HVAC Ductwork and Strut Channels Suspended Ceilings

General Information General Information Vertigo + Rod Hanger PRODUCT DESCRIPTION Vertigo+ is a one piece, all steel threaded fastening system for suspending threaded rod in applications such as pipe hanging, fire protection, electrical conduit and cable-trays. They can be installed in base materials including normal-weight concrete and sand-lightweight concrete over steel deck. Vertigo+ accepts threaded rods and bolts in /4", ", and /2" diameters. Vertigo+ anchors are designed for simple fast installations and reliable performance in cracked and uncracked concrete. GENERAL APPLICATIONS AND USES Hanging Pipe and Sprinkler Systems Suspending Conduit and Cable Trays Lighting Systems and Overhead Utilities FEATURES AND BENEFITS + + Simple system for all rod hanging applications in concrete + + Internally threaded coupler for easy removability of service items + + Ease and speed of installation and attachment HVAC Ductwork and Strut Channels Suspended Ceilings + + Lower in-place cost, when compared to traditional anchors + + Can be installed with an adjustable torque impact driver + + Consistent performance in high and low strength concrete APPROVALS AND LISTINGS International Code Concil, Evaluation Service (ICC-ES). ESR-2526. Code compliant with the 205 IBC, 205 IRC, 202 IBC, 202 IRC, 2009 IBC, 2009 IRC, 2006 IBC, and 2006 IRC Tested in accordance with ACI 55.2 / ASTM E 488 and ICC-ES AC9 for use in structural concrete under the design provisions of ACI 8 (Strength Design method using Appendix D) Evaluated and qualified by an accredited independent testing laboratory for recognition in cracked and uncracked concrete including seismic and wind loading (Category anchors) Evaluated and qualified by an accredited independent testing laboratory for reliability against brittle failure, e.g. hydrogen embrittlement GUIDE SPECIFICATIONS CSI Divisions: 0 6 00 - Concrete s and 05 05 9 - Post-Installed Concrete s. s shall be Vertigo+ as supplied by Powers Fasteners, Inc., Brewster, NY. s shall be installed in accordance with published instruction and the Authority Having Jurisdiction. Section contents General Information... Material Specifications...2 Installation Specifications...2 Installation Instructions... Performance Data (ASD)...4 Performance Data (SD)...5 Ordering Information...7 Concrete Vertigo+ TM THREAD VERSION Unified course thread (UNC) ANCHOR MATERIALS Zinc Plated Carbon Steel (Yellow Dichromate Finish) ANCHOR SIZE RANGE (TYP.) /4", " and /2" diameters SUITABLE BASE MATERIALS Normal-weight concrete Sand-lightweight concrete Normal-weight concrete over steel deck TENSION ZONE C R A C K E D C O N C R E T E Q U A S E I SMI C L I F REG I ON T I C A Code listed ICC-ES ESR-2526 Concrete I O N This Product Available In Powers Design Assist Real-Time Design Software www.powersdesignassist.com

Material Specifications Material Specifications component Body / Coupler Head Plating Installation Specifications Installation Table for Vertigo+ Property/ Setting Information Specification Case hardened low carbon steel Zinc plating according to ASTM B 6, SC Type III (Fe/Zn 5) Minimum plating requirement for Mild Service Condition Symbol Units anchor shank diameter do drill bit diameter dbit Wedge-bit tolerance range - embedment depth Effective embedment Minimum hole depth Minimum member thickness,2 Overall anchor length Minimum edge distance,2 Minimum spacing distance,2 Critical edge distance,2 Maximum impact wrench power (torque) hef ho hmin lanch cmin smin cac Tscrew ft.-. (N-m) Size / Threaded Coupler () /4 /2 0.75 Wedge-bit 0.85 to 0.89 (50.8) 4 (02) (76) -/4 (44) 0.75 Wedge-bit 0.85 to 0.89 (50.8) 4 (02) (76) -/4 (44) 0.75 Wedge-bit Impact wrench / socket size dh /6 /6 /6 Head height - /4 /4 /4 For SI: inch = 25.4 mm,. ft-f =.56 N-m 2. For installations through the soffit of steel deck into concrete, see the installation detail. s in the lower flute may be installed with a maximum -inch offset in either direction from center of the flute. In addition, anchors shall have an axial spacing along the flute equal to the greater of hef or.5 times the flute width.. For use with the design provisions of ACI 8 Appendix D. Vertigo+ Detail in Concrete l anch h nom d bit d 0 h ef h o 85 (250) Hex Coupler Heads /4" " /2" 85 (250) Matched Tolerance System Blue tip Blue Wedge-bit 0.85 to 0.89 (50.8) 4 (02) (76) -/4 (44) 85 (250) Designed and tested as a system for consistency and reliability 2

