a minimum of one-half the thickness of the main member.
The single-bolt value must then be modified for any varia-
tion from these reference conditions. The theoretical ap-
proach, after 1991, is more general and is not limited to
these reference conditions.
The theoretical approach is based on work done in Europe
(Johansen 1949) and is referred to as the European Yield
Model (EYM). The EYM describes a number of possible
yield modes that can occur in a dowel-type connection
(Fig. 8–5). The yield strength of these different modes is
determined from a static analysis that assumes the wood
and the bolt are both perfectly plastic. The yield mode that
results in the lowest yield load for a given geometry is the
theoretical connection yield load.
Equations corresponding to the yield modes for a three-
member joint are given in Table 8–16. (Equations for
two-member allowable values are given in the NDS.) The
nominal single-bolt value is dependent on the joint geom-
etry (thickness of main and side members), bolt diameter
and bending yield strength, dowel bearing strength, and di-
rection of load to the grain. The equations are equally validGeneral Technical Report FPL–GTR– 190Table 8–13. Percentage of basic bolt-bearing stress used for calculating
allowable bolt loadsRatio of bolt
length to
diameter
(L/D)L/D adjustment factor by classa
Parallel
to grainPerpendicular
to grain
1 2 3 1 2 3 4
1 100.0 100.0 100.0 100.0 100.0 100.0 100.0
2 100.0 100.0 100.0 100.0 100.0 100.0 100.0
3 100.0 100.0 99.0 100.0 100.0 100.0 100.0
4 99.5 97.4 92.5 100.0 100.0 100.0 100.0
5 95.4 88.3 80.0 100.0 100.0 100.0 100.0
6 85.6 75.8 67.2 100.0 100.0 100.0 96.3
7 73.4 65.0 57.6 100.0 100.0 97.3 86.9
8 64.2 56.9 50.4 100.0 96.1 88.1 75.0
9 57.1 50.6 44.8 94.6 86.3 76.7 64.6
10 51.4 45.5 40.3 85.0 76.2 67.2 55.4
11 46.7 41.4 36.6 76.1 67.6 59.3 48.4
12 42.8 37.9 33.6 68.6 61.0 52.0 42.5
13 39.5 35.0 31.0 62.2 55.3 45.9 37.5
aClass determined from basic bolt-bearing stress according to Table 8–14.Table 8–14. L/D adjustment class associated with basic bolt-bearing stress
Basic bolt-bearing stress for species group (MPa (lb in–2))Loading direction Softwoods HardwoodsL/D adjustment
(Table 8–13)
Parallel <7.93 (<1,150) <7.33 (<1,063) 1
7.93–10.37 (1,150–1,504) 7.33–9.58 (1,063–1,389) 2
>10.37 (>1,504) >9.58 (>1,389) 3
Perpendicular <1.31 (<190) <1.44 (<209) 1
1.31–2.00 (190–290) 1.44–2.20 (209–319) 2
2.00–2.59 (291–375) 2.21–2.84 (320–412) 3
>2.59 (>375) >2.84 (>412) 4Table 8–15. Factors for adjusting
basic bolt-bearing stress
perpendicular to grain for bolt
diameter when calculating
allowable bolt loads
Bolt diameter
(mm (in.))
Adjustment
factor
6.35 (1/4) 2.50
9.53 (3/8) 1.95
12.70 (1/2) 1.68
15.88 (5/8) 1.52
19.05 (3/4) 1.41
22.23 (7/8) 1.33
25.40 (1) 1.27
31.75 (1-1/4) 1.19
38.10 (1-1/2) 1.14
44.45 (1-3/4) 1.10
50.80 (2) 1.07
63.50 (2-1/2) 1.03
>76.20 (>3 or over) 1.00