structgeotec
Geotechnical
- May 29, 2013
- 4
I have read multiple postings about this subject but I don't feel like a conclusion have been achieved.
someone said usually the wood lagging is not required to be designed but usually when doing submittals other engineers reviewing retaining walls, want to see calcs done for the lagging or question the way calcs have been put together.
Up to now I have seem for temporary shoring design (soldier pile and lagging system)
wood lagging design pressure as W=.25*L*gamma as per Silo theory Pressure (please correct me if this is wrong)
then calculate max Moment M=WL^2/8 and find stress on the lagging Fb=M/S< fb=1200 psi
L=wood lagging span
W=Pressure on Lagging
gamma=soil unit weight
DONE
but on the literature I have read as per CALTRAN MANUAL recommends to calculate the required section modulus as S=(M*0.6)/1200
and according to the mathematical model presented on this document [URL unfurl="true"]http://www.helicalpilebook.com/Files/Article%206%20v4.pdf[/url]
max pressure on lagging occurs at a depth=1.4*L
and max Pressure on Lagging is P(max)=Ka(w+1.2*L*gamma)
my question is: which one is more widely used in the industry?
to be more politically correct.
thank you in advance
someone said usually the wood lagging is not required to be designed but usually when doing submittals other engineers reviewing retaining walls, want to see calcs done for the lagging or question the way calcs have been put together.
Up to now I have seem for temporary shoring design (soldier pile and lagging system)
wood lagging design pressure as W=.25*L*gamma as per Silo theory Pressure (please correct me if this is wrong)
then calculate max Moment M=WL^2/8 and find stress on the lagging Fb=M/S< fb=1200 psi
L=wood lagging span
W=Pressure on Lagging
gamma=soil unit weight
DONE
but on the literature I have read as per CALTRAN MANUAL recommends to calculate the required section modulus as S=(M*0.6)/1200
and according to the mathematical model presented on this document [URL unfurl="true"]http://www.helicalpilebook.com/Files/Article%206%20v4.pdf[/url]
max pressure on lagging occurs at a depth=1.4*L
and max Pressure on Lagging is P(max)=Ka(w+1.2*L*gamma)
my question is: which one is more widely used in the industry?
to be more politically correct.
thank you in advance
