Blue Banger Hanger Cast-In-Place, Internally Insert Wood-Form Insert Multi-thread, cast-in-place wood-form and metal-deck inserts for cracked and uncracked concrete maximize jobsite efficiency and reduce inventory commitment. Also available in metal-roof-deck insert version, offering a low-profile design that does not interfere with roofing material. Features Code listed under the /IRC in accordance with AC6 for cracked and uncracked concrete applications, per ICC-ES ESR-30 Multi-thread design allows insert to accept multiple rod diameters Blue plastic ring acts as an insert locator when forms are removed Plastic ring creates a countersunk recess to keep internal threads clean from concrete residue Nails snap off with a hammer strike after the forms are removed Material: Carbon steel Coating: Yellow zinc dichromate coating Codes: ICC-ES ESR-30; Factory Mutual 303 (see pipe size limit tables); Underwriters Laboratories File Ex3605 (see pipe size limit tables) Installation 1. Strike the top of the hanger and drive the 3 mounting nails into the forming material until the bottom of the hanger is flush with the bottom of the plywood. The hanger should be sitting 90 from the forming material.. Once concrete is hardened and forms are stripped, strike the mounting nails to break them off. 3. Insert the rod into the sleeve and thread it into the hanger. Cracked Concrete CODE LISTED Installation Sequence Patented multi-thread design allows one product to handle up to three rod diameters. C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. Product Data Hanger Type For Rod Diameter (in) Number Carton Qty.,, BBWF550 00 Wood-Form Insert,, BBWF36 150, BBWF65 150 1
Blue Banger Hanger Cast-In-Place, Internally Insert Metal-Deck Insert Features Code-listed under the /IRC in accordance with AC6 for cracked and uncracked concrete applications, per ICC-ES ESR-30 Multi-thread design allows insert to accept multiple rod diameters Compression spring keeps insert perpendicular to deck, even if bumped or stepped on after installation 3" plastic sleeve keeps internal threads clean and provides guidance to align threaded rod with the internal threads Extended sleeve length allows easy location of insert even with fireproofing on the underside of the deck Installed height of " allows insert to be used on top of or between deck flutes Material: Carbon steel Coating: Yellow zinc dichromate coating Codes: ICC-ES ESR-30; Factory Mutual 303 (see pipe size limit tables); Underwriters Laboratories File Ex3605 (see pipe size limit tables) Installation 1. Drill a hole in the metal deck using the appropriate diameter bit as referenced in the table.. Insert the hanger in the hole and strike the top so that the plastic sleeve is forced through the hole and expands against the bottom side of the deck. The anchor can also be installed by stepping on it. 3. Insert the rod into the sleeve and thread it into the hanger. Cracked Concrete CODE LISTED Installation Sequence C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. Patented multi-thread design allows one product to handle up to three rod diameters. Product Data Hanger Type For Rod Diameter (in) Deck Hole Diameter (in) Number Carton Qty.,, 13 16 BBMD550 100 Metal-Deck Insert,, 1-1 3 16 BBMD36 50, 1 3 16-1 BBMD65 50 15
3" Simpson Strong-Tie Anchoring and Fastening Systems for Concrete and Masonry Blue Banger Hanger Cast-In-Place, Internally Insert Metal-Roof-Deck Insert Features Multi-thread design: The insert accepts three different rod diameters Low-profile design does not interfere with roofing material Positive attachment to the roof deck prevents spinning and keeps the hanger in position Pre-staked, self-drilling screws allow quick installation Material: Carbon steel Coating: Yellow zinc dichromate coating Installation 1. Drill a hole in the metal deck using the appropriate diameter bit as referenced in the table.. Insert the hanger into the hole and fasten to the deck with the two pre-staked screws provided. 3. Insert the rod into the sleeve and thread it into the hanger. Installation Sequence Product Data Hanger Type For Rod Diameter Deck Hole Diameter Number Carton Qty. Roof-Deck Insert,, BBRD550 50 6" C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. 0.5" 0.5" 1.5" ".5" 0.65" 16
