KINETICS Seismic Design Manual

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TABLE OF CONTENTS ANCHOR BOLTS AND ATTACHMENT HARDWARE General Description P10.1 Submittal Data P10.2 KCAB Bolts (Wedge-Type s) P10.2.1 KUAB Bolts (Undercut s) P10.2.2 TG Groets (Oversized Holes and Cushioned age) P10.2.3 Selection Information P10.3 KCAB Wedge Type Selection Guide P10.3.1 KUAB Undercut type Selection Guide P10.3.2 Installation Instructions P10.4 TABLE OF CONTENTS (Chapter P10) ANCHOR BOLTS AND ATTACHMENT HARDWARE RELEASE DATE: 6/09/04 PAGE: P10.0

KCAB Wedge Type Seismic Data The Seismic Certification programs written and used by Kinetics Noise Control use the model KCAB Wedge Type data listed in Table P10.2.1-1 below. The various terms and dimensions referenced in this document are defined in Figure P10.2.1-1. Any anchors that are substituted and/or supplied by others must be evaluated and approved by the Design Professional of Record. The data listed in Table P10.2.1-1 is drawn form ICBO report data. All relevant factors for proper installation of these anchors are defined in documentation provided by Kinetics Noise Control. The data provided in Table P10.2.1-1 is based on concrete with a minimum compressive strength of 3,000 psi and a minimum embedment depth equal to 8 anchor diameters. Table P10.2.1-1: KCAB Wedge Type Seismic Basic Capacities (Reference: Figure P10.2.1-1) Size 3 Minimum Embedment Basic ASD Tensile Allowable 1 Basic ASD Shear Allowable 1 Minimum Spacing 2 Minimum Edge Distance 2 1/4 2 280 400 4 3-3/8 3/8 3 588 1,018 6 4-7/8 1/2 4 874 1,769 7 6-3/4 5/8 5 1,317 2,640 8 8-1/4 3/4 6 1,668 4,225 10-1/4 9-3/4 7/8 7 2,264 6,210 12-5/16 9-1/8 1 8 2,535 8,328 14-5/8 13-1/2 1 9 2,730 8,328 12 13-1/2 1-1/4 10 5,105 9,918 15 12-15/16 1) For Non-California projects these values may be inflated by 33-1/3% for seismic and wind applications. For California Non-OSHPD projects these values must be reduced by 20%. For California OSHPD projects the allowable loads for lightweight, 2,000 psi, concrete must be reduced by 20% to simulate cracked concrete. In this case the values listed here do not apply. 2) Minimum spacing and edge distance are required to develop the maximum listed allowable loads. 3) If the Clearance Hole Diameter is greater than or equal to 1/8 more than the Size, fill the clearance space with grout or epoxy, or use the appropriate Kinetics Noise Control model TG Groet. KCAB WEDGE TYPE SEISMIC ANCHOR DATA PAGE 1 OF 3 RELEASE DATE: 10/31/05 P10.2.1

Size Mounting Plate/Foot Slab/ Housekeeping Pad Thickness Min. Spacing Min. Edge Dist. Min. Embedment Min. Cover Length Code Stamped Here Clearance Hole Dia. Length Figure P10.2.1-1: KCAB Wedge Type Seismic Installation Guide. KCAB WEDGE TYPE SEISMIC ANCHOR DATA PAGE 2 OF 3 RELEASE DATE: 10/31/05 P10.2.1

Table P10.2.1-2: Length by Length Code Stamp ( Size Independent) Length Code Stamp Length Length Code Stamp Length A 1.5 to 2.0 K 6.5 to 7.0 B 2.0 to 2.5 L 7.0 to 7.5 C 2.5 to 3.0 M 7.5 to 8.0 D 3.0 to 3.5 N 8.0 to 8.5 E 3.5 to 4.0 O 8.5 to 9.0 F 4.0 to 4.5 P 9.0 to 9.5 G 4.5 to 5.0 Q 9.5 to 10.0 H 5.0 to 5.5 R 10.0 to 11.0 I 5.5 to 6.0 S 11.0 to 12.0 J 6.0 to 6.5 ---------- --------------- Table P10.2.1-3: Size vs. Tightening Torque for Standard Weight Concrete Size Tightening Torque (ft-lbs) 1/4 8.00 3/8 25.00 1/2 55.00 5/8 90.00 3/4 175.0 7/8 250.0 1 300.0 Table P10.2.1-4: Minimum Cover Requirements per ACI 318-02 Minimum Cover Concrete Exposure Condition Cast-in-Place & Nonprestressed 3 Cast-in-place and permanently exposed to the ground. 1-1/2 Exposed to the ground or weather. 3/4 Slabs, walls, or joists not exposed to the weather or ground. 1-1/2 Beams or Columns not exposed to the weather or ground. 3/4 Shells or folded plate members not exposed to the weather or ground. KCAB WEDGE TYPE SEISMIC ANCHOR DATA PAGE 3 OF3 RELEASE DATE: 10/31/05 P10.2.1

