Recent content by seattlemike

Has anyone seen an approval for a HSS Moment Frame connections as a SMRF? I have seen the standard RBS, WUF-W, WUF-B, etc, etc (although they are not all approved), but I have not seen any discussion of HSS as Special Moment Resisting Frames. Any input? Thank you, SeattleMike

WillisV: Hmm... I thought that the IBC 2003 alternate load cases defered to the material standard for 1/3 increase. AISC 341-05 (steel) strickly forbids the 1/3 increase, but NDS (wood) allows Cd = 1.6, and the MSJC-02 section 2.1.2.3 allows the 1/3 increase. ...except in MSJC-02 2.1.2 it's...

Yes, I heard the rule of thumb was 3 times the slab thicknes... I wasn't sure if there was still a minimum steel requirement... I'd never heard of one... just the better-than-nothing W1.4xW1.4 - 6X6 WWM.

Yep, looks like I will have to get my hands on IBC 2006 as soon as possible to solve all my cases. I have a lot of edge bars and 3500 psi masonry... with both 80% bars and 100% bars... Is the 1/3 increase for Masonry still in IBC 2006 and MSJC-5, aka ACI 530-05/ASCE 5-05/TMS 402-05? Thank you...

WillisV, So where are the minimum requirements for slab-on-grade? Seems like it's just owner/geotech preference? Mike

Hello fellow Structural Engineers, This may be a dumb point, but 6x6 - W1.4xW1.4 WWM comes up woely short of the ACI requirement of 0.0018.... in a 4" slab, WWM = 0.28 sq in/ft, but ACI requires 0.0018*4*12 = 0.0864 sq in/ft. what's that all about? Why does standard Welded Wire Mesh that we...

We are using IBC 2003 and ACI 530-02. Hmmm.. yes, I will see if the ACI 530-05 is available. Thanks Boiler8019!

I agree, seems like #6's are on the out unless you go to couplers... which probably isn't so bad.

Hello fellow structural engineers, Several years ago, I think I went to seminar on the UBC transition to IBC, and it mentioned this problem with Masonry, and I am just now running into it: IN the WSD design method: IBC has an equation for lap splices that overrides ACI 530, and for #5 bars...

Hi UcfSE, Is there a difference between "asphaltic" coating and "bituminous" coating?

Do standard Aluminum structural shapes/alloys have a problem (chemical) with being embedded in concrete? Thank you, SeattleMike

Hello fellow Structural Engineers, I am a licenced and practicing structural engineer in Washington, and I am doing research into lawsuits that have been brought against us for damage due to earthquakes or hurricanes. However, I am having trouble finding any cases where this has happened...

well, after one failure occurs (anywhere), the increased internal pressure causes additional failures at the walls and the roof... it only takes one, then, it all goes to 'partial enclosed' and typically, roofs/ceilings, other windows, etc, get blown out. the SEAW RSM seems to indicate high...

The 50 year reference could be just a number to give people something quantifible in their lifetime, and it may be that the Snow, Wind, and Earthquake folk just copied each other for consistency. But nonetheless, it envokes the concept of a duration of time for which we design, although I'm sure...

My impression was that our buildings were built for a 50-year lifetime, based on the way the Wind, Earthquake, and Snow codes are written. Also, if you do not protect the windows, you would want to design the building as "partial enclosed." See the discussion in C6.5.11.1, pg 290, of the ASCE...