Beams, headers, and girders

Where can I find span or load tables for beams, headers, and girders?

The 2001 Wood Frame Construction Manual (WFCM) for One- and Two-Family Dwellings contains header span tables for both exterior and interior loadbearing walls. Maximum header/girder spans are tabulated for built-up lumber and structural glued laminated timber. Loading conditions include roof only applications to roof, ceiling, and two clear span floors. Ground snow loads of 30psf, 50psf, and 70psf are tabulated for buildings up to 36' wide.

Wood Structural Design Data (WSDD) includes load tables for solid wood beams of rectangular cross section. The data are presented with span lengths in feet for the various sizes of beams with load capacities based on a range of bending stress, F_b, values. Example problems are included for use of the tables. WSDD is often used to size bending members for girder or header applications, where solid or multiple members are used to carry other members like floor joists or trusses.

Beam load tables in WSDD are tabulated based on spans from 4 to 32 feet and for lumber sizes from 2x4 to 24x24 inches.

Typically a WSDD user will know the span and load for a given application. The user can select a species, size, and grade for trial use. Using the NDS Supplement: Design Values for Wood Construction, the user determines the modulus of elasticity, bending design value, and shear parallel to grain design value of the species, grade and size of lumber. These design values need to be modified for all applicable adjustment factors including load duration and repetitive member factors from the NDS and NDS Supplement. With this information the user enters the load table with the given bending design value and determines the allowable load for an estimated size. If the allowable load is greater than that required for the application, the species, grade and size selected should then be verified for stiffness and shear. Below each tabulated load value are the required modulus of elasticity and shear design value for the specific application. If the modulus of elasticity and shear design value selected from the NDS Supplement is greater than the tabulated required modulus of elasticity and shear value, then the species and grade chosen is adequate. If the modulus of elasticity of elasticity or shear design value is less than the tabulated value then the user can either select a larger member, or select a higher lumber grade. For either option, bending design strength has to be re-evaluated to ensure that strength limits are maintained. For multiple members or built-up members, the allowable load would be determined by dividing the actual load by the number of plies selected for that particular member. Linear interpolation for intermediate design values is permitted.

Naturally durable species

What are naturally durable species?

Naturally durable species are those that are naturally resistant to insect damage and moisture or decay.

Some of those species include cedar, black locust, and redwood. Also consider using pressure treated wood for such applications where durability is an issue.

Check out http://www.fpl.fs.fed.us/rwu4723/preservation_faqs/durable.html for more information.

Emin for unbraced glulam column design

Question: Per the 2005 NDS^®, which E_min should be used for the design of an unbraced structural glued laminated timber column under purely axial load. Since E_min is now used in the calculation for C_P and there is no E_{axial min} in the NDS Supplement for glulam, which E_min should be used - E_{x min} or E_{y min}?


Answer: Check both the weak axis and the strong axis and use the corresponding E_min for each axis. E_axial is the longitudinal modulus of elasticity and is used only for calculations involving the change in longitudinal dimension of the member. For axial buckling calculations, E_{x min} or E_{y min} should be used as appropriate.

Lag screw withdrawal

Question: The column heading for NDS® (2001/2005) Table 11.2A states that diameter for determining withdrawal design values is the "unthreaded shank diameter, D." Should withdrawal design values for reduced body diameter lag screws (see NDS Appendix L) be based on the reduced body diameter or the outside thread diameter?

Answer: Reduced body and full-body diameter lag screws in accordance with ANSI/ASME B18.6.1 have the same thread dimensions and geometry, and the thread penetration will provide the same withdrawal strength from wood in pounds per inch of thread penetration. Therefore, withdrawal design values are applicable for reduced body and full-body diameter lag screws using the nominal lag screw diameter (outside thread diameter for both types).

Flat use factor, Cfu, for structural glued laminated timber

Question: NDS (2001/2005) Section 5.3.7 describes a specific loading scenario of “loaded parallel to the wide face of laminations” for application of the flat use factor, C_fu, for structural glued laminated timber. Does the flat use factor apply where eccentric column load induces moment in the y-y direction?

Answer: Yes, the factor applies to all y-y bending where the member dimension parallel to the wide face of the laminations is less than 12 inches.

Application of Volume Factor, CV, for SCL when CV > 1.0

Question: NDS® (2001/2005) Section 8.3.6 states that C_V shall be applied simultaneously with the beam stability factor, C_L, when C_V > 1.0. Should C_V be applied to F_b* in calculation of C_L or is it intended that C_V be applied following calculation of the beam stability factor as follows: F_b’ = F_b* x C_V x C_L?

Answer: Where C_V > 1, it is intended to be applied to F_b* prior to calculation of the beam stability factor, C_L. For SCL, application of C_V > 1 to F_b* prior to calculation of C_L is analogous to application of the size factor for lumber in determination of the appropriate F_b*. The increased value of F_b*, applicable for a fully-braced member, is the appropriate reference value for calculation of the ratio of critical buckling design value to fully-braced reference design value (F_bE/F_b*) used to determine C_L.