Is there a time dependent strain condition when a material is under stress (alloy steel 4140 Q&T) that could cause permanent strain increase over time at ambient temperature?
I have a collet that is collapsed into a sleeve ID under very high bending stress for the material. After 1 year the collets were pulled and the OD did not return to their pre-stress diameters. They had experienced permanent strain as much as 7%. The OD of flared Collet Fingers were 4.813 and collapsed into a 4.335 ID (see pic). The OD after removing from Sleeve ranged from 4.463 to 4.803 over 11 parts. This was discovered after disassembling tools that had been in inventory for over 1 year.
I looked at Creep but that only occurs with temperature. Is there a time dependent deformation under stress that could cause these parts to undergo permanent strain? Fatigue should not be an issue as the parts are on the shelf.
Any help would be appreciated. Thanks.
- CJ
I have a collet that is collapsed into a sleeve ID under very high bending stress for the material. After 1 year the collets were pulled and the OD did not return to their pre-stress diameters. They had experienced permanent strain as much as 7%. The OD of flared Collet Fingers were 4.813 and collapsed into a 4.335 ID (see pic). The OD after removing from Sleeve ranged from 4.463 to 4.803 over 11 parts. This was discovered after disassembling tools that had been in inventory for over 1 year.
I looked at Creep but that only occurs with temperature. Is there a time dependent deformation under stress that could cause these parts to undergo permanent strain? Fatigue should not be an issue as the parts are on the shelf.
Any help would be appreciated. Thanks.
- CJ