C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. Wood-Form Insert: Tension and Shear Strength Design Data 1,,3,,5,6, Design Information Symbol Units BBWF550 BBWF36 BBWF65 Insert outside diameter d a 0.11 1.00 1.10 Effective embedment depth h ef 1.5 1.95 1.5 Insert steel characterization Non-ductile Modification factor for insert tension strength for inserts located in a region of a concrete Y member where analysis indicates no cracking at service load levels c,n 1.5 1.5 1.5 Nominal tension strength of single insert in tension as governed by steel strength N sa,insert lb.,15 16,55 1,65 Nominal seismic tension strength of single insert in tension as governed by steel strength N sa,insert,eq lb.,695,195,695 Nominal steel shear strength of single insert V sa lb. 6,10,10,60 Nominal steel shear strength of single insert for seismic loading V sa,eq lb. 6,10,10,60 1. Concrete must be normal-weight or lightweight concrete with f' c of 3,000 psi minimum.. Only the largest size of threaded rod specified for each insert must be used for applications resisting shear loads. 3. Design of headed cast-in specialty inserts shall be in accordance with the provisions of ACI 31 Appendix D for cast-in headed anchors. The value of k c shall be in accordance with the value for cast-in anchors in D.5.... Strength reduction factors shall be taken from ACI 31-11 D..3 for cast-in headed anchors. Metal-Deck Insert: Tension and Shear Strength Design Data 1,,3,,5,6, Design Information Symbol Units BBMD550 BBMD36 BBMD65 Insert outside diameter d a 0.9 1.16 1.9 Effective embedment depth h ef 1.9 1.9 1.9 Insert steel characterization Non-ductile Modification factor for insert tension strength for inserts located in a region of a concrete Y member where analysis indicates no cracking at service load levels c,n 1.5 1.5 1.5 Nominal tension strength of single insert in tension as governed by steel strength N sa,insert lb. 10,05 16,655 1,00 Nominal seismic tension strength of single insert in tension as governed by steel strength N sa,insert,eq lb.,90,90,90 Nominal steel shear strength of single insert in the soffit of concrete on metal deck, lower flute V sa,deck,lower lb. 3,105,610 3,35 Nominal steel shear strength of single insert in the soffit of concrete on metal deck, upper flute V sa,deck,upper lb. 3,500 1,10 5,565 Nominal steel shear strength of single insert in the soffit of concrete on metal deck, for seismic loading, lower flute Nominal steel shear strength of single insert in the soffit of concrete on metal deck, for seismic loading, upper flute 1. Concrete must be normal-weight or lightweight concrete with f' c of 3,000 psi minimum.. Only the largest size of threaded rod specified for each insert must be used for applications resisting shear loads. 3. Design of headed cast-in specialty inserts shall be in accordance with the provisions of ACI 31 Appendix D for cast-in headed anchors. The value of k c shall be in accordance with the value for cast-in anchors in D.5.... Strength reduction factors shall be taken from ACI 31-11 D..3 for cast-in headed anchors. 5. Strength reduction factor for load combinations of ACI 31 Section 9. governed by steel strength shall be taken as 0.65 for tension and 0.60 for shear. 6. The concrete tension strength of headed cast-in specialty inserts in the sofit of concrete on metal deck assemblies shall be calculated in accordance with ACI 31 Appendix D and Figure 1.. Insert outside diameter = outside diameter of plastic sleeve.. The strengths shown in the table are for inserts only. Design professional is responsible for checking threaded rod strength in tension, shear and combined tension and shear, and the influence of bending on tension values when loaded in shear, as applicable. See page 1 for an explanation of the load table icons. 5. Strength reduction factor for load combinations of ACI 31 Section 9. governed by steel strength shall be taken as 0.65 for tension and 0.60 for shear. 6. The concrete tension strength of headed cast-in specialty inserts shall be calculated in accordance with ACI 31 Appendix D.. Insert outside diameter = outside diameter of plastic sleeve.. The strengths shown in the table are for inserts only. Design professional is responsible for checking threaded rod strength in tension, shear and combined tension and shear, as applicable. V sa,deck,lower,eq lb. 3,105,610 3,35 V sa,deck,upper,eq lb. 3,500 1,10 5,565 c a,min ANco ANc ANco ANc BBMD Insert Ncb Metal deck Ncb rod Figure 1. Idealization of concrete on deck; determination of concrete breakout strength in accordance with ACI 31. 1
