PROFIS Design Guide: US-EN Summer 2021 | Page 102

PART 3 TENSION LOAD

Pullout Failure Mode
Results N ua
Results ACI 318-14 Chapter 17 Provision Comments for PROFIS Engineering
N ua
17.3.1.1 The design of anchors shall be in accordance with Table 17.3.1.1 . In addition , the design of anchors shall satisfy 17.2.3 for earthquake loading and 17.3.1.2 for adhesive anchors subject to sustained tensile loading .
Excerpt from Table 17.3.1.1 showing the tension failure modes considered in ACI 318-14 anchoringto-concrete provisions .
Table 17.3.1.1 — Required strength of anchors , except as noted in 17.2.3
Failure Mode
Single Anchor
Individual anchor in a Group
Steel strength in tension ( 17.4.1 ) ϕN sa ≥ N ua ϕN sa
≥ N ua , i
Anchor Group
Anchors as a group
Concrete breakout strength in tension ( 17.4.2 ) ϕN cb ≥ N ua ϕN cbg
≥ N ua , g
Pullout strength in tension ( 17.4.3 ) ϕN pn ≥ N ua ϕN pn
≥ N ua . i
Concrete side-face blowout strength in tension ( 17.4.4 ) ϕN sb ≥ N ua ϕN sbg
≥ N uag
Bond strengh of adhesive anchor in tension ( 17.4.5 ) ϕN a ≥ N ua ϕN ag
≥ N ua . g
ACI 318-14 strength design provisions for pullout failure in tension require calculation of a nominal pullout strength ( N pn
). The nominal strength is multiplied by a strength reduction factor ( ϕ-factor ) to obtain a design strength ( ϕN pn
).
Design strength is checked against a factored tension load , defined by the parameter “ N ua
”. Chapter 2 in ACI 318-14 gives the following definitions for the factored tension load parameter “ N ua
”.
• N ua
= factored tensile force applied to anchor or individual anchor in a group of anchors ( lb )
• N ua , i
= factored tensile force applied to most highly stressed anchor in a group of anchors ( lb )
• N ua , g
= total factored tensile force applied to anchor group ( lb ) The design pullout strength for a single anchor in tension ( ϕN pn
) calculated per Section 17.4.3 is checked against the factored tension load acting on the anchor , which is designated “ N ua
” in Table 17.3.1.1 . If ϕN pn > N ua
, the provisions for considering pullout failure in tension have been satisfied per Table 17.3.1.1 .
If an application consists of a group of anchors in tension , Npn is calculated for a single anchor , and the design strength ( ϕN pn
) is checked against the highest individually loaded anchor in tension , which is designated “ N ua , i
” in Table 17.3.1.1 .
If ϕN pn > N ua , i
, the provisions for considering pullout failure in tension have been satisfied per Table 17.3.1.1 .
The PROFIS Engineering report uses the generic designation “ N ua
” to reference either the only tension load acting on anchor , or the highest tension load acting on an individual anchor within an anchor group . The PROFIS Engineering Load Engine permits users to input service loads that are factored per IBC factored load equations . Users can also import factored load combinations via a spreadsheet , or input factored load combinations directly on the main screen . PROFIS Engineering users are responsible for inputting tension loads . The software only performs tension load checks per Table 17.3.1.1 if tension loads have been input via one of the load input functionalities .
If a single anchor in tension is being modeled , PROFIS Engineering calculates the parameter ϕN pn
, and checks this value against either ( a ) the factored tension load acting on the anchor , which has been calculated using the loads input via the Load Engine , ( b ) the factored tension load acting on the anchor , which has been calculated using the loads imported from a spreadsheet or ( c ) the factored tension load acting on the anchor , which has been calculated using the loads input in the matrix on the main screen . The value for N ua shown in the report corresponds to the factored tension load determined to be acting on the anchor .
If a group of anchors in tension is being modeled , PROFIS Engineering calculates the parameter ϕN pn
, and checks this value against either ( a ) the total factored tension load acting on the anchor group , which has been calculated using the loads input via the Load Engine , ( b ) the total factored tension load acting on the anchor group , which has been calculated using the loads imported from a spreadsheet or ( c ) the total factored tension load acting on the anchor group , which has been calculated using the loads input in the matrix on the main screen . The value for N ua shown in the report corresponds to the total factored tension load determined to be acting on the anchor group .
Reference the Equations and Calculations section of the PROFIS Engineering report for more information on the parameter ϕN pn
.
102 NORTH AMERICAN PROFIS ENGINEERING ANCHORING TO CONCRETE DESIGN GUIDE — ACI 318-14 Provisions