KUAB Type P Undercut Seismic Data The Seismic Certification programs written and used by Kinetics Noise Control use the model KUAB Type P Undercut data listed in Tables P10.2.2-1, P10.2.2-2, and P10.2.2-3 below. Type P indicates that the anchor is a pre-setting or pre-positioning type of anchor. The various terms and dimensions referenced in this document are defined in Figures P10.2.2-1, P10.2.2-2, and P10.2.2-3. Any other anchors that are substituted and/or supplied by others must be evaluated and approved by the Design Professional of Record. The data listed in Tables P10.2.2-1 through P10.2.2-3 is drawn from ICC ES Report ESR-1546 (Issued August 1, 2004). All relevant factors for proper installation of these anchors are defined in documentation provided by Kinetics Noise Control. The values in Table P10.2.2-1 are based on normal-weight concrete with a compressive strength of 3,000 psi, and are adjusted for seismic and wind loading applications in accordance with the provisions established in ACI 318-02 Appendix D. Table P10.2.2-1: KUAB Type P Undercut Seismic Capacities. (Reference: Figure P10.2.2-1) Undercut Model KUAB-01 KUAB-02 KUAB-03 KUAB-04 Size 1 M10 (3/8) M12 (1/2) M16 (5/8) M20 (3/4) Req. Embed. 2 100 (3.94) 125 (4.92) 190 (7.48) 250 (9.84) Seismic Tensile ASD 3 N 19,424 (4,365) 24,284 (5,457) 48,567 (10,914) 72,851 (16,371) Seismic Shear ASD 3 N 8,869 (1,993) 12,856 (2,889) 23941 (5,380) 36797 (8,269) Req. Spacing 2 300 (11.81) 375 (14.76) 570 (22.44) 750 (29.53) Req. Edge Dist. 2 150 (5.91) 188 (7.38) 285 (11.22) 375 (14.76) Length Code Stamp I L R V 1 - If the Clearance Hole Diameter is greater than or equal to 1/8 more than the Size, fill the clearance space with grout or epoxy, or use the appropriate Kinetics Noise Control model TG Groet. 2 - Required embedment, spacing, and edge distance are required to develop the maximum listed allowable loads. 3 - These values may not be inflated by 33-1/3% for seismic and wind applications! KUAB TYPE P UNDERCUT SEISMIC ANCHOR DATA PAGE 1 OF 3 RELEASE DATE: 10/31/05 P10.2.2

H = Req. Embed. + Cover Req. Edge Dist. Mounting Plate/Foot Req. Spacing Length Code Stamp Figure P10.2.2-1: KUAB Type P Undercut Seismic Placement Guide. Table P10.2.2-2: KUAB Type P Undercut Seismic Dimensional Data. (Reference: Figure P10.2.2-2) Undercut Model Size A B C D E F G H (in Req. Edge Dist. Length Code Stamp KUAB-01 KUAB-02 M10 (3/8) M12 (1/2) 20 (0.79) 22 (0.87) 107 (4.21) 135 (5.31) 20 (0.79) 30 (1.18) 12 (0.47) 14 (0.55) 10 (0.39) 12 (0.47) 17 (0.67) 19 (0.75) 27.5 (1.08) 33.5 (1.32) 170 (6.69) 190 (7.48) I L KUAB-03 M16 (5/8) 30 (1.18) 203 (7.99) 40 (1.57) 18 (0.71) 16 (0.63) 24 (0.94) 45.5 (1.79) 270 (10.63) R KUAB-04 M20 (3/4) 37 (1.46) 266 (10.47) 50 (1.97) 22 (0.87) 20 (0.79) 30 (1.18) 50 (1.97) 350 (13.78) V KUAB TYPE P UNDERCUT SEISMIC ANCHOR DATA PAGE 2 OF 3 RELEASE DATE: 10/31/05 P10.2.2

