensitive processes.
Learn why high-quality CVD diamonds are color-stable and permanent, just like natural diamonds. Understand the science behind their lasting brilliance.
Discover why KBr is the standard material for FTIR beamsplitters & sample holders, ensuring optical transparency and accurate sample measurement in the mid-IR range.
Explore the main types of pelletizers, including pellet mills for biomass and cutting systems for plastics, to select the best technology for your application.