The essential engineering properties of ceramics are that they have an ability to withstand high temperatures and retain their high strength and rigidity. Ceramics also offer electrical and insulating properties.
Traditional ceramics include clay products, silicate glass and cement.Advanced ceramics consist of carbides (SiC), pure oxides (Al2O3), nitrides (Si3N4), non-silicate glasses and many others. Both are valued for their abrasion resistance, and hence find use in applications such as the wear plates of crushing equipment in mining operations. Advanced ceramics are also used in the medicine, electrical and electronics industries. Advanced ceramics are also referred to as "special," "technical," or "engineering" ceramics. They exhibit superior mechanical properties, corrosion/oxidation resistance, or electrical, optical, and/or magnetic properties.
Sedimentary rocks are often used as building materials in construction and engineering. The most common type of sedimentary rock is limestone.
Grow Island Regular Ending 1. Mechanical Engineering - Bolt 2. Civil Engineering - Pick Axe 3. Architecture - Logs 4. Aeronautics, Marine, Automotive Engineering - Steering Wheel 5. Environmental Engineering - Smokestack 6. Electrical Engineering - Battery 7. Computer Science - Chip 8. Applied Chemistry - Burner/Candle U.F.O Ending 1. Aeronautics, Marine, Automotive Engineering - Steering Wheel 2. Civil Engineering - Pick Axe 3. Architecture - Logs 4. Computer Science - Chip 5. Electrical Engineering - Battery 6. Mechanical Engineering - Bolt 7. Applied Chemistry - Burner/Candle 8. Environmental Engineering - Smokestack
Many ceramics are known; they have not a chemical symbol but a chemical formula; and sometimes they are mixtures.
The materials used to manufacture ceramics are naturally occurring. These naturally occurring materials include silica, sand, quartz, flint, silicates, and aluminosilicates.
importance of weathering in civil engineering
what the importance of studying in theorem Bernoulli in civil engineering
importance of sedimentary rocks as applied to civil engineering
Surveys in civil engineering are important for gathering data on land features, existing structures, and utilities to assist in the planning and design of projects. They help engineers understand the geographical context, topography, and boundaries of a site, enabling more accurate and efficient decision-making during the design and construction phases. Survey data also helps to ensure compliance with regulations and standards, and can be crucial for evaluating potential risks and environmental impacts.
Civil engineering relies on engineering geology, and engineer geology is man's role in civil engineering. He provides information for civil engineering and his works, such as building roads, and so on, and provides information on the earth's bearing capacity.
remote sensing
because u can determine if the structure will be stable or not
use as aggregate in concrete technology
ah question yantra pichana kodaka
It represents the strength against bending (but not exactly!)
The house you are staying, the road on which you travel, are all just minor parts of civil engineering; you can now imagine its importance in economy. It is the driver of economy.
dynamics is basically subject which is more useful in mechanical engg but nowadays when earthquake design of building has gained importance, we, the civil engineers use the dynamic study for the structures to get help regarding earthquake design