ØG - Washer Dia. F - Across Flats ØE - Stud Dia. ØD Clearance Hole ØA - Drill Dia. B - Min. Drill Depth C - Max. Grip H - Min. Concrete Thickness Figure P10.2.2-2: KUAB Type P Undercut Seismic Installation Guide. Table P10.2.2-3: Size vs. Tightening Torque for Standard Weight Concrete. Undercut Model Size Tightening Torque N-m (ft-lbs) Length Code Stamp KUAB-01 M10 (3/8) 50 (37) I KUAB-02 M12 (1/2) 80 (59) L KUAB-03 KUAB-04 M16 (5/8) M20 (3/4) 120 (88) 300 (221) R V KUAB TYPE P UNDERCUT SEISMIC ANCHOR DATA PAGE 3 OF 3 RELEASE DATE: 10/31/05 P10.2.2

TG Bolt Isolation Groet Submittal Data The Kinetics Noise Control model TG Bolt Isolation Groet is used primarily to fill the excess clearance in the anchor/bolt holes in equipment/isolator mounting plates/feet. The codes and best practice require that the diameter of an anchor/bolt hole not exceed the diameter of the anchor/bolt by more than 1/8 inch. In many cases, the seismic analysis will indicate that an anchor/bolt of smaller size than that provided for in the mounting plate/foot may be used for a specific application. The Kinetics Noise Control model TG Bolt Isolation Groet may be used in these cases to bring the anchor/bolt hole clearance into line with the code and best practice recoended clearance for the smaller anchor/bolt size. In order to perform satisfactorily in this type of application, the material used for the model TG Bolt Isolation Groet is 80 Durometer Neoprene. A typical Kinetics Noise Control model TG Bolt Isolation Groet is shown below in Figure P10.2.3-1. The dimensional data for the product family line is given in Tables P10.2.3-1 and P10.2.3-2. A typical TG Bolt Isolation Groet Installation is shown in Figure P10.2.3-2. Size C KINETICS 1/4 TG-25 ØB Model No. ØA D 80 Durometer Neoprene ØE Figure P10.2.3-1: Typical Model TG Bolt Isolation Groet. TG BOLT ISOLATION GROMMET SUBMITTAL DATA PAGE 1 OF 3 RELEASE DATE: 9/20/04 P10.2.3

Table P10.2.3-1: TG Bolt Isolation Groet English Dimensional Data. Model / Bolt Size A B C D E TG-25 1/4 1.00 0.25 0.13 0.38 0.50 TG-38 3/8 1.25 0.38 0.13 0.50 0.63 TG-50 1/2 1.63 0.50 0.13 0.50 0.75 TG-63 5/8 2.00 0.63 0.19 0.63 0.88 TG-75 3/4 2.25 0.75 0.19 0.63 1.00 TG-100 1 2.75 1.00 0.25 0.88 1.25 TG-125 1-1/4 3.25 1.25 0.25 0.88 1.50 TG-150 1-1/2 3.75 1.50 0.25 1.00 1.75 Table P10.2.3-2: TG Bolt Isolation Groet Metric Dimensional Data. Model / Bolt Size A () B () C () D () E () TG-25 1/4 25.4 6.4 3.2 9.5 12.7 TG-38 3/8 31.8 9.5 3.2 12.7 15.9 TG-50 1/2 41.3 12.7 3.2 12.7 19.1 TG-63 5/8 50.8 15.9 4.8 15.9 22.2 TG-75 3/4 57.2 19.1 4.8 15.9 25.4 TG-100 1 69.9 25.4 6.4 22.2 31.8 TG-125 1-1/4 82.6 31.8 6.4 22.2 38.1 TG-150 1-1/2 95.3 38.1 6.4 25.4 44.4 TG BOLT ISOLATION GROMMET SUBMITTAL DATA PAGE 2 OF 3 RELEASE DATE: 9/20/04 P10.2.3

