BS/ EN 10294-1 Alloy Steel Hollow Bar supplier
BS/ EN 10294-1 Alloy Steel Hollow Bar supplier
BS/ EN 10294-1 Alloy Steel Hollow Bar supplier
Just like other grades that have the letter E as a prefix, Grade E355 is a material that is used for machine parts. The number succeeding the letter E denotes the minimum yield strength of the EN 10294-1 Grade E355 pipe. This pipe has a minimum yield strength value of 355. The carbon steel component does not require a heat treatment procedure before being subjected to machining. These components could have an either welded or seamless construction. Generally, most buyers prefer the use of EN 10294-1 Grade E355 Carbon Steel Seamless Hollow Bars as their pressure performance is about 20% much higher than a welded construction.
Moreover, the benefit of using a seamless bar is that there is uniformity across its entire body, and the bar is not prone to failure at the seam weld of a welded bar. The walls of a hollow EN 10294-1 Grade E355K2 bar is much thicker than a pipe. However, in comparison to a regular solid bar, a carbon steel hollow bar not only weighs less, but it also is very economical while offering a solid, uniform and a stable structure. There are several benefits to using an EN 10294-1 Grade E355 Carbon Steel Hollow Bar in operations involved with machines. Their stability, construction, mechanical properties as well as cost makes them worth an investment, especially in the construction industry. Mostly these components are treated to metallurgical surface modification processes, including nitriding or carburizing, whichever process works for the application. Though the processes are similar to each other, the substrate atoms used on the BS/ EN 10294-1 Alloy Steel Hollow Bar are different, i.e. nitriding uses nitrogen gas for diffusion and carburizing makes use of a carbon-rich substrate like charcoal or carbon monoxide.
BS/ EN 10294-1 Alloy Steel Hollow Bar supplier
Just like other grades that have the letter E as a prefix, Grade E355 is a material that is used for machine parts. The number succeeding the letter E denotes the minimum yield strength of the EN 10294-1 Grade E355 pipe. This pipe has a minimum yield strength value of 355. The carbon steel component does not require a heat treatment procedure before being subjected to machining. These components could have an either welded or seamless construction. Generally, most buyers prefer the use of EN 10294-1 Grade E355 Carbon Steel Seamless Hollow Bars as their pressure performance is about 20% much higher than a welded construction.
Moreover, the benefit of using a seamless bar is that there is uniformity across its entire body, and the bar is not prone to failure at the seam weld of a welded bar. The walls of a hollow EN 10294-1 Grade E355K2 bar is much thicker than a pipe. However, in comparison to a regular solid bar, a carbon steel hollow bar not only weighs less, but it also is very economical while offering a solid, uniform and a stable structure. There are several benefits to using an EN 10294-1 Grade E355 Carbon Steel Hollow Bar in operations involved with machines. Their stability, construction, mechanical properties as well as cost makes them worth an investment, especially in the construction industry. Mostly these components are treated to metallurgical surface modification processes, including nitriding or carburizing, whichever process works for the application. Though the processes are similar to each other, the substrate atoms used on the BS/ EN 10294-1 Alloy Steel Hollow Bar are different, i.e. nitriding uses nitrogen gas for diffusion and carburizing makes use of a carbon-rich substrate like charcoal or carbon monoxide.