All steel contains iron, but it also contains carbon. The addition of carbon is what distinguishes iron from steel. ... Although that's a relatively small amount of carbon, it results in significant physical changes. Steel, for example, is both harder and stronger than pure iron.
All steel contains iron, but it also contains carbon. The addition of carbon is what distinguishes iron from steel. ... Although that's a relatively small amount of carbon, it results in significant physical changes. Steel, for example, is both harder and stronger than pure iron
Explanation:
Steel is stronger than iron, because an excess of carbon in iron and pig iron makes it weaker than steel. The quantity of carbon is very tightly controlled in steel. It is about 0.8 percent carbon, just the right amount to give it intramolecular strength. When compared to pure iron, though, steel is roughly 1,000 times stronger.
Answers & Comments
Answer:
All steel contains iron, but it also contains carbon. The addition of carbon is what distinguishes iron from steel. ... Although that's a relatively small amount of carbon, it results in significant physical changes. Steel, for example, is both harder and stronger than pure iron.
Explanation:
Answer:
All steel contains iron, but it also contains carbon. The addition of carbon is what distinguishes iron from steel. ... Although that's a relatively small amount of carbon, it results in significant physical changes. Steel, for example, is both harder and stronger than pure iron
Explanation:
Steel is stronger than iron, because an excess of carbon in iron and pig iron makes it weaker than steel. The quantity of carbon is very tightly controlled in steel. It is about 0.8 percent carbon, just the right amount to give it intramolecular strength. When compared to pure iron, though, steel is roughly 1,000 times stronger.
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