Small Scale Gypsum Processing Plant
Gypsum is a hydrated calcium sulphate used widely in industry because of its special property of losing three-fourths the combined water of crystallisation when moderately heated to about 130бу. It is used in a wide varied of application. The gypsum board primarily used as a finish for walls and ceilings; known in construction as drywall or plasterboard. It is also the plaster ingredient and fertilizer, soil conditioner and so on. To make the gypsum help make more profits, the small scale gypsum processing plant from SBM plays an important role in the whole process.
Small scale gypsum processing plant
vibrating feeder, jaw crusher, impact crusher, cone crusher, vibrating screen and belt conveyor etc. are the essential machines in the gypsum crushing plant. We will design different crushing plant by combining different models to meet different customers’ technological requirements in gypsum crushing plant.
To get the most from your crushing circuit, it should be designed based on the deposit’s mineralogy. Conduct tests for density, abrasion, psi levels, and silica content to determine the best crusher configurations for your site. Also keep in mind the desired product mix. For example, if fines are desired, impact crushing makes sense. Conversely, compression crushing can help operators avoid fines production.
The crushing process starts with the vibrating feeder. Through it, the block materials will be taken into jaw crusher evenly and gradually for the first crushing process. Belt conveyor will send the materials to cone crusher or impact crusher for the secondary crushing process. In this stage, the materials will be broken into fine or ultrafine size. Vibrating screen is used to separate the un-qualified size materials which will be taken back to crusher by belt conveyor to be crushed again. Till all the materials are crushed into qualified size which meet the next production needs, the crushing process is over.
Meanwhile, pre-screening material ensures more consistent and even material flow to the primary crusher. Undersize material is pulled out and sent to the discharge belt, while oversize material is sent to the crusher. By reducing the material going into the crusher, operators can reduce wear costs while increasing production levels. And, some of the mud and contaminants are removed from the material during screening.