A three-point bending test is conducted on a cylindrical specimen of aluminum oxide (E-400 GP2, Kım4 MPavm). This specimen has a surfece creck of P um (unit in pm) deep at tensile face where the maximum tensile stress occurs. If the specimen radius is 5.0 mm and the support point separation distance is 30.0 mm, predict whether or not you would expect the specimen to fracture when a load of 1000 N is applied?

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A three-point bending test is conducted on a cylindrical specimen of aluminum oxide (E=400
GPa, Kıc=4 MPavm). This specimen has a surface crack of P um (unit in um) deep at tensile
face where the maximum tensile stress occurs. If the specimen radius is 5.0 mm and the support
point separation distance is 50.0 mm, predict whether or not you would expect the specimen to
fracture when a load of 1000 N is applied?
Transcribed Image Text:A three-point bending test is conducted on a cylindrical specimen of aluminum oxide (E=400 GPa, Kıc=4 MPavm). This specimen has a surface crack of P um (unit in um) deep at tensile face where the maximum tensile stress occurs. If the specimen radius is 5.0 mm and the support point separation distance is 50.0 mm, predict whether or not you would expect the specimen to fracture when a load of 1000 N is applied?
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