Thanks to their simple structure, high adaptability, and cost-effectiveness, flat-die pellet machines are widely used to produce pellets from materials such as organic fertilizer, biomass fuel, and animal feed. However, during long-term operation, factors such as raw material conditions, operating practices, and equipment maintenance can lead to issues like poor pellet formation, reduced output, clogging, and component wear—problems that not only lower production efficiency but also increase maintenance costs. Understanding the causes of these common faults and their solutions is key to ensuring stable equipment operation.
Low pellet formation rates and loose, brittle finished pellets are the most common issues with flat-die pellet machines. These problems primarily stem from improper raw material moisture levels: if moisture is too low, the material lacks sufficient binding properties, making it difficult to compact; if moisture is too high, the pellets become soft and prone to sticking or clumping. Additionally, improper clearance between the flat die and the pressure rollers, or an excessive proportion of coarse-fiber materials, can result in poor pellet quality. During production, moisture levels must be strictly controlled; if moisture is abnormal, it should be adjusted by spraying water and mixing, or by adding auxiliary materials like bran or rice husks. Furthermore, the gap between the die and rollers should be maintained at 0.1–0.3 mm, and material formulations should be balanced appropriately.
Equipment clogging and low output are critical issues affecting production capacity. Most clogging incidents are caused by blocked die holes or uneven material feeding. Issues such as material drying and hardening in the die holes after prolonged downtime, or continuous overloading, can obstruct the discharge flow. Moreover, unstable pressure-roller force or loose drive belts can result in insufficient extrusion power, directly reducing discharge efficiency. Routine maintenance should include clearing residual material from die holes, performing test runs before startup, strictly controlling feed rates, and regularly checking belt tension to prevent idling or overloading the equipment.
Accelerated component wear and frequent malfunctions are also common risks. Pressure rollers and flat dies are key wear parts; long-term friction reduces extrusion precision, while inadequate lubrication and prolonged continuous operation accelerate the wear of components such as bearings and gearboxes, leading to problems like oil leaks and mechanical binding. Operators must regularly apply lubricant, inspect oil seals and the condition of the dies, promptly replace worn parts, and perform equipment cleaning and maintenance after production.
In summary, malfunctions in flat-die pellet machines often stem from improper operation and inadequate maintenance. By controlling raw material quality, standardizing operating procedures, and adhering to a regular maintenance schedule during daily production, operators can effectively prevent issues, extend the equipment’s service life, and ensure efficient, stable production.

