Mech Guru

axisymm_tutorial.pdf beam_tutorial.pdf grad_project_fall10.pdf heat_transfer_tutorial.pdf hwset10_ht_vibs.pdf hwset_9_3d.pdf lectures/ outline_fall10.htm plane_stress_tutorial.pdf truss_tutorial.pdf vibrations_tutorial.pdf http://web.cecs.pdx.edu/~hormoz/me455555/

axisymm_tutorial.pdf beam_tutorial.pdf grad_project_fall10.pdf heat_transfer_tutorial.pdf hwset10_ht_vibs.pdf hwset_9_3d.pdf lectures/ outline_fall10.htm plane_stress_tutorial.pdf truss_tutorial.pdf vibrations_tutorial.pdf http://web.cecs.pdx.edu/~hormoz/me455555/

Flexural strength is defined as three points of flexural test. D = 3FL/2bh 3 . D is flexural strength, F is maxmum load, L is distance of fulcrum to fulcrum, b is sample width h is sample thickness. The unit of Young's modulus, flexural modulus and flexural strength is MPa

Flexural strength is defined as three points of flexural test. D = 3FL/2bh 3 . D is flexural strength, F is maxmum load, L is distance of fulcrum to fulcrum, b is sample width h is sample thickness. The unit of Young's modulus, flexural modulus and flexural strength is MPa

Flexural modulus is defined as three points of flexural test. E = L 3 F/4bh 3 Y. E is flexural modulus, L is distance of fulcrum to fulcrum, b is sample width, h is sample thickness, F is load at linear part and Y is flexure at F.

Flexural modulus is defined as three points of flexural test. E = L 3 F/4bh 3 Y. E is flexural modulus, L is distance of fulcrum to fulcrum, b is sample width, h is sample thickness, F is load at linear part and Y is flexure at F.