Add to ORKGElectric arc furnace steel contains about 70-120 ppm nitrogen. There is no suitable method for nitrogen removal from electric arc furnace steel up to the level desired for good quality bars and flat rolled products (30 ppm max). The existing process based on vacuum degassing can remove only up to 20% of nitrogen in steel. In the present study DRI fines have been injected into a steel bath which can drift out nitrogen in steel through production of fine CO bubbles in-situ on reaction with residual FeO in DRI fines and C in bath. For high and medium carbon steel, nitrogen got reduced to 30 ppm and 60 ppm respectively where initial nitrogen was 150 - 200 ppm in steel. Nitrogen removal also depends upon bath depth and addition level of DRI
The nitrogen content of electric arc furnace (EAF) steel is much higher than that of basic oxygen fu...
The nitrogen belongs to elements which have significant impact in steel mechanical properties. The i...
The impending change of processes at SSAB Oxelösund due to the HYBRIT project, where the blast furna...
Nitrogen is difficult to remove in electric arc furnace (EAF) steelmaking, requiring the use of more...
High grade steels, particularly in flat products are associated with low levels of dissolved nitroge...
MasterTypical nitrogen level in molten steel before tapping in Electric Arc Furnace (EAF) is approxi...
Nickel is a major alloying element in stainless steel which is added to stabilise the austenite but ...
Nitrogen Elevating and Reducing Method (NERM) is a new technology developed to remove inclusions and...
Nitrogen Elevating and Reducing Method (NERM) is a new technology developed to remove inclusions and...
Nitrogen is universally present in all steels, and although its solubility under normal steelmaking ...
Nitrogen is an element with both positive and negative effects on the properties of carbon steel and...
Nitrogen is an element with both positive and negative effects on the properties of carbon steel and...
Nitrogen is an element with both positive and negative effects on the properties of carbon steel and...
Nitrogen was first used as the base gas for treating and annealing semifinished products of steel. S...
The nitrogen content of electric arc furnace (EAF) steel is much higher than that of basic oxygen fu...
The nitrogen content of electric arc furnace (EAF) steel is much higher than that of basic oxygen fu...
The nitrogen belongs to elements which have significant impact in steel mechanical properties. The i...
The impending change of processes at SSAB Oxelösund due to the HYBRIT project, where the blast furna...
Nitrogen is difficult to remove in electric arc furnace (EAF) steelmaking, requiring the use of more...
High grade steels, particularly in flat products are associated with low levels of dissolved nitroge...
MasterTypical nitrogen level in molten steel before tapping in Electric Arc Furnace (EAF) is approxi...
Nickel is a major alloying element in stainless steel which is added to stabilise the austenite but ...
Nitrogen Elevating and Reducing Method (NERM) is a new technology developed to remove inclusions and...
Nitrogen Elevating and Reducing Method (NERM) is a new technology developed to remove inclusions and...
Nitrogen is universally present in all steels, and although its solubility under normal steelmaking ...
Nitrogen is an element with both positive and negative effects on the properties of carbon steel and...
Nitrogen is an element with both positive and negative effects on the properties of carbon steel and...
Nitrogen is an element with both positive and negative effects on the properties of carbon steel and...
Nitrogen was first used as the base gas for treating and annealing semifinished products of steel. S...
The nitrogen content of electric arc furnace (EAF) steel is much higher than that of basic oxygen fu...
The nitrogen content of electric arc furnace (EAF) steel is much higher than that of basic oxygen fu...
The nitrogen belongs to elements which have significant impact in steel mechanical properties. The i...
The impending change of processes at SSAB Oxelösund due to the HYBRIT project, where the blast furna...