The sintered wire mesh is made of overlapping multiple stainless steel braided meshes of the same type or different ones, which are made by repeated pressure, rolling, and repeated vacuum sintering at 1260°C, followed by diffusion and solid solution. It has strong mechanical strength. strength and overall rigidity.
There are lots of applications for stainless steel sintered mesh, in our life, it can be used as a filter element in various industries to screen, filter and separate. It is also used as a dispersed cooling material in various high-temperature environments, and has the advantages of high precision, high temperature resistance and corrosion resistance. What is more, it can also be used as a material for gas distribution and fluidized bed orifice. Stainless steel has many advantages, such as a wide range of operating temperatures and high temperature resistance, good secondary processing, welding and assembly performance. Compared with the powder filter, the sintered mesh has a higher filtration accuracy. For example, the micron of powder filter is 0.2-120μm, and the sintered mesh filter can be 1-1000 μm.
With the questionaire in hand, we can begin to determine a solution. The following passage helps to illustrate the application of these varied solutions. This passage is intended as a guide only and is not absolute. Experience plays a big part in selecting a proper filtration system. It is important when the situation is complicated to consult an experienced filtration expert. The recommendations should be both effective for the desired filtration and cost effective. Ultimately, secondary filtration is an investment and must provide sufficient return on the investment.
Media Based Filtration - This is the mostcommon application used for secondary filtration. Utilizes either full flow or depth filtration to purify the oil. They are very simple to operate and maintain. The media based filtration can be divided into two types, the depth media and the full flow media.
In the last article, we have discussed why the oil industry need the filtration process. There are two types of the depth filtration ,the direct flow filtration filter and the axial flow filter. In the later passage, we are gonna introduce the axial flow depth filter. The axial flow depth filter use
When you see this question, the answer is seemingly simple. Of course the filtration process is designed to remove the impurities and the particle from the oil. However, there are many different products exist in the marketplace and the name of these products may be varied in the different area. Thus it would confuse some of us or the oil process may be oversimplify in order to cut through the confusion.
There are many types of the sintered wire mesh, but which type of sintered wire mesh filter can fit your case. When you are purchasing the sintered filter, you should take some points into consideration, like the flow rate, the particle retention, operating fluid. When the fuel filters and hydraulic fluid filters are use in the special industry, like the aerospace, defense, and marine, the filter design should pay more attention to the filter practical use. Here are some points that relate to the usage of the sintered metal filter.
Basically, the sintered wire mesh is a porous panel, which consist of multiple layers of metal meshes. The combination of the sintered wire mesh are quite different, there maybe will be the perforated metal mesh or the woven wire mesh.
Hebei Sinter Filter Technic Co.,Ltd is the professional manufacturer which specializes in producing the stainless steel sinterer wire mesh and other filter elements. We have 4 different types of sintered wire mesh filter, each of them has the different combination of different weave type of wire meshes. And we offer the sintered filter and the filter disc.
Sintered wire mesh are consist of more than one layer woven wire mesh. The layers of woven wire mesh will be sintered in the vacuum space. The single layer of the wire mesh will be rolled flattened uniformly, in the meanwhile the experienced will ensure the different layer are contact firmly at the cross over points.