Wood-Form Insert: Tension Design Strengths in Normal-Weight Concrete (f' c = 3,000 psi) BBWF550 BBWF36 BBWF65 Rod Rod Nominal M Concrete Thickness h min Critical Edge Distance c ac Tension Design Strength Based on Concrete (lb.) Minimum Edge Edge Distances = c ac on all sides Edge Distances = c min on one side and c ac Distance on three sides c min C A-B 5 C C-F 6, C A-B 5 C C-F 6, Uncracked Cracked Uncracked Cracked Uncracked Cracked Uncracked Cracked 3 1,955,365,15 1,0 1,950 1,560 1,60 1,10 3 1 9 16 3,10,515,355 1,5,00 1,655 1,550 1,0 3 1,955,365,15 1,0,00 1,630 1,530 1,5 Tension Design Strength of Rod Steel (lb.) A35 B/BM 1,35 1,90,90 1,35,60,65,90 1,360 3,30,360,0 3,90 6,95 6,395,0 3,310 6,15,990 13,315 6,390 1,0 11,15 13,315 6,00 9,35 1,15 1,190 10,10 0,30 1,65 1,190 9,660 1,530 1,90 31,315 15,030 30,060,555 31,315 1,0 1. Tension design strengh must be the lesser of the concrete or threaded rod strength.. Tension design strengths are based on the strength design provisions of ACI 31-11 Appendix D.. Strength reduction factor, φ, is based on using a load combination from ACI 31-11 Section 9.. 5. The tension design strength listed for C (Seismic Design Category) A-B may also be used in C C-F when the tension component of the strength-level seismic design load on the anchor does not exceed 0% of the total factored tension load on the anchor associated with the same load combination. 6. When designing anchorages in C C-F, the designer shall consider the ductility requirements of ACI 31-11 Section D.3.3.. Tension design strengths in C C-F have been adjusted by 0.5 factor in accordance with ACI 31-11 Section D.3.3... Wood-Form Insert: Allowable Tension Loads in Normal-Weight Concrete (f' c = 3,000 psi) Static Load BBWF550 BBWF36 BBWF65 Rod Rod Nominal M Concrete Thickness h min Critical Edge Distance c ac Minimum Edge Distance c min Edge Distances = c ac on all sides Edge Distances = c min on one side and c ac on three sides Uncracked Cracked Uncracked Cracked 3 1,110 1,690 1,395 1,115 3 1 9 16,5 1,95 1,0 1,10 3 1,110 1,690 1,55 1,165 Allowable Tension Load of Rod Steel (lb.) A35 B/BM C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. 990 1,0,130 1,05,05 1,5,130 90,05 3,115 5,195,95,90,50 5,195,365,10 5,05 9,510,565 9,130,30 9,510,335,05 9,00 15,135,65 1,530 13,30 15,135 6,900 10,30 13,0,30 10,35 1,0 19,60,30 10,00. Allowable tension loads are calculated based on the strength design provision of ACI 31-11 Appendix D using a conversion factor of α = 1.. The conversion factor α is based on the load combination 1.D + 1.6L assuming 50% dead load and 50% live load: 1.(0.5) + 1.6(0.5) = 1.. 1 See page 1 for an explanation of the load table icons.
Wood-Form Insert: Allowable Tension Loads in Normal-Weight Concrete (f' c = 3,000 psi) Wind Load Rod Nominal M Concrete Critical Edge Minimum Edge Thickness h min Distance c ac Distance c Edge Distances = Edge Distances = c min on one min c ac on all sides side and c ac on three sides Uncracked Cracked Uncracked Cracked BBWF550 3 1 1,5 1,0 1,10 935 BBWF36 3 19 16 1,5 1,510 1,0 995 BBWF65 3 1 1,5 1,0 1,5 90 Rod Allowable Tension Load of Rod Steel (lb.) 30 1,05 1,90 60 1,15 1,55 1,90 15 A35 B/BM,00,615,360,095,15 3,35,360 1,95 3,05,95,990 3,35,60,030,990 3,60 5,900,630 1,15 6,100 1,05 11,15 1,15 5,95,0 11,5 1,90 9,00 1,035 16,535 1,90,50. Allowable tension loads are calculated based on the strength design provision of ACI 31-11 Appendix D using a conversion factor of α = 1 0.6 = 1.6. The conversion factor α is based on the load combination assuming 100% wind load. C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. Wood-Form Insert: Allowable Tension Loads in Normal-Weight Concrete (f' c = 3,000 psi) Seismic