Vibrating Screen Mesh - Wear and Abrasion Resistance

Vibrating screen mesh is mainly used on vibrating screen machines for screening and sizing all kinds of sand, gravel, coal, stone, rock and other materials in mineral, metallurgy, quarry and other industries.

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What types of vibrating screen can we supply?

• Woven vibrating screen mesh. it is the most popular and widely used type of vibrating screen mesh. It contains high tensile spring steel vibrating screen mesh, manganese steel vibrating screen mesh and stainless steel vibrating screen mesh.
  Woven vibrating screen mesh has different weaving method and various edge types.
  Woven vibrating screen mesh has various weaving types.
• Perforated vibrating screen mesh. It is made of high tensile strength metal sheet and then punched to the round hole, square hole and hexagonal hole.
  • Square hole is the most frequency used type of the three. It offers the maximum open area for the screen.
  • Round hole supplies the minimum open area. It can be used in the places where the sizing is strictly requirements.
  • Hexagonal hole is the compromise of the round hole and square hole. It can be used in the places where the size is important but not strict.
• Polyurethane vibrating screen mesh. It is a special structure, which contains metal steel wire inside and polyurethane surface outside. The polyurethane has great wear resistance performance, it can supply the extra wear life for the screen and save the replacement time and improve the screening efficiency.
• Piano wire screen. Piano wire screen is a simple structure, which is formed by longitudinal wires, which are fixed into a metal or plastic sliding bar to keep wires in place and maintain the opening size. There is no other cross wire on the screen, so it supplies more open areas for the screen. It is widely used for screening the wet, sticky and other materials. The wire diameter and spacing between the air can be customed.
• Self cleaning screen mesh. Self cleaning screen mesh has three types: W mesh, D mesh and H mesh. They all have the ability of self cleaning. It can offer effective solutions to difficult sizing and reduce the blinding and plugging.
• Trommel screen mesh. Trommel screen mesh is the variation of the vibrating screen mesh. It is particularly effective on lighter, wetter materials, like mulch, topsoil and compost for more safety and high efficiency.

Features of the vibrating screen mesh

• High tensile strength and toughness. All the screen is made by the high tensile steel, it can supply the high tensile strength and toughness.
• Wear and abrasion resistance. All the materials are wear and abrasion resistance.
• High temperature resistance - spring steel vibrating screen mesh and manganese vibrating screen mesh.
• Long service life. The high quality raw material and strict production can improve the service life of the screen.
• Customed. All types of vibrating screens can be customed according to the customers' requirements.
• Reduce the blinding and plugging - Piano wire screen and self cleaning screen mesh.
• Safe and high efficiency. Especially for the trommel screen mesh.

Various application of the vibrating screen mesh

Basic concepts of vibrating screens: What they are, what they are for and how they work

What are vibrating screens and which are its main applications for use

Also called simply screens, a vibrating screen is formed by a vibrant chassis that supports in its interior one or several surfaces or elements of screening.

The screens serve to classify the different particles by size, starting from a bulk product in a continuous process. The inlet material (the raw product) advances from the part where the screen is fed to the opposite end in which the particles come out separately according to their size, shape or density. There are also vibrating screens that are loaded by the center and the product moves radially to the outputs that are on the periphery.

For the correct advancement of the product it is necessary that the process is continuous, and it is due to the vibration if the screening surface is horizontal. Most of the screens have a certain inclination in such a way that the advance movement of the product is due to a combination between gravity and vibration.

Screening elements

The screening elements are flat or slightly curved surfaces having perforations of a certain size such that when a product is poured in bulk on the element it only passes those particles whose size is smaller than the size of the perforations.

The screening elements can be a metallic or nylon wire mesh, bars that pass material between them, metal sheet with circular, square or hexagonal perforations, more or less rigid sheets of rubber or polyurethane with perforations.

The type of element is chosen according to the application, nature of the product, size and shape of the particles, abrasivity, adhesion, humidity and temperature.

A screen can have several screening elements on top of each other forming different floors. In this case, the floor with the larger perforations is placed in the upper part and successively in lower floors the elements with smaller and smaller perforations are mounted. In this way each particle is trapped between the floor that has cut points (openings) greater than the particle and the floor that has smaller cut points.

Screening efficiency is much higher with vibrating screens

Traditionally there have been non-vibrating screens consisting of a fixed mesh with a lot of inclination. When introducing the vibration, the product shakes and the particles jump without sliding on the screening surface. Each jump is an attempt of the particle to pass through a hole and the probability of this happening is much greater if the machine vibrates. In other words, the effectiveness is much greater.

When a particle jumps and falls again it can do so in a hole or an area where there is no hole. If the screening element is a wire mesh, the particle can fall on the wire or on another particle and not squeeze through the hole it should. This is why no screen has an efficiency of 100% because it would require an infinite number of jumps so that all the smaller particles that the holes actually leak.

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The concept of screening efficiency is clear: it is the percentage by weight of the particles that actually filter through the holes divided by the total that should be screened.

Production capacity of vibrating screens

The more quantity of product you intend to classify, the more surface you need for screening. The most immediate symptom that a screen has become too small is that it decreases its effectiveness because it simply does not fit so many particles through the holes.

On the other hand, the smaller the size to be classified, the more surface is needed since the smaller holes, the less quantity of product can pass through them.

Vibration frequency in vibrating screens

As a general rule for large classifications, low frequencies and large vibration amplitudes are preferable and for fine classifications high frequencies and small amplitudes. In other words, if the particle is large, a slow and wide movement is better in which the particle gives few jumps but large and if it is small it is better than many jumps but smaller. It is a question of the particle not passing several single jump holes.

As a general rule for large classifications, low frequencies and large vibration amplitudes are preferable and for fine classifications high frequencies and small amplitudes.

Importance of the correct feeding

In the screens, as in any sorting machine, it is necessary to take advantage of the entire width of the work surface from the beginning of it. If the product falls “piled” on the screening surface, the particles of the top of the pile will not touch the mesh or the screening element until the pile disappears by the vibration. By the time this happens, it will already have traveled half way of the surface. In other words, we waste surface with a very important loss of production and also the area where the pile is made will receive severe wear with the consequent extra maintenance expenses. It also increases, especially with products of low density, the risk of jams if the pile takes a lot of height. This makes no sense and it is not acceptable for correct screening.

That is why it is essential to pay attention to the implementation and design of the ducts that pour the product on the screen and use auxiliary means as vibrating distributors if necessary.

Good screens and bad screens

A good vibrating screen must be reliable, minimize wear and maintenance and have a strong vibration as any vibrating machine that boasts: the more it vibrates the better it goes, that is, it gives more production and efficiency.

On the other hand, most of the “bad” screens are not really bad but inappropriate to use: If the product is wet and sticky, it will stick to a metal screening element rather than a polyurethane screening element. If it is dry and fine, the screen should be dust-tight. If it is a matter of screening large and heavy particles, the screen should be very robust. If it is very robust and used with fine products, it will consume more than necessary in electricity and maintenance costs (but that shouldn’t pose as a problem because business energy suppliers can be compared at Utility Saving Expert).

The combinations are endless, and a good selection, suitable for use at first, will make the user does not have to remember this machine again in life, or at least until he needs to install another screen.