Installation Instructions Installation Instructions Step Using the proper Wedge-bit size, drill a hole into the base material to the required depth. The tolerances of the Wedge-bit used must meet the requirements of the published Wedge-bit range Step 2 Remove dust and debris from the hole. Step Select a powered impact wrench that does not exceed the maximum torque, Tscrew, for the selected anchor diameter. Attach an appropriate sized hex socket/ driver to the impact wrench. Mount the screw anchor head into the socket. Installation Detail for Vertigo+ Installed Through Soffit or Steel Deck into Concrete M -/4" SAND-LIGHTWEIGHT CONCRETE OR NORMAL WEIGHT CONCRETE OVER STEEL DECK (MINIMUM,000 PSI) /4" Clearance M Upper Flute (Valley) Step 4 Drive the anchor into the hole until the head of the anchor comes into contact with the member surface. The anchor should be snug after installation. Do not spin the hex socket off the anchor to disengage. Insert threaded rod or bolt into Vertigo+. Max. " M 4-/2" Vertigo+ M 4-/2" M -/4" Lower Flute (Ridge) No. 20 Gage Steel Deck M Flute Edge SAND-LIGHTWEIGHT CONCRETE OR NORMAL WEIGHT CONCRETE OVER STEEL DECK (MINIMUM,000 PSI) M " Max. -/2" M 2-/4" Max. -/2" M -/4" Vertigo+ M 7/8" Upper Flute (Valley) Lower Flute (Ridge) No. 20 Gage Steel Deck M

Performance Data (ASD) Performance Data (ASD) Ultimate Load Capacities for Vertigo+ in Normal-Weight Concrete,2 Size / Threaded Coupler /4 (6.) /2 Shank do Minimum Embedment Depth Minimum Concrete Compressive Strength f c 2,500 psi (7.2 MPa),000 psi (20.7 MPa) 4,000 psi (27.6 MPa) 6,000 psi (4.4 MPa),260 (4.5),260 (4.5),260 (4.5),570 (5.9),570 (5.9),570 (5.9) 4,205 (8.8) 4,205 (8.8) 4,205 (8.8). Tabulated load values are for anchors installed in concrete. Concrete compressive strength must be at the specified minimum at the time of installation. 2. Ultimate load capacities must be reduced by a minimum safety factor of 4.0 or greater to determine allowable working load. Allowable Load Capacities for Vertigo+ in Normal-Weight Concrete Size / Threaded Coupler /4 (6.) /2 Shank do Minimum Embedment Depth Minimum Concrete Compressive Strength f c 5,50 (2.0) 5,50 (2.0) 5,50 (2.0) 2,500 psi (7.2 MPa),000 psi (20.7 MPa) 4,000 psi (27.6 MPa) 6,000 psi (4.4 MPa) 85 (.6) 85 (.6) 85 (.6). Allowable load capacities are calculated using an applied safety factor of 4.0. 890 (4.0) 890 (4.0) 890 (4.0),050,050,050,290 (5.7),290 (5.7),290 (5.7) 4