ANCHOR/BOLT MODEL TG BOLT ISOLATION GROMMET MOUNTING PLATE/FOOT OVERSIZED HOLE IN MOUNTING PLATE/FOOT Figure P10.2.3-2: Typical TG Bolt Isolation Groet Installation. TG BOLT ISOLATION GROMMET SUBMITTAL DATA PAGE 3 OF 3 RELEASE DATE: 9/20/04 P10.2.3

KINETICS Seismic Design Manual KCCAB CRACKED CONCRETE WEDGE TYPE SEISMIC ANCHOR DATA Table P10.2.4-1; Model KCCAB Capacities Standard Embedment in 3,000 psi Normal Weight Concrete Size Pilot Hole Depth Embedment Allowable Tensile Load (ASD) Allowable Combined Load (ASD) Allowable Shear Load (ASD) Critical Spacing Critical Edge Distance 3/8 2 5/8 2 808 567 922 6 4 3/8 4 1/2 4 3 1/4 1,750 1,251 2,082 9 3/4 7 1/2 6 5/8 4 3/4 4 2,079 1,675 3,430 12 9 6 3/4 5 3/4 4 3/4 3,133 2,525 5,177 14 1/4 11 3/4 8 Minimum Concrete Thickness Vertical Load 3,500 3,000 2,500 2,000 1,500 1,000 3/8 1/2 5/8 3/4 500 0 0 500 1,000 1,500 2,000 2,500 3,000 3,500 4,000 4,500 5,000 5,500 Horizontal Load Figure P10.2.4-1; Seismic Capacity Envelopes for Model KCCAB Concrete s with Standard Embedment KCCAB CRACKED CONCRETE WEDGE TYPE SEISMIC ANCHOR DATA PAGE 1 of 3 SECTION P10.2.4 Toll Free (USA Only): RELEASED ON: 03/04/2010 FAX E-mail: Dublin, Ohio, USA Mississauga, Ontario, Canada Member

KINETICS Seismic Design Manual Size Mounting Plate/Foot Slab/ Housekeeping Pad Thickness Min. Spacing Min. Edge Dist. Min. Embedment Min. Cover Length Code Stamped Here Clearance Hole Dia. Length Figure P10.2.4-2; KCCAB Cracked Concrete Seismic Installation Guide KCCAB CRACKED CONCRETE WEDGE TYPE SEISMIC ANCHOR DATA PAGE 2 of 3 SECTION P10.2.4 Toll Free (USA Only): RELEASED ON: 03/04/2010 FAX E-mail: Dublin, Ohio, USA Mississauga, Ontario, Canada Member

KINETICS Seismic Design Manual Table P10.2.4-2: Length by Length Code Stamp ( Size Independent) Length Code Stamp Length Length Code Stamp Length A 1.5 up to 2.0 M 7.5 up to 8.0 B 2.0 up to 2.5 N 8.0 up to 8.5 C 2.5 up to 3.0 O 8.5 up to 9.0 D 3.0 up to 3.5 P 9.0 up to 9.5 E 3.5 up to 4.0 Q 9.5 up to 10.0 F 4.0 up to 4.5 R 10.0 up to 11.0 G 4.5 up to 5.0 S 11.0 up to 12.0 H 5.0 up to 5.5 T 12.0 up to 13.0 I 5.5 up to 6.0 U 13.0 up to 14.0 J 6.0 up to 6.5 V 14.0 up to 15.0 K 6.5 up to 7.0 W 15.0 up to 16.0 L 7.0 up to 7.5 ---------- --------------- Table P10.2.4-3: Size vs. Tightening Torque for Standard Weight Concrete Size Tightening Torque (ft-lbs) 3/8 25.00 1/2 40.00 5/8 60.00 3/4 110.0 KCCAB CRACKED CONCRETE WEDGE TYPE SEISMIC ANCHOR DATA PAGE 3 of 3 SECTION P10.2.4 Toll Free (USA Only): RELEASED ON: 03/04/2010 FAX E-mail: Dublin, Ohio, USA Mississauga, Ontario, Canada Member

