A micron is something very small to filter out debris. All these nomenclatures are represented by the symbol (µm) and correspond to the microscopic unit of measure, where 1 micron is the same as dividing 1 millimeter by 1000. The same is the case with a Metal etching . In this article, we shall learn how to use this important tool.
For you to understand better the 20-micron filter, a grain of sand is between 200 and 500 microns thick, while the hair is 75 microns, now our red blood cells are only 8 microns thick. The grain of sand and the strand of hair are easy to see with the naked eye because they have a thickness greater than 45 microns.
The unit of measurement in microns is common in the field of Biology to identify cell dimensions, in Engineering to measure thickness, height, width, and depth and in other areas that work with the production of units with microscopic measurements in general.
Many companies use a 20-micron filter. This type of measurement measures the thickness of materials, such as in the production of tarpaulins, for example. The greater the micron age of these products, for the most part, the greater their resistance.
Now the greater the micron, necessarily, the greater will be the thickness of these materials and elements. As an example, a 40-micron thick material is larger in dimension than a 10-micron thick material.
We already know that 1 micron is the same as dividing 1 millimeter by 1000. But if you want to know the size of an element or material, for example, there are a few ways to get the results. One of them is the transformation from centimeter to micron age. You just need to divide the centimeter value by 1000.
100 thousand micrometers (µm) is = 1 centimeter (cm), thus you can infer for 20-micron filter. To read the micron, there is equipment on the market capable of identifying the thickness of a particle, for example, through laser rays. There are also specific meters for this, such as the micrometer.
Unlike filtration, microfiltration can capture contaminations with even smaller microns, down to microscopic 2 microns. This ensures much more effective retention, as these small particles are responsible for the biggest problems in equipment.
As we said, through microfiltration, the oil is passed through a set of absolute filters to eliminate contaminating particles. In a 20-micron filter, it is important to remember that the process must be carried out even in new oils, as most of them can come contaminated from the factory.
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The depth of microfiltration is the most effective technique. It removes particles more efficiently, provides more safety in the process, and, above all, offers many benefits to the equipment. The technique, depending on the system, can confer retention of approximately 900 grams.
Most surface filters work with retention of approximately 25 microns. So, when a filter or microfiltration filter has a specification of 25 µm, it means that solid particles with a size larger than 25 microns will be retained by the filter, and particles smaller than 25 will normally pass through the filter.
This is because the 20-micron filter, internal “networks” have a specific size and are relatively larger, so they can only capture larger particles. Decontamination in oil takes place in several ways. One of them is microfiltration, which, unlike filtration, manages to capture much smaller particles.
As much as all the necessary care is taken daily, oil contamination is difficult to be avoided. It usually occurs due to several factors, such as:
The filters, for the most part, work with retention of a maximum of 25 microns. Now, you can use depth microfiltration that retains oil particles much smaller than 25 microns, those of up to 2 microns, in the beta 300 ratios.
You can say that modern filters have decent capacity to filter micro parts in water or any liquid.
20-micron filter, elements are usually manufactured with cellulose, stainless steel, steel mesh, fiberglass or synthetic, polypropylene, polymers, and others. They are easy to compose of fabrics such as tow, cotton and felt, or even cellulose fibers
There is a permeability scale between 10 and 50 microns on the surface and at least 1 micron deep. The smaller the micron, the smaller the contamination particle size will be. In this case, if a filter element can capture smaller microns, its porosity (space between the fibers) is smaller.
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Surface and depth 20-micron filters are filter elements. In this case, they are responsible for retaining the contamination present in oils and fluids. What makes the depth filter different from the surface filter is its ability to “capture” particles of different sizes and the way they do it.
Deep ones manage to reach the smallest and microscopic particles, which are the ones that most harm the systems and keep them inside the filter. Depth filters come up of a random network of microfibers with very small particle sizes. Filtration takes place not just at the surface, but at depth through the entire media.
Surface filters, of 20-micron filter, are as the name implies, accommodate and conserve particles only on their surface. This presents less storage space for contamination, saturating faster. Moreover, it allows part of the contamination to pass along with the fluid.
They usually retain solid and liquid contamination with high quality and efficiency in smaller particulates (the ones that cause the most problems for the equipment).