Carbon - present in all carbon steel acoustic tubes, is the most stressful hardening element. Contributing to the growth of the strength of carbon steel sounding tubes, we usually expect that the additional carbon steel sound tubes in the tool grade will have more than 0.5% carbon and become high carbon steels.
Chromium - Increased abrasion resistance, hardness, and most resistance to corrosion, with more than 13% considered stainless steel. Just call it, if the nursed back to health is not right, all the carbon steel acoustic pipe rusting.
Manganese - A stressful element that contributes to the natural texture layout, increased firmness, strength, and abrasion resistance. During the heat disposal penalty and coiling history, the inside of the carbon steel acoustic tube was deoxygenated, and most of today's carbon steel sounding tubes for cutting are used except for A-2, L-6 and CPM 420V.
Molybdenum - A carbonized agent that protects carbon steel acoustic tubes from brittleness and bonds the strength of carbon steel acoustic tubes at high temperatures. Nowadays in many carbon steel acoustic tubes, atmosphere hardening steels (such as A-2, ATS). -34) always include 1% more molybdenum, so that they can harden in the atmosphere.
Nickle - Bond strength, corrosion resistance, and toughness. It appears in L-6\AUS-6 and AUS-8.
Silicon - Helps increase strength. Like manganese, silicon is used to bond the strength of carbon steel acoustic tubes during the production process of steel.
Tungsten - Strengthens abrasion resistance. Tungsten and the appropriate ratio of chromium or manganese are used to make high speed steel. High-speed steel M-2 contains a large amount of tungsten.
Vanadium - Strengthens abrasion resistance and ductility. A vanadium carbide is used to make stripe steel. Vanadium is present in many types of carbon steel sounding tubes. M-2, Vascowear, CPM T440V and 420VA contain a large amount of vanadium. The biggest difference between BG-42 and ATS-34 is that the former contains vanadium.
Chromium - Increased abrasion resistance, hardness, and most resistance to corrosion, with more than 13% considered stainless steel. Just call it, if the nursed back to health is not right, all the carbon steel acoustic pipe rusting.
Manganese - A stressful element that contributes to the natural texture layout, increased firmness, strength, and abrasion resistance. During the heat disposal penalty and coiling history, the inside of the carbon steel acoustic tube was deoxygenated, and most of today's carbon steel sounding tubes for cutting are used except for A-2, L-6 and CPM 420V.
Molybdenum - A carbonized agent that protects carbon steel acoustic tubes from brittleness and bonds the strength of carbon steel acoustic tubes at high temperatures. Nowadays in many carbon steel acoustic tubes, atmosphere hardening steels (such as A-2, ATS). -34) always include 1% more molybdenum, so that they can harden in the atmosphere.
Nickle - Bond strength, corrosion resistance, and toughness. It appears in L-6\AUS-6 and AUS-8.
Silicon - Helps increase strength. Like manganese, silicon is used to bond the strength of carbon steel acoustic tubes during the production process of steel.
Tungsten - Strengthens abrasion resistance. Tungsten and the appropriate ratio of chromium or manganese are used to make high speed steel. High-speed steel M-2 contains a large amount of tungsten.
Vanadium - Strengthens abrasion resistance and ductility. A vanadium carbide is used to make stripe steel. Vanadium is present in many types of carbon steel sounding tubes. M-2, Vascowear, CPM T440V and 420VA contain a large amount of vanadium. The biggest difference between BG-42 and ATS-34 is that the former contains vanadium.
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