KCAB Wedge Type Selection Guide For wedge type concrete anchors, the factor of safety is computed using the following equation. F.S. 1 = 1/[(T/T A ) (5/3) + (P/P A ) (5/3) ] (Eq. P10.3.1-1) Where: F.S. = the factor of safety. T = the applied tensile force acting on the anchor. T A = the allowable tensile load for the specified anchor size. P = the applied shear force acting on the anchor. P A = the allowable shear load for the specified anchor size. It is possible to use Equation P10.3.1-1 to compute an allowable combined anchor load where the applied tensile force is equal to the applied shear force. With this information, a capacity envelope may be constructed for the various wedge type concrete anchors that are specified and used by Kinetics Noise Control. In Equation P10.3.1-2 the applied tensile load has been made equal to the applied shear load, and is designated as F C. 1 = 1/[(F C /T A ) (5/3) + (F C /P A ) (5/3) ] (Eq. P10.3.1-2) Solving Equation P10.3.1-2 for F C and simplifying will yield the following result. F C = ( T A * P A ) * [1/(T A (5/3) + P A (5/3) )] (3/5) (Eq. P10.3.1-3) The data provided in Table P10.3.1-1 is based on concrete with a minimum compressive strength of 3,000 psi and a minimum embedment depth equal to 8 anchor diameters. The capacity envelopes for the anchors presented in Table P10.3.1-1 are plotted in Figures P10.3.1-1 through P10.3.1-4. KCAB ANCHOR SELECTION GUIDE PAGE 1 OF 5 RELEASE DATE: 10/31/05 P10.3.1

Size 2 Table P10.3.1-1; KCAB Wedge Type Basic Capacities. Minimum Required Embed. Depth ASD Tensile Load 1 (T=0) ASD Shear Load 1 (P=0) ASD Comb. Load 1 (F C =T=P) (lbs LRFD Tensile Load 1 (T=0) LRFD Shear Load 1 (P=0) LRFD Com. Load 1 (F C =T=P) 1/4 2 280 400 215 392 560 301 3/8 3 588 1,018 480 823 1,425 672 1/2 4 874 1,769 744 1,224 2,477 1,041 5/8 5 1,317 2,640 1,118 1,844 3,696 1,565 3/4 6 1,668 4,225 1,486 2,335 5,915 2,080 7/8 7 2,264 6,210 2,044 3,170 8,694 2,861 1 8 2,535 8,328 2,346 3,549 11,659 3,285 1 9 2,730 8,328 2,503 3,822 11,659 3,504 1-1/4 10 5,105 9,918 4,301 7,147 13,885 6,021 1) For Non-California projects these values may be inflated by 33-1/3% for seismic and wind applications. For California Non-OSHPD projects these values must be reduced by 20%. For California OSHPD projects the allowable loads for lightweight, 2,000 psi, concrete must be reduced by 20% to simulate cracked concrete. In this case the values listed here do not apply. 2) If the Clearance Hole Diameter is greater than or equal to 1/8 more than the Size, fill the clearance space with grout or epoxy, or use the appropriate Kinetics Noise Control model TG Groet. KCAB ANCHOR SELECTION GUIDE PAGE 2 OF 5 RELEASE DATE: 10/31/05 P10.3.1

900 Tensile Load Tensile Load 800 700 600 500 400 300 200 100 0 1/4" 3/8" 1/2" 0 200 400 600 800 1,000 1,200 1,400 1,600 1,800 Shear Load Figure P10.3.1-1; Basic ASD Values for 1/4 through 1/2 s. 2,500 5/8" 2,000 3/4" 7/8" 1,500 1,000 500 0 0 1,000 2,000 3,000 4,000 5,000 6,000 7,000 Shear Load Figure 10.3.1-2; Basic ASD Values for 5/8 Though 7/8 s KCAB ANCHOR SELECTION GUIDE PAGE 3 OF 5 RELEASE DATE: 10/31/05 P10.3.1

