By definition, this is simply the process of introducing Boron, which is a metal, to another metal or alloy, which consists of two metals melted and mixed together. It involves the use of atoms from this metal and the purpose is making the base material to be hard or rather harder than it initially was. This article concerns the process of metal surface hardening via the process of boronizing.
This process makes the materials be able to last up to five times longer than when they were subjected under other types of hardening. This method is also known as boriding and it can be achieved in a number of ways and this includes packing the piece of metal in a boriding mixture and heating it to a temperature of nine hundred degrees Celsius.
One of the most common metals whereby this procedure is applied is in steel. This metal corrodes very fast if not treated in advance. Alloys of nickel can be used during the treatment process and others like aluminum are best avoided because they are not fit to be applied in this process. Steel alloys can also be added to the list of materials used during the treatment phase.
The main objective of carrying out this process is to make the initial metal attain new properties. These include being able to withstand high temperatures and be resistant to wear and tear which is common in most subserviced metals. Strong acids are also not able to corrode them as they used to before. This new strength is the most preferred attribute for these metal surfaces.
Most of the processes which take place in the industries usually require high exposure to heat. Temperatures can go up to more than nine hundred degrees Celsius. This requires that metals to be used are those which are able to withstand a lot of heat and a benefit of this process is that strong metals such as these are created.
The metal surfaces that have undergone the procedure can be applied in the making of agricultural tools, drilling tools among others. This is because in such activities, very strong machinery are required. When these considerations are not put in place, the end math will be the occasional replacing of machinery and machinery parts which is quite a costly affair.
The whole process does not really take a long time as within a period of two hours it is done. The use of laser beams during the procedure is useful in making sure that the properties of the material used at the base remain the same. A high amount of heat should also be ensured for the process to be successful.
To sum up the above, this is a very important process which is supposed to be upheld by all means. Each year, the industries lose a lot of money due to wear and tear of their machinery. They have to incur more expenses buying other equipment and carrying out regular maintenance. This can be avoided by applying this technique which brings about profit instead of losses.
This process makes the materials be able to last up to five times longer than when they were subjected under other types of hardening. This method is also known as boriding and it can be achieved in a number of ways and this includes packing the piece of metal in a boriding mixture and heating it to a temperature of nine hundred degrees Celsius.
One of the most common metals whereby this procedure is applied is in steel. This metal corrodes very fast if not treated in advance. Alloys of nickel can be used during the treatment process and others like aluminum are best avoided because they are not fit to be applied in this process. Steel alloys can also be added to the list of materials used during the treatment phase.
The main objective of carrying out this process is to make the initial metal attain new properties. These include being able to withstand high temperatures and be resistant to wear and tear which is common in most subserviced metals. Strong acids are also not able to corrode them as they used to before. This new strength is the most preferred attribute for these metal surfaces.
Most of the processes which take place in the industries usually require high exposure to heat. Temperatures can go up to more than nine hundred degrees Celsius. This requires that metals to be used are those which are able to withstand a lot of heat and a benefit of this process is that strong metals such as these are created.
The metal surfaces that have undergone the procedure can be applied in the making of agricultural tools, drilling tools among others. This is because in such activities, very strong machinery are required. When these considerations are not put in place, the end math will be the occasional replacing of machinery and machinery parts which is quite a costly affair.
The whole process does not really take a long time as within a period of two hours it is done. The use of laser beams during the procedure is useful in making sure that the properties of the material used at the base remain the same. A high amount of heat should also be ensured for the process to be successful.
To sum up the above, this is a very important process which is supposed to be upheld by all means. Each year, the industries lose a lot of money due to wear and tear of their machinery. They have to incur more expenses buying other equipment and carrying out regular maintenance. This can be avoided by applying this technique which brings about profit instead of losses.
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