Performance Data (SD) Performance Data (SD) Design Information For Vertigo+ s in Concrete (For use with load combinations taken from ACI 8 Section 9.2),2 Size / Threaded Coupler () Design Characteristic Notation Units /4" " /2" category, 2 or - embedment depth STEEL STRENGTH IN TENSION 4 Minimum specified yield strength of steel insert element (threaded rod or bolt) Minimum specified ultimate strength of steel insert element (threaded rod or bolt) Effective tensile stress area of steel insert element (threaded rod or bolt) fy futa ksi (N/mm 2 ) ksi (N/mm 2 ) Ase,N [Ase] 2 in 2 (mm 2 ) Steel strength in tension Nsa 6.0 (248) 58.0 (400) 0.08 (20.5),845 (8.2) 6.0 (248) 58.0 (400) 0.0775 (50) 4,495 (20) Reduction factor for steel strength f - 0.65 0.65 0.65 6.0 (248) 58.0 (400) 0.49 (9.6) 8,20 (6.6) Effective embedment hef CONCRETE BREAKOUT IN TENSION 8 Effectiveness factor for uncracked concrete kuncr - 24 24 24 Effectiveness factor for cracked concrete kcr - 7 7 7 Modification factor for cracked and uncracked concrete 5 ψc,n - Critical edge distance cac See note 5 See note 5 Reduction factor for concrete breakout strength f - 0.65 (Condition B) PULLOUT STRENGTH IN TENSION (NON-SEISMIC APPLICATIONS) 8 uncracked concrete (2,500 psi) 6 cracked concrete (2,500 psi) 6 Np,uncr Np,cr See note 5 See note 7 See note 7 See note 7 See note 7 See note 7 See note 7 Reduction factor for pullout strength f - 0.65 (Condition B) PULLOUT STRENGTH IN TENSION FOR SEISMIC APPLICATIONS 8 seismic (2,500 psi) 6,9 Np,eq Reduction factor for pullout strength f - 0.65 (Condition B) PULLOUT STRENGTH IN TENSION FOR STRUCTURAL SAND-LIGHTWEIGHT AND NORMAL-WEIGHT CONCRETE OVER STEEL DECK uncracked concrete over steel deck 6,0 cracked concrete over steel deck 6,0 cracked concrete over steel deck seismic 6,0 Np,deck,uncr Np,deck,cr Np,deck,eq,085 (4.8),905 (8.5),50 (6.0),05 (4.5) Reduction factor for pullout strength f - 0.65. The data in this table is intended to be used with the design provisions of ACI 8 Appendix D; for anchors resisting seismic load combinations the additional requirements of ACI 8 D.. must apply. 2. Installation must comply with printed instructions.. All values of f were determined from the load combinations of UBC Section 605.2., UBC Section 62.2., or ACI 8 Section 9.2. If the load combinations of UBC Section 902.2 or ACI 8 Appendix C are used, the appropriate value of f must be determined in accordance with ACI 8 D.4.5. For reinforcement that meets ACI 8 Appendix D requirements for Condition A, see ACI 8 D.4.4 for the appropriate factor. 4. It is assumed that the threaded rod or bolt used with the Vertigo+ anchor will be a ductile steel element as defined by ACI 8 D.. 5. For all design cases use ψc,n =.0. The appropriate effectiveness factor for cracked concrete (kcr) and uncracked concrete (kuncr) must be selected. 6. For all design cases use ψcp =.0. For concrete compressive strength greater than 2,500 psi, Npn = (Pullout strength value from table)*(specified concrete compressive strength/f c,min) 0.5 where the value of f c,min is 2500 except in concrete over steel deck where the value of f c,min is 000. 7. Pullout strength does not control design of indicated anchors. Do not calculate pullout strength for indicated anchor size and embedment. 8. s are permitted to be used in structural sand-lightweight concrete provided that Nb, Neq and Npn are multiplied by a factor of 0.60 (not required for steel deck). 9. Tabulated values for characteristic pullout strength in tension are for seismic applications and based on test results in accordance with ACI 55.2, Section 9.5. 0. Values for Np,deck are for structural sand-lightweight concrete (f c,min =,000 psi) and additional lightweight concrete reduction factors need not be applied. In addition, evaluation for the concrete breakout capacity in accordance with ACI 8 D.5.2 is not required for anchors installed in the flute (soffit).. For 200 IBC, futa replaces fut; Nsa replaces Ns; ψc,n replaces ψ; and Np,eq replaces Np,seis. 2. The notation in brackets is for the 2006 IBC.,085 (4.8),990,40 (6.),085 (4.8),990,40 (6.) 5