6,000 Tensile Load Tensile Load 5,000 4,000 3,000 2,000 1,000 0 1" @ 8" Embed. 1" @ 9" Embed. 1-1/4" 0 2,000 4,000 6,000 8,000 10,000 Shear Load Figure P10.3.1-3; Basic ASD Values for 1 through 1-1/4 s. 1,400 1,200 1/4" 3/8" 1,000 1/2" 800 600 400 200 0 0 250 500 750 1,000 1,250 1,500 1,750 2,000 2,250 2,500 Shear Load Figure 10.3.1-4; Basic LRFD Values for 1/4 Though 5/8 s KCAB ANCHOR SELECTION GUIDE PAGE 4 OF 5 RELEASE DATE: 10/31/05 P10.3.1

3,500 Tensile Load Tensile Load 3,000 2,500 2,000 1,500 1,000 500 0 5/8" 3/4" 7/8" 0 1,000 2,000 3,000 4,000 5,000 6,000 7,000 8,000 9,000 Shear Load Figure P10.3.1-5; Basic LRFD Values for 5/8 through 7/8 s. 8,000 7,000 1" @8" Embed. 1" @ 9" Embed. 6,000 1-1/4" 5,000 4,000 3,000 2,000 1,000 0 0 2,000 4,000 6,000 8,000 10,000 12,000 14,000 Shear Load Figure 10.3.1-2; Basic LRFD Values for 1 Though 1-1/4 s KCAB ANCHOR SELECTION GUIDE PAGE 5 OF 5 RELEASE DATE: 10/31/05 P10.3.1

KUAB Type P Undercut Seismic Selection Guide The Kinetics Noise Control model KUAB Type P Undercut Seismic s are purchased from HILTI, Inc., and are described in Document P.10.2.2. The Seismic Restraint Envelopes for this type of anchor will be constructed according to the information found in ICC ES Report number ESR-1546, Section 4.2.1. In this document, the following definitions will apply. T = the applied tensile load in the anchor. T A = the allowable tensile load in the anchor, ASD or LRFD. P = the applied shear load in the anchor. P A = the allowable shear load in the anchor, ASD or LRFD. F C = the combined load case where T = P. For applied shear loads P 0.2P A the full allowable load in tension T A may be taken. For applied tensile loads T 0.2T A the full allowable load in shear P A may be taken. For all other conditions; (T/T A ) + (P/P A ) 1.2 (Eq. P10.3.2-1) Setting T = P = F C, and solving for the combined load F C will provide the closing data point for the Seismic Restraint Envelopes. F C = 1.2T A P A /(P A +T A ) (Eq. P10.3.2-2) The ASD, and LRFD Allowable Tensile, Shear, Combined Loads for the Kinetics Noise Control model KUAB Type P Undercut Seismic s are given in Table P10.3.2-1. The Seismic Restraint Envelopes for those anchors are presented in Figures P10.3.2-1 and P10.3.2-2 for ASD values, and Figures P10.3.2-3 and P10.3.2-4 for LRFD values. KUAB TYPE P SEISMIC ANCHOR SELECTION GUIDE PAGE 1 OF 4 RELEASE DATE: 10/31/05 P10.3.2

Table P10.3.2-1; KUAB Type P Undercut Seismic Type Capacities (HILTI HDA-P Undercut Concrete s) Size 1 () [ Stud ] Min. Req. d Embed. Depth ASD Tensile Load 2 (T=0) ASD Shear Load 2 (P=0) ASD Comb. Load 2 (F C =T=P) LRFD Tensile Load 2 (T=0) LRFD Shear Load 2 (P=0) LRFD Comb. Load 2 (F C =T=P) M10 [ 3/8 ] 4 4,365 1,993 1,642 6,111 2,790 2,299 M12 [ 1/2 ] 5 5,457 2,889 2,267 7,640 4,045 3,174 M16 [ 5/8 ] 7-1/2 10,914 5,380 4,324 15,280 7,532 6,054 M20 [ 3/4 ] 9-7/8 16,371 8,269 6,593 22,919 11,577 9,230 1) If the Clearance Hole Diameter is greater than or equal to 1/8 more than the Size, fill the clearance space with grout or epoxy, or use the appropriate Kinetics Noise Control model TG Groet. 2) These values may not be inflated by 33-1/3% for seismic and wind applications! Tensile Load 3,500 3,000 2,500 2,000 1,500 1,000 500 M10 M12 0 0 1,000 2,000 3,000 4,000 5,000 6,000 Shear Load Figure P10.3.2-1; Basic ASD Values for M10 and M12 s. KUAB TYPE P SEISMIC ANCHOR SELECTION GUIDE PAGE 2 OF 4 RELEASE DATE: 10/31/05 P10.3.2

