A Method of Determining the Springback Angle of Pipe NC Bending
A bending springback, pipe technology, applied in electrical digital data processing, special data processing applications, instruments, etc., can solve the problems of elastic deformation components can not be fully recovered, errors, etc., to improve the springback prediction accuracy and springback prediction accuracy improved effect
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Embodiment 1
[0073] This embodiment is a method for calculating the springback angle of pipes in numerically controlled bending. In this embodiment, the curved pipe is made of TA18 titanium alloy, the outer diameter D is 6mm, and the initial wall thickness is t 0 is 0.6mm, the bending radius ρ is 18mm, the bending angle θ before springback is 90゜, and the initial elastic modulus E 0 is 97541MPa, the stable value E of elastic modulus with plastic deformation a It is 94215MPa, the coefficient ξ is -97.45, Poisson's ratio ν is 0.3, the strengthening coefficient K is 1038.9, the hardening exponent n is 0.093, and the material constant b is -0.0040.
[0074] The calculation of the bending springback angle is realized through the following steps, and the specific process is:
[0075] Step 1, determine the stress / strain neutral layer offset D e and the strain ε at the yield point s :
[0076] The stress neutral layer refers to the middle layer where the axial stress on the bending section is...
Embodiment 2
[0149] This embodiment is a method for calculating the springback angle of pipes in numerically controlled bending. In this embodiment, the curved pipe is made of TA18 titanium alloy, the outer diameter D is 12mm, and the initial wall thickness t 0 is 0.9mm, the bending radius ρ is 24mm, the bending angle θ before springback is 120゜, and the initial elastic modulus E 0 is 100380MPa, the stable value E of elastic modulus with plastic deformation a It is 94109MPa, the coefficient ξ is -59.08, Poisson's ratio ν is 0.291, the strengthening coefficient K is 1326.5, the hardening exponent n is 0.070, and the material constant b is -0.0006.
[0150] The calculation of the bending springback angle is realized through the following steps, and the specific process is:
[0151] Step 1, determine the stress / strain neutral layer offset D e and the strain ε at the yield point s :
[0152] The stress neutral layer refers to the middle layer where the axial stress on the bending section ...
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