Jaw crusher is widely used in the mining and construction industries as primary crushing equipment. Among the many types of jaw crushers available, the PE600×900 model is one of the most popular due to its versatility, durability, and efficiency.
The PE600×900 jaw crusher is a relatively large model, with a maximum feed size of 480mm and a capacity of 90-180tph. It is particularly suitable for medium and large-sized crushing operations, and its production curves have been well studied and documented.
Production curves for the PE600×900 jaw crusher are important because they help to predict and optimize the crusher’s performance under different operating conditions. A production curve is a graph that shows how the crusher’s output varies with different settings of the crusher’s parameters, such as the closed-side setting (CSS) and the eccentric speed.
Jaw crusher pe600 900 production curves
The production curves for the PE600×900 jaw crusher are typically represented by two curves: the throughput capacity curve and the particle size distribution curve. The throughput capacity curve shows how the crusher’s capacity (in tons per hour) varies with the CSS and the eccentric speed. The particle size distribution curve shows how the crusher’s product size distribution varies with the CSS and the eccentric speed.
The throughput capacity curve for the PE600×900 jaw crusher shows that the crusher’s capacity increases with the CSS and the eccentric speed up to a certain point, after which it plateaus. This is because increasing the CSS and the eccentric speed can increase the crusher’s crushing force, which can result in higher throughput capacity. However, once the crusher’s maximum crushing force has been reached, further increases in the CSS and the eccentric speed will not result in a significant increase in capacity.
The particle size distribution curve for the PE600×900 jaw crusher shows that the crusher’s product size distribution is largely determined by the CSS. Increasing the CSS will result in a coarser product size distribution, while decreasing the CSS will result in a finer product size distribution. The particle size distribution curve also shows that the crusher’s product size distribution is relatively consistent over a wide range of eccentric speeds, indicating that the crusher’s performance is relatively insensitive to changes in the eccentric speed.
In conclusion, the production curves for the PE600×900 jaw crusher are important tools for predicting and optimizing the crusher’s performance under different operating conditions. The throughput capacity curve and the particle size distribution curve provide valuable information on the crusher’s capacity and product size distribution, and can be used to optimize the crusher’s performance in real-world applications.