Performance Data (SD) Design Information For Vertigo+ s in Concrete (For use with load combinations taken from ACI 8 Section 9.2),2 Design Characteristic Notation Units Size / Threaded Coupler () /4" " /2" category, 2 or - embedment depth STEEL STRENGTH IN SHEAR 4 Steel strength in shear 5 Vsa 0 Reduction factor for steel strength f - 0.60 0.60 0.60 Load bearing length of anchor (hef or 8do, whichever is less) le 0 CONCRETE BREAKOUT IN SHEAR 6 anchor diameter da [do] 0.75 2,695 (2) 0.75 Reduction factor for concrete breakout strength f - 0.70 (Condition B) PRYOUT STRENGTH IN SHEAR 6 Coefficient for pryout strength (.0 for hef < 2.5 in, 2.0 for hef 2.5 in) kcp - Reduction factor for pryout strength f - 0.70 (Condition B) STEEL STRENGTH IN SHEAR FOR SEISMIC APPLICATIONS Steel strength in shear, seismic 7 Veq 0 Reduction factor for steel strength in shear for seismic applications f - 0.60 0.60 0.60 STEEL STRENGTH IN SHEAR FOR STRUCTURAL SAND-LIGHTWEIGHT AND NORMAL-WEIGHT CONCRETE OVER STEEL DECK 9 Steel strength in shear, concrete over steel deck 8, according to top figure 2 Steel strength in shear, concrete over steel deck seismic 8, according to top figure 2 Steel strength shear, concrete over steel deck, according to bottom figure 8,2 Steel strength shear, concrete over steel deck, seismic, according to bottom figure 8,2 Vsa,deck Vsa,deck,eq Vsa,deck Vsa,deck,eq Reduction factor for steel strength in shear for steel deck applications f - 0.60 0.60 0.60 2,000,975 (8.8),480 (6.6) 965 (4.) 965 (4.),075 (.7) 0.75 2,000 2,495 (.),620 (7.2) For SI: inch = 25.4 mm. The data in this table is intended to be used with the design provisions of ACI 8 Appendix D; for anchors resisting seismic load combinations the additional requirements of ACI 8 D.. shall apply. 2. Installation must comply with published instructions and details.. All values of f were determined from the load combinations of UBC Section 605.2., UBC Section 62.2., or ACI 8 Section 9.2. If the load combinations of UBC Section 902.2 or ACI 8 Appendix C are used, the appropriate value of f must be determined in accordance with ACI 8 D.4.5. For reinforcement that meets ACI 8 Appendix D requirements for Condition A, see ACI 8 D.4.4 for the appropriate factor. 4. It is assumed that the threaded rod or bolt used with the Vertigo+ anchor will be a ductile steel element as defined by ACI 8 D.. 5. Tabulated values for steel strength in shear must be used for design. These tabulated values are lower than calculated results using equation D-20 in ACI 8-05 D.6..2 and D-8 in ACI 8-02, D.6..2. 6. s are permitted to be used in structural sand-lightweight concrete provided that Vb and Vcp are multiplied by a factor of 0.60 (not required for steel deck). 7. Reported values for steel strength in shear for seismic applications are based on test results per ACI 55.2 Section 9.6. 8. Values for Vsa,deck are for structural sand-lightweight concrete (f c,min =,000 psi) and additional lightweight concrete reduction factors need not be applied. In addition, evaluation for the concrete breakout capacity in accordance with ACI 8 D.6.2 and the pryout capacity in accordance with ACI 8 D.6. are not required for anchors installed in the flute (soffit). 9. loads for anchors installed through steel deck into concrete may be applied in any direction. 0. For 200 IBC, futa replaces fut; Vsa replaces Vs ; le replaces l; and Veq replaces Vs,seis.. The notation in brackets is for the 2006 IBC. 2. See installation details. 6

Ordering Information Factored Resistance Strength (ØN n And ØV n) Calculated In Accordance With ACI 8 Appendix D: - Tabular values are provided for illustration and are applicable for single anchors installed in normalweight concrete with minimum slab thickness, ha = hmin, and with the following conditions: - ca is greater than or equal to the critical edge distance, cac (table values based on ca = cac). - ca2 is greater than or equal to.5 times ca. 2- Calculations were performed according to ACI 8- Appendix D. The load level corresponding to the controlling failure mode is listed. (e.g. For tension: steel, concrete breakout and pullout; For shear: steel, concrete breakout and pryout). Furthermore, the capacities for concrete breakout strength in tension Ca and pryout strength in shear are calculated using the effective embedment values, hef, for the selected anchors as noted in the design information tables. Please also reference the installation specifications for more information. Ca2 - Strength reduction factors (ø) were based on ACI 8 Section 9.2 for load combinations. Condition B is assumed. 4- Tabular values are permitted for static loads only, seismic loading is not considered with these tables. 5- For designs that include combined tension and shear, the interaction of tension and shear loads must be calculated in accordance with ACI 8 Appendix D. 6- Interpolation is not permitted to be used with the tabular values. For intermediate base material compressive strengths please see ACI 8 Appendix D. For other design conditions including seismic considerations please see ACI 8 Appendix D. ha and Design Strength Cracked Concrete Size () Embed. ( ) Minimum Concrete Compressive Strength, f c (psi) 2,500,000 4,000 6,000 8,000 /4 940 665,00 665,90 665,200 665,200 665 940 880,00 965,90,5,455,65,680,575 /2 940 880,00 965,90,5,455,65,680,575 - Pullout/Pryout Strength Controls - Concrete Breakout Strength Controls - Steel Strength Controls and Design Strength Uncracked Concrete Size () Embed. ( ) Minimum Concrete Compressive Strength, f c (psi) 2,500,000 4,000 6,000 8,000 /4,200 665,200 665,200 665,200 665,200 665,25,20,455,50,680,560 2,055,65 2,75,65 /2,25,20,455,50,680,560 2,055,845 2,75,845 - Pullout/Pryout Strength Controls - Concrete Breakout Strength Controls - Steel Strength Controls Ordering Information Vertigo+ Rod Hanger (Carbon Steel w/blue Tip) Cat. No. Rod Dia. Screw Shank Size and Length Thread Style 780SD /4" 78SD " " x " Wedge-Bolt+ 782SD /2" An SDS " x 6" Wedge-Bit is included in each box of Vertigo+ Wedge-Bit Cat. No. Wedge-Bit Description Usable Length Pre-Drill " Wedge-Bit Box Box Ctn. 50 250 06 SDS " x 6" 4" 080 HD Straight Shank " x 6" 4" 5 25 Ctn. 7