2.0 SHEAR
2.1 Concrete Breakout Failure Mode
Equations A Vc
Equations ACI 318-19 Chapter 17 Provision Comments for PROFIS Engineering
A Vc
17.7.2.1 Nominal concrete breakout strength in shear , V cb of a single anchor or V cbg of an anchor group satisfying 17.5.1.3.1 , shall be calculated in accordance with ( a ) through ( d ):
( a ) For shear force perpendicular to the edge on a single anchor
V cb
=
A Vc ψed , V ψ c , V ψ h , V
V b
( 17.7.2.1a )
A Vc0
( b ) For shear force perpendicular to the edge on an anchor group
V cbg
= A Vc ψ ec , V ψ ed , V ψ c , V ψ h , V
V b
( 17.7.2.1b )
A Vc0
17.7.2.1.1 A Vc is the projected area of the failure surface on the side of the concrete member at its edge for a single anchor or an anchor group . It shall be permitted to evaluate A Vc as the base of a truncated halfpyramid projected on the side face of the member where the top of the half-pyramid is given by the axis of the anchor row selected as critical . The value of ca1 shall be taken as the distance from the edge to this axis .…………………………………..
A Vc is a modification factor that accounts for the area of influence assumed to develop at the edge of a concrete member when a shear load acting on a single anchor or a group of anchors is applied towards that edge . A Vc is calculated with the edge conditions and anchor spacing that have been input into the PROFIS Engineering model .
A Vc calculations are predicated on the parameter c a1
, which is assumed to be the distance in the direction of the applied shear load from “ the axis of the anchor row selected as critical ”. ACI anchoring-to-concrete provisions do not set a maximum limit on the value for c a1
.
The geometry for A Vc at the edge where concrete breakout in shear is assumed to occur is defined by ( a ) projected edge distances perpendicular to the direction of the applied shear load acting on the anchors , ( b ) anchor spacing perpendicular to the direction of the applied shear load and ( c ) a projected distance down from the surface of the concrete at the edge where concrete breakout in shear is assumed to occur . The maximum projected distance assumed for ( a ) and ( c ) is limited to 1.5c a1
. The maximum spacing assumed for ( b ) equals 3.0c a1 . Minimum anchor spacing values ( s min
) and minimum edge distance values
( c min
) are given in ACI 318-19 Section 17.9.2 and in post-installed anchor approvals . The figure below illustrates how A Vc can be calculated for a group of four anchors in shear with a fixed edge distance ( c a1 ) in the direction of the applied shear load ( V ua
), and a fixed edge distance ( c a2 ) perpendicular to the direction of V ua . Concrete breakout in shear is assumed to occur at the y- edge , and c a1 is being considered as the distance from anchor row 1 to the y- edge . Only the spacing s x perpendicular to the direction of V ua is considered when calculating A vc for this application . s x for this application is assumed to be less than or equal to 3.0c a1 ; otherwise , the anchors would not be considered to act as a group with respect to s x . c a2 for this application is assumed to be less than 1.5c a1 . There is no fixed edge perpendicular to V ua in the x + direction , so the projected distance in the x + direction used to calculate A Vc is limited to a maximum value of 1.5c a1
. The maximum projected distance down from the concrete surface at the y-edge that is considered when calculating A Vc equals the smaller of the concrete thickness ( h a ) and 1.5c a1
. h a for this application is assumed to be less than 1.5c a1
. Minimum concrete thickness values for post-installed anchors are given in the anchor approvals .
A Vc
= ( c a2 + s x
+ 1.5c a1 ) ( h a
) where : c min ≤ c a2
≤ 1.5c a1 s min
≤ s x
≤ 3.0c a1
h a , min
≤ h a Reference the Variables section of the PROFIS Engineering report for more information on c a1
, c a2 and h a
.
Reference the Calculations section of the PROFIS Engineering report for more information on A Vc
.
167 NORTH AMERICAN PROFIS ENGINEERING ANCHORING TO CONCRETE DESIGN GUIDE — ACI 318-19 Provisions