Question 4. The following data are available from orthogonal cutting experiments. The depth of cut (feed) to = 0.13 mm, width of cut b = 2.5 mm, rake angle a = - 5°, and cutting speed V = 2 m/s. Chip thickness, te (mm) = 0.23 Cutting force, F. (N) = 430 Thrust force, F; (N) = 280 Determine the shear angle O, friction coefficient µ , shear stress t , shear strain y on the shear plane, chip velocity Ve, and shear velocity Vs, as well as energies uf ,us, and u
Question 4. The following data are available from orthogonal cutting experiments. The depth of cut (feed) to = 0.13 mm, width of cut b = 2.5 mm, rake angle a = - 5°, and cutting speed V = 2 m/s. Chip thickness, te (mm) = 0.23 Cutting force, F. (N) = 430 Thrust force, F; (N) = 280 Determine the shear angle O, friction coefficient µ , shear stress t , shear strain y on the shear plane, chip velocity Ve, and shear velocity Vs, as well as energies uf ,us, and u
Elements Of Electromagnetics
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![Question 4. The following data are available from orthogonal cutting experiments. The depth of
cut (feed) to = 0.13 mm, width of cut b = 2.5 mm, rake angle a = - 5°, and cutting speed V = 2
m/s.
Chip thickness, t. (mm) = 0.23
Cutting force, F. (N) = 430
Thrust force, F; (N) = 280
Determine the shear angle ð, friction coefficient u , shear stress t, shear strain y on the shear
plane, chip velocity Ve, and shear velocity Vs, as well as energies uf ,Ug, and u](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F93639c73-03a7-4db8-8ce0-1c2ee28ad115%2F3e5a4767-eda9-4057-9043-c57c8a01c66f%2Fbye2kqq_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question 4. The following data are available from orthogonal cutting experiments. The depth of
cut (feed) to = 0.13 mm, width of cut b = 2.5 mm, rake angle a = - 5°, and cutting speed V = 2
m/s.
Chip thickness, t. (mm) = 0.23
Cutting force, F. (N) = 430
Thrust force, F; (N) = 280
Determine the shear angle ð, friction coefficient u , shear stress t, shear strain y on the shear
plane, chip velocity Ve, and shear velocity Vs, as well as energies uf ,Ug, and u
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