9,000 Tensile Load Tensile Load 8,000 7,000 6,000 5,000 4,000 3,000 2,000 1,000 0 M16 M20 0 5,000 10,000 15,000 20,000 Shear Load Figure P10.3.2-2; Basic ASD Values for M16 and M20 s. 4,500 4,000 3,500 M10 3,000 M12 2,500 2,000 1,500 1,000 500 0 0 2,000 4,000 6,000 8,000 10,000 Shear Load Figure P10.3.2-3; Basic LRFD Values for M10 and M12 s. KUAB TYPE P SEISMIC ANCHOR SELECTION GUIDE PAGE 3 OF 4 RELEASE DATE: 10/31/05 P10.3.2

14,000 Tensile Load 12,000 10,000 8,000 6,000 4,000 2,000 0 M16 M20 0 5,000 10,000 15,000 20,000 25,000 Shear Load Figure P10.3.2-4; Basic LRFD Values for M16 and M20 s. KUAB TYPE P SEISMIC ANCHOR SELECTION GUIDE PAGE 4 OF 4 RELEASE DATE: 10/31/05 P10.3.2

KINETICS Seismic Design Manual ANCHOR INSTALLATION INSTRUCTION KCAB-KCCAB KCAB and KCCAB anchors shall be installed in holes drilled into the base material using carbidetipped masonry drill bits complying with ANSI B212.15-1994. The nominal drill bit diameter shall be equal to that of the anchor. The drilled hole shall exceed the required anchor embedment depth by at least one anchor diameter to permit over-driving of anchors and to provide a dust collection area. s shall be installed to a minimum embedment depth and with at least the minimum edge distance as specified in the table below. Size Minimum Embedment KCAB Data Minimum Edge Distance Minimum Embedment KCCAB Data Minimum Edge Distance 0.25 2.0 3.38 0.38 3.0 4.88 2.00 6.50 0.50 4.0 6.75 3.25 7.50 0.62 5.0 8.25 4.00 8.75 0.75 6.0 9.75 4.75 9.00 1.00 8.0 13.50 1.00 (Hi Capacity) 9.0 13.50 The anchor shall be haered into the predrilled hole until at least 6 threads (KCAB) or 4 threads (KCCAB) are below the fixture surface. The nut shall be tightened against the washer until the torque values specified in the table below are obtained. KCAB Data KCCAB Data Size Torque (in lb) Torque (Nm) Torque (in lb) Torque (Nm) 0.25 4 6 0.38 20 27 25 34 0.50 40 54 40 54 0.62 85 115 60 81 0.75 150 202 110 149 1.00 325 439 See page to follow for detailed installation procedure. TITLE: KCAB & KCCAB ANCHOR INSTALLATION INSTRUCTIONS PAGE 1 of 2 SECTION P10.4 Toll Free (USA Only): RELEASED ON: 11/07/2008 FAX E-mail: Dublin, Ohio, USA Mississauga, Ontario, Canada Member

KINETICS Seismic Design Manual 1) Haer drill a hole to the same nominal diameter as the KCAB or KCCAB using a bit complying with ANSI B212.15-1994. The hole depth should exceed the listed embedment depth by 1 anchor diameter. The component being restrained can be used as a guide to properly locate the hole. 2) Clean the hole using an air source to blow the debris out. 3) Drive the anchor bolt into the hole using a haer. a) KCAB anchors should be driven in to their rated embedment depth (with at least 6 threads being driven below the surface against which the nut will bear). b) KCCAB anchors should be driven in to their rated embedment depth (with the marker on the side of the anchor flush with the concrete surface and with at least 4 threads being driven below the surface against which the nut will bear). 4) Tighten the nut to the recoended installation torque. TITLE: KCAB & KCCAB ANCHOR INSTALLATION INSTRUCTIONS PAGE 2 of 2 SECTION P10.4 Toll Free (USA Only): RELEASED ON: 11/07/2008 FAX E-mail: Dublin, Ohio, USA Mississauga, Ontario, Canada Member

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