1 / 17

PHYSICS 231 Lecture 21: Some material science

PHYSICS 231 Lecture 21: Some material science. Remco Zegers Walk-in hour: Thursday 11:30-13:30 am Helproom. liquid. solid. gas. States of matter. Phase transformations. solids. ordered. crystalline. amorphous. The deformation of solids.

thad
Download Presentation

PHYSICS 231 Lecture 21: Some material science

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. PHYSICS 231Lecture 21: Some material science Remco Zegers Walk-in hour: Thursday 11:30-13:30 am Helproom liquid solid gas PHY 231

  2. States of matter PHY 231

  3. Phase transformations PHY 231

  4. solids ordered crystalline amorphous PHY 231

  5. The deformation of solids • Stress: Tells something about the force causing the • deformation • Strain: Measure of the degree of deformation • For small stress, strain and stress are linearly correlated. • Strain = Constant*Stress • Constant: elastic modulus • The elastic modulus depends on: • Material that is deformed • Type of deformation (a different modulus is defined for • different types of deformations) PHY 231

  6. The Young’s modulus Beyond the elastic limit an object is permanently deformed (it does not return to its original shape if the stress is removed). PHY 231

  7. R=0.5 m L0=5m Y=1.0E+10 Pa M=1.0E+04 kg L=6.2E-05 m example An architect wants to design a 5m high circular pillar with a radius of 0.5 m that holds a bronze statue that weighs 1.0E+04 kg. He chooses concrete for the material of the pillar (Y=1.0E+10 Pa). How much does the pillar compress? 5m PHY 231

  8. Ultimate strength Ultimate strength: maximum force per unit area a material can withstand before it breaks or fractures. Different for compression and tension. PHY 231

  9. example A builder is stacking 1 m3 cubic concrete blocks. Each blocks weighs 5E+03 kg. The ultimate strength of concrete for compression is 2E+07 Pa. How many blocks can he stack before the lowest block is crushed? The force on the low end of the lowest block is: F=Nmblockg. N: total number of blocks mblock=mass of one block g=9.81 m/s2 Ultimate strength: 2E+07=F/A =Nmblockg/1 N=408 blocks. PHY 231

  10. The Shear Modulus x PHY 231

  11. F/A=4.5E+09 Pa Moving earth crust 100 m 30 m A tectonic plate in the lower crust (100 m deep) of the earth is shifted during an earthquake by 30m. What is the shear stress involved, if the upper layer of the earth does not move? (S=1.5E+10 Pa) PHY 231

  12. Bulk Modulus Compressibility: 1/(Bulk modulus) PHY 231

  13. V/V0=0.01 so, F/A=2.1E+07 Pa !!! example What force per unit area needs to be applied to compress 1 m3 water by 1%? (B=0.21E+10 Pa) PHY 231

  14. Some typical elastic moduli PHY 231

  15. Density PHY 231

  16. Pressure Pressure=F/A (N/m2=Pa) Same Force, different pressure PHY 231

  17. example A nail is driven into a piece of wood with a force of 700N. What is the pressure on the wood if Anail=1 mm2? A person (weighing 700 N) is lying on a bed of such nails (his body covers 1000 nails). What is the pressure exerted by each of the nails? Pnail=F/Anail=700N/1E-06m2=7E+08 Pa Pperson=F/(1000Anail)=700/1E-03= 7E+05 Pa (about 7 times the atmospheric pressure). PHY 231

More Related