What are high carbon steel's properties?
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Steel is considered to be carbon steel when:
no minimum content is specified or required for chromium, cobalt, molybdenum, nickel, niobium, titanium, tungsten, vanadium or zirconium, or any other element to be added to obtain a desired alloying effect;
the specified minimum for copper does not exceed 0.40 percent;
or the maximum content specified for any of the following elements does not exceed the percentages noted: manganese 1.65, silicon 0.60, copper0.60.
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no minimum content is specified or required for chromium, cobalt, molybdenum, nickel, niobium, titanium, tungsten, vanadium or zirconium, or any other element to be added to obtain a desired alloying effect;
the specified minimum for copper does not exceed 0.40 percent;
or the maximum content specified for any of the following elements does not exceed the percentages noted: manganese 1.65, silicon 0.60, copper0.60.
PLEASE MARK MY ANSWER AS A BRAINLIEST.
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By and large, the high carbon steels contain from 0.60 to 1.00% C with manganese substance going from 0.30 to 0.90%.
The pearlite has a fine structure, which makes the steel hard. Lamentably this likewise makes the steel very weak and significantly less flexible than mellow steel.
Medium and high carbon steels are broadly utilized in numerous regular applications. Expanding carbon as the essential combination for the higher quality and hardness of steels is normally the most sparing way to deal with enhanced execution. In any case, a portion of the impacts of raised carbon levels incorporate diminished weldability, flexibility and effect strength. At the point when these diminished properties can be endured, the expanded quality and hardness of the higher carbon materials can be utilized to a critical preferred standpoint. Basic utilizations of higher carbon steels incorporate producing grades, rail steels, spring steels (both level rolled and round), pre-focused on solid, wire rope, tire fortification, wear safe steels (plates and forgings), and high quality bars.
The pearlite has a fine structure, which makes the steel hard. Lamentably this likewise makes the steel very weak and significantly less flexible than mellow steel.
Medium and high carbon steels are broadly utilized in numerous regular applications. Expanding carbon as the essential combination for the higher quality and hardness of steels is normally the most sparing way to deal with enhanced execution. In any case, a portion of the impacts of raised carbon levels incorporate diminished weldability, flexibility and effect strength. At the point when these diminished properties can be endured, the expanded quality and hardness of the higher carbon materials can be utilized to a critical preferred standpoint. Basic utilizations of higher carbon steels incorporate producing grades, rail steels, spring steels (both level rolled and round), pre-focused on solid, wire rope, tire fortification, wear safe steels (plates and forgings), and high quality bars.
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