Uniform Building Code |
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Page 164
COMPRESSIVE STRESS IN FLEXURAL MEMBERS : For compression
reinforcement in flexural members , the allowable stress shall not be taken as
greater than the allowable tensile stress shown above . ( c ) Symbols and
Notations .
COMPRESSIVE STRESS IN FLEXURAL MEMBERS : For compression
reinforcement in flexural members , the allowable stress shall not be taken as
greater than the allowable tensile stress shown above . ( c ) Symbols and
Notations .
Page 339
average splitting tensile strength of lightweight aggregate concrete , psi . fa =
stress due to dead load , at the extreme fiber of a section at which tensile stresses
are caused by applied load , psi . fm = compressive stress in the concrete , after
all ...
average splitting tensile strength of lightweight aggregate concrete , psi . fa =
stress due to dead load , at the extreme fiber of a section at which tensile stresses
are caused by applied load , psi . fm = compressive stress in the concrete , after
all ...
Page 456
B , D , C , = buckling formula constants , with following subscript : C –
compression in columns p ... average compressive stress on cross section of
member produced by axial compressive load , ksi . fo = maximum bending stress
( compressive ) ...
B , D , C , = buckling formula constants , with following subscript : C –
compression in columns p ... average compressive stress on cross section of
member produced by axial compressive load , ksi . fo = maximum bending stress
( compressive ) ...
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Contents
Effective Use of the Uniform Building Code | 18 |
497 | 36 |
Part IIDefinitions and Abbreviations | 38 |
Copyright | |
91 other sections not shown
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Common terms and phrases
accordance allowable applied approved axial bars beam bearing bending bolts building building official Chapter column compression compressive stress computed concrete conform connections considered construction continuous cover Decking depth determined diameter direction distance Division edge effective elements equal exceed EXCEPTION exit exterior face factor feet fire fire-resistive flange flexural floor foot forces Formula frame girders grade Grain greater Group height horizontal inches joints lateral least length less limited live load load located lumber masonry materials maximum Occupancies openings panel parallel percent permitted placed plate portion pounds prestressing protected ratio reinforcement resist roof rooms Section Select Structural separation shear side slab spacing span specified splices square inch steel strength stress Structural Stud surface Table taken tension tests thickness tion Type U.B.C. Standard unit values vertical walls welds width wire wood yield
Bibliographic information
| Title | Uniform Building Code |
| Author | International Conference of Building Officials |
| Publisher | International Conference of Building Officials, 1979 |
| Original from | the University of California |
| Digitized | 13 Aug 2008 |
| Length | 734 pages |
| Export Citation | BiBTeX EndNote RefMan |