PROFIS Design Guide - AC 318-19 July 2022 | Page 125

1.4 Side Face Blowout Failure Mode

Calculations N _sb

Calculations ACI 318-19 Chapter 17 Provision Comments for PROFIS Engineering anchor group in tension

N _sb

17.6.4.1 For a single headed anchor with deep embedment close to an edge ( h _ef > 2.5c _a1

), the nominal side-face blowout strength , N _sb , shall not exceed

N _sb

= 160c _a1

A _brg λ _{a ƒ ́c} ( 17.6.4.1 )

17.6.4 . 2 For multiple headed anchors with deep embedment close to an edge ( h _ef > 2.5c _a1

) and anchor spacing less than 6c _a1 , the nominal strength of those anchors susceptible to a side-face blowout failure , N _sbg

, shall be calculated by :

N _sbg

= 1 + s

6c _a1

N _sb

( 17.6.4 . 2 )

where s is the distance between the outer anchors along the edge , and N _sb is obtained from Eq .

( 17.6.4.1 ) without modification for a perpendicular edge distance . PROFIS Engineering permits h _ef

-values ranging between 4d _anchor and 25 ” to be input for the cast-in anchors in its portfolio .

PROFIS Engineering bearing area values ( A _brg ) for the cast-in anchors in its portfolio

MATERIAL SPECIFICATION

AWS D1.1 Type B Headed Stud

" ASTM F1554 Headed Bolt Gr . 36 , Gr . 55 , Gr . 105 "

Diameter ( d ₀

) ( in )

Bearing area ( A _brg in ² ) welded headed stud

Bearing area ( A _brg in ² ) square head bolt

Bearing area ( A _brg in ² ) heavy square bolt

Bearing area ( A _brg in ² ) hex head bolt

Bearing area ( A _brg in ² ) heavy hex head bolt

PROFIS Engineering calculates side-face blowout when the anchor effective embedment depth ( h _ef

) is greater than 2.5 times the nearest fixed edge ( c _a1

). The applied tension load creates lateral bursting stresses at the head of the anchor which cause the concrete to “ blow out ” at the face of the fixed edge . Side-face blowout is a possible failure mode for cast-in anchors and post-installed undercut anchors ; however , PROFIS Engineering does not consider side-face blowout for the HDA-P and HDA-T undercut anchors in its portfolio because it will not be a controlling tension failure mode for these anchors .

When modeling a group of anchors in tension , the side-face blowout strength for a single anchor ( N _sb

) is calculated , and modified by the factor ( 1 + s / 6c _a1 ). PROFIS

Engineering designates this factor “ α _group

”. The parameter “ s ” corresponds to the distance between the outer anchors ( e . g . s _y1

+ s _y2 in the illustration to the left ) along the fixed edge being considered for side-face blowout .

The PROFIS Engineering cast-in anchor portfolio is as follows :

• AWS D1.1 Type B headed studs : ( 1 / 2 ” — 7 / 8 ” nominal diameter )

• ASTM F1554 hex head bolt , Gr . 36 , Gr . 55 , Gr . 105 : ( 1 / 2 ” — 1-1 / 2 ” nominal diameter )

• ASTM F1554 heavy hex head bolt , Gr . 36 , Gr . 55 , Gr . 105 : ( 1 / 2 ” — 2 ” nominal diameter )

• ASTM F1554 square head bolt , Gr . 36 , Gr . 55 , Gr . 105 : ( 1 / 2 ” — 1-1 / 2 ” nominal diameter )

• ASTM F1554 heavy square head bolt , Gr . 36 , Gr . 55 , Gr . 105 : ( 1 / 2 ” — 1-1 / 2 ” nominal diameter ) λ _a is a modification factor for lightweight concrete .

_{ƒ ́c} corresponds to the concrete compressive strength .

Reference the Variables section of the report for more information on the parameters c _a1

, c _a2 , A _brg

, λ _a

, _{ƒ ́c} and s .

Reference the Equations section of the report for more information on the parameter Nsb .

Reference the Equations and Calculations section of the report for more information on the parameter α _group

. Reference the PROFIS Engineering report section for N _sb

( single anchor ) for information on the parameter α _corner .

125 NORTH AMERICAN PROFIS ENGINEERING ANCHORING TO CONCRETE DESIGN GUIDE — ACI 318-19 Provisions