Question

An orthotropic material is a special class of anisotropic material, which is described by their properties in three perpendicular directions. An example of orthotropic material is

a.

stainless steel

b.

cast iron

c.

wood

d.

teflon

Answer: (c).wood

Interact with the Community - Share Your Thoughts

Uncertain About the Answer? Seek Clarification Here.

Understand the Explanation? Include it Here.

Q. An orthotropic material is a special class of anisotropic material, which is described by their properties in three perpendicular directions. An example of orthotropic material is

Similar Questions

Explore Relevant Multiple Choice Questions (MCQs)

Q. pH value of rain water in India ranges from

Q. The capital & running costs of similar machines having unequal service life can be compared by the __________ method.

Q. Pick the odd man out.

Q. The speed of sound will be maximum in

Q. In case of water (Prandtl number ≈ 6) flowing over a flat plate heated over the entire length, the thermal boundary layer thickness as compared to hydrodynamic boundary layer thickness is

Q. __________ number is sometimes used in place of Grashoff number in free convection heat transfer.

Q. Wrought iron does not have the

Q. Hoope's cell is predominantly used for the electrolytic refining of

Q. Lead percentage in pure galena is about

Q. Pick out the wrong statement.

Q. The life of a ball bearing is inversely proportional to

Q. Pick out the wrong statement.

Q. Nitriding of steel is a process for

Q. The maximum percentage of chromium that can be added to steel is about

Q. Holes in a plate for rivetted joints is preferably made by

Q. The temperature at which a gas, when subjected to Joule-Thomson expansion, neither cools or heats up, is termed as the __________ temperature. Above this temperature the gas heats up on throttling and below this the gas cools down.

Q. Source of heat supply in a cupola is

Q. The term 'Value' in value engineering technique refers to the __________ cost of the product.

Q. Melting point & boiling points of liquid oxygen are respectively - 218.8°C & - 183°C, while the same for liquid nitrogen is - 210°C & - 195.8°C respectively. The difference in melting points of liquid oxygen & liquid nitrogen is not equal to 8.8

Q. The entropy change for a spontaneous process is

Recommended Subjects

Are you eager to expand your knowledge beyond Basic Chemical Engineering? We've handpicked a range of related categories that you might find intriguing.

Click on the categories below to discover a wealth of MCQs and enrich your understanding of various subjects. Happy exploring!