Hello all,
I was reading eng-tips for serveral years and it helped me to find solutions for many problems. Now I have a problem with fatigue in the counterbore holes in the FEA, so I will be happy to hear your comments about it.
I am analysing 6061-t6 aluminium frame with the heavy loaded bolted connections (counterbore holes, variation of mean stress in hi-ten bolts is close to the limit of +/-5%). Fatigue life of the frame is about 1e8 cycles @ reversible bending loads. It is not fatigue tolerant structure, as no one will inspect it for the next 25 years.
At the moment I see three things, refer to the attached images:
1) the std. counterbore holes with small fillets (~0.2-0.4mm) fail in fatigue due to the high stress range in the fillets. The calculated Miner's sum is as high as 10+ for the given histogram of the alternating loads.
2) another observation reveals high tensile mean stress (~80% of Sy) in the fillets once hi-ten bolts are torqued up. So, once I apply mean stress correction, the Miner's sum in the fillet becomes even higher.
3) the counter-bore holes with larger fillets (5mm or more) provide adequate fatigue, showing Miner's sum of 0.3-0.5, which is acceptable for design. The disadvantage of this solution is that it requires extensive milling of the counter-bore holes in order to get nice & large fillet.
Has anyone experienced similar problems with counterbore holes? Any comments?
Thanks,
AlexK
Sr. Mechanical Engineer
VIM AUSTRALIA
MARINE ENGINEERING
I was reading eng-tips for serveral years and it helped me to find solutions for many problems. Now I have a problem with fatigue in the counterbore holes in the FEA, so I will be happy to hear your comments about it.
I am analysing 6061-t6 aluminium frame with the heavy loaded bolted connections (counterbore holes, variation of mean stress in hi-ten bolts is close to the limit of +/-5%). Fatigue life of the frame is about 1e8 cycles @ reversible bending loads. It is not fatigue tolerant structure, as no one will inspect it for the next 25 years.
At the moment I see three things, refer to the attached images:
1) the std. counterbore holes with small fillets (~0.2-0.4mm) fail in fatigue due to the high stress range in the fillets. The calculated Miner's sum is as high as 10+ for the given histogram of the alternating loads.
2) another observation reveals high tensile mean stress (~80% of Sy) in the fillets once hi-ten bolts are torqued up. So, once I apply mean stress correction, the Miner's sum in the fillet becomes even higher.
3) the counter-bore holes with larger fillets (5mm or more) provide adequate fatigue, showing Miner's sum of 0.3-0.5, which is acceptable for design. The disadvantage of this solution is that it requires extensive milling of the counter-bore holes in order to get nice & large fillet.
Has anyone experienced similar problems with counterbore holes? Any comments?
Thanks,
AlexK
Sr. Mechanical Engineer
VIM AUSTRALIA
MARINE ENGINEERING