Granite crusher_ Granite impact fracture

A granite crusher is a piece of machinery used to crush granite into smaller particles. Granite is a hard and durable igneous rock, making it challenging to break down. To accomplish this task, granite crushers use various methods, such as impact, compression, or grinding, depending on the desired output size and particle shape.

Granite impact fracture is a specific type of granite crushing process that involves using impact energy to break the granite particles. This method is commonly used in the aggregate and mining industries, as it is an effective way to reduce the size of granite rocks quickly and efficiently. Impact fracture can occur through several processes:

1. Impact crushers: Impact crushers use rotating hammers or impact plates to throw granite particles against a stationary anvil or plate, causing the particles to fracture under the impact pressure. This process generates a more cubical particle shape, which is desirable in many applications.

2. Hammer mill: The hammer mill contains a rotating hammer that strikes granite particles against a sieve or perforated plate. The impact of the hammer breaks the granite into smaller particles, and the sieve or plate separates the required size parts.

3. Impact crusher: Impact crusher, also known as impact crusher, uses a combination of impact and compression forces to crush granite. They usually consist of a rotating impact plate and a fixed plate with an anvil on top. When granite passes through the machine, it is thrown onto the anvil and then bounced back to the impact plate, causing it to fracture under the combined impact and compression forces.

4. VSI (Vertical Impact) Crusher: The VSI crusher uses centrifugal force to throw granite particles towards the vertical anvil or collide with each other, causing fracture under impact. This type of crusher is suitable for producing high-quality aggregates and has a high production capacity.

The choice of granite impact fracture method depends on factors such as the desired output size, particle shape, production capacity, and budget. It is essential to select a crushing method that meets your specific needs and provides the best overall value.