Mannesmann A106 pipes or seamless carbon steel pipes have been widely used in industry and are mainly used in places that are in contact with high heat, such as compression stations and refineries.
The silicon in Mannesmann pipes increases the performance of this steel pipe in high temperature environments, such as steam lines and processing operations.
Seamless pipe A106 (Mannesmann pipe) is one of the widest variety of pipes available in industry. Fortunately, in the field of production of this type of alloy pipes, there are several factories in the country, and they have the ability to provide different diameters and materials of seamless pipes.
A106 pipes are suitable for welding, bending and ductility operations.
Pipe A192
Mannesmann A106 pipe is suitable for use in high temperatures, but it can be noted that the A192 pipe has a higher thermal power than the A106 pipe.
Seamless pipe A106, has significant welding capability and ductility, and is also suitable for making flanges.
The maximum carbon percentages in Manismann pipes A106 Gr A, A106 Gr B, A106 Gr C are 0.25, 0.30 and 0.35%, respectively.
Mannesmann pipe A106 pipe A192 – seamless pipe A106 – pipe A106
A106 pipes are produced and offered with lengths of 6 and 12 meters, and as the thickness of these pipes increases (according to the category), their weight will increase. To calculate the weight of your items, you can refer to the weight calculation section on the site.
Manisman pipes in the category of 40-80, are produced from 1/8 inch to 48 inches in diameter and are available in the market.
Manisman seamless pipe applications
Application in various industries including; Compression stations and refineries, high temperature environments such as steam lines as well as welding, ductility and flange fabrication are well suited.
The most common use of Manisman A106 pipe is in refineries and in conditions where gases and liquids are transported inside the pipe with high pressure and heat.
The table below shows the chemical composition of the different domes of Manismann pipes.
Chemical composition of Mannesmann pipes
| Grade C | Grade B | Grade A | |
| 0,35 | 0,3 | 0,25 | % Carbon, max |
| 0,29 to 1,06 | 0,2 to 1,06 | 0,27 to 0,93 | % Manganese |
| 0,035 | 0,035 | 0,035 | % Phosphorous, max |
| 0,035 | 0,035 | 0,035 | % Sulfur, max |
| 0,1 | 0,1 | 0,1 | % Silicon, min |
| 0,4 | 0,4 | 0,4 | %Chrome, max |
| 0,4 | 0,4 | 0,4 | % Copper, max |
| 0,15 | 0,15 | 0,15 | % Molybdenum, max |
| 0,4 | 0,4 | 0,4 | % Nickel, max |
| 0,08 | 0,08 | 0,08 | % Vanadium, max |