Mechanical Engineering - Engineering Materials - Discussion
Discussion Forum : Engineering Materials - Section 3 (Q.No. 22)
22.
In low carbon steels, __________ raises the yield point and improves the resistance to atmospheric corrosion.
Discussion:
3 comments Page 1 of 1.
Mohit Kumar said:
7 years ago
how to improve atmospheric corrosion
Koushik said:
5 years ago
What about in high carbon steels?
Nvk said:
1 year ago
The correct answer is manganese.
Manganese (Mn) raises the yield point and improves the resistance to atmospheric corrosion in low carbon steels. Manganese:
1. Acts as a strengthening agent, increasing the yield point.
2. Forms a protective oxide layer on the surface, reducing corrosion.
3. Enhances the steel's ability to resist oxidation and scaling at high temperatures.
4. Improves the steel's toughness and ductility.
Silicon (Si) also has a positive effect on steel, but it is more effective in high-temperature applications.
The other options are not accurate:
- Sulphur (S) and phosphorus (P) are typically considered impurities in steel and can:
- Embrittle the steel.
- Reduce its ductility and toughness.
- Increase its susceptibility to corrosion.
So, the specific effect of manganese on low carbon steels can vary depending on the steel composition, processing history, and testing conditions. However, in general, manganese is known to improve the yield point and corrosion resistance of low carbon steels.
Manganese (Mn) raises the yield point and improves the resistance to atmospheric corrosion in low carbon steels. Manganese:
1. Acts as a strengthening agent, increasing the yield point.
2. Forms a protective oxide layer on the surface, reducing corrosion.
3. Enhances the steel's ability to resist oxidation and scaling at high temperatures.
4. Improves the steel's toughness and ductility.
Silicon (Si) also has a positive effect on steel, but it is more effective in high-temperature applications.
The other options are not accurate:
- Sulphur (S) and phosphorus (P) are typically considered impurities in steel and can:
- Embrittle the steel.
- Reduce its ductility and toughness.
- Increase its susceptibility to corrosion.
So, the specific effect of manganese on low carbon steels can vary depending on the steel composition, processing history, and testing conditions. However, in general, manganese is known to improve the yield point and corrosion resistance of low carbon steels.
Post your comments here:
Quick links
Quantitative Aptitude
Verbal (English)
Reasoning
Programming
Interview
Placement Papers