whydoikeepasking
Structural
Hi, I've been reading up on Robert Mast's PCI article on long span girder stability during lifting and transportation. It is also printed in PCI Design manual chapter 8.10
He defines lateral moment, M_lat as top corner of flange to reach tentile rupture, and takes ratio of that to the moment caused by self weight at harping point relating it to small angle theory and calculates maximum angle of tilt when cracking occurs.
If I need to take wind load effect into account, the lateral moment caused by the wind should be subtracted giving lower cracking angle?
I'm dealing with tall (8ft) and long (190+ ft) girder, and lateral moment due to wind is larger than M_lat to cause rupture at top flange corner meaning even without consideration of girder sweep, girder is already cracked.
Also, I've seen that to size up temporary brace at midspan, 2% of compressive force in flange is used. If we are dealing with prestressed girder, shouldn't I account for compression and tension due to prestressing tendon and their eccentricity?
I just wanted to verify this.
Thank you very much in advance.
He defines lateral moment, M_lat as top corner of flange to reach tentile rupture, and takes ratio of that to the moment caused by self weight at harping point relating it to small angle theory and calculates maximum angle of tilt when cracking occurs.
If I need to take wind load effect into account, the lateral moment caused by the wind should be subtracted giving lower cracking angle?
I'm dealing with tall (8ft) and long (190+ ft) girder, and lateral moment due to wind is larger than M_lat to cause rupture at top flange corner meaning even without consideration of girder sweep, girder is already cracked.
Also, I've seen that to size up temporary brace at midspan, 2% of compressive force in flange is used. If we are dealing with prestressed girder, shouldn't I account for compression and tension due to prestressing tendon and their eccentricity?
I just wanted to verify this.
Thank you very much in advance.