Load Nominal M Critical Minimum Rod Concrete Edge Edge Edge Distances = c Thickness Distance Distance ac on all sides h min c ac c min BBWF550 BBWF36 BBWF65 Rod Edge Distances = c min on one side and c ac on three sides C A-B C C-F 5,6 C A-B C C-F 5,6 Uncracked Cracked Uncracked Cracked Uncracked Cracked Uncracked Cracked 3 1,00 1,655 1,550 1,0 1,365 1,090 1,00 0 3 1 9 16,00 1,60 1,650 1,30 1,50 1,160 1,05 0 3 1,00 1,655 1,550 1,0 1,30 1,10 1,00 60 Allowable Tension Load of Rod Steel (lb.) 90 1,55,05 1,005,000 1,0,05 950 A35 B/BM,360 3,050 5,090,5,5,5 5,090,315,35 5,595 9,30,5,95,00 9,30,50 6,5,900 1,35,10 1,0 13,050 1,35 6,60 10,10 13,155 1,90 10,50 1,00 19,90 1,90 9,995. Allowable tension loads are calculated based on the strength design provision of ACI 31-11 Appendix D using a conversion factor of α = 1 0. = 1.3. The conversion factor α is based on the load combination assuming 100% seismic load.. The allowable tension load listed for C (Seismic Design Category) A-B may also be used in C C-F when the tension component of the strength-level seismic design load on the anchor does not exceed 0% of the total factored tension load on the anchor associated with the same load combination. 5. When designing anchorages in C C-F, the designer shall consider the ductility requirements of ACI 31-11 Section D.3.3. 6. Tension design strengths in C C-F have been adjusted by 0.5 factor in accordance with ACI 31-11 Section D.3.3... See page 1 for an explanation of the load table icons. 19
Metal-Deck Insert: Tension Design Strength in Soffit of Normal-Weight or Sand-Lightweight Concrete-Filled Profile Steel Deck Assemblies (f' c = 3,000 psi) Nominal Minimum Tension Design Strength Based on Concrete (lb.) Rod End Distance Lower Flute Upper Flute c min C A-B 5 C C-F 6, C A-B 5 C C-F 6, Uncracked Cracked Uncracked Cracked Uncracked Cracked Uncracked Cracked BBMD550 1,930 1,55 1,5 1,155,510,010 1,5 1,505 BBMD36,05 1,660 1,555 1,5,10,50,110 1,65 BBMD65,05 1,660 1,555 1,5,10,50,110 1,65 Rod Tension Design Strength of Rod Steel (lb.) A35 B/BM 1,35 1,90,90 1,35,60,65,90 1,360 3,30,360,0 3,90 6,95 6,395,0 3,310 6,15,990 13,315 6,390 1,0 11,15 13,315 6,00 9,35 1,15 1,190 10,10 0,30 1,65 1,190 9,660 1,530 1,90 31,315 15,030 30,060,555 31,315 1,0 1. Tension design strengh must be the lesser of the concrete or threaded rod strength.. Tension design strengths are based on the strength design provisions of ACI 31-11 Appendix D.. Strength reduction factor, φ, is based on using a load combination from ACI 31-11 Section 9.. 5. The tension design strength listed for C (Seismic Design Category) A-B may also be used in C C-F when the tension component of the strength-level seismic design load on the anchor does not exceed 0% of the total factored tension load on the anchor associated with the same load combination. 6. When designing anchorages in C C-F, the designer shall consider the ductility requirements of ACI 31-11 Section D.3.3.. Tension design strengths in C C-F have been adjusted by 0.5 factor in accordance with ACI 31-11 Section D.3.3.... Installation must comply with Figure 1 on page 3. Metal-Deck Insert: Allowable Tension Loads in Soffit of Normal-Weight or Sand-Lightweight Concrete-Filled Profile Steel Deck Assemblies (f' c = 3,000 psi) Static Load Rod Nominal Minimum End Distance c min Lower Flute Upper Flute Uncracked Cracked Uncracked Cracked BBMD550 1,30 1,105 1,95 1,35 BBMD36 1,0 1,15,005 1,605 BBMD65 1,0 1,15,005 1,605 Rod Allowable Tension Load of Rod Steel (lb.) A35 B/BM 990 1,0,130 1,05,05 1,5,130 90,05 3,115 5,195,95,90,50 5,195,365,10 5,05 9,510,565 9,130,30 9,510,335,05 9,00 15,135,65 1,530 13,30 15,135 6,900 10,30 13,0,30 10,35 1,0 19,60,30 10,00. Allowable tension loads are calculated based on the strength design provision of ACI 31-11 Appendix D using a conversion factor of α = 1.. The conversion factor α is based on the load combination 1.D + 1.6L assuming 50% dead load and 50% live load: 1.(0.5) + 1.6(0.5) = 1... Installation must comply with Figure 1 on page 3. C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. 0 See page 1 for an explanation of the load table icons.
Metal-Deck Insert: Allowable Tension Loads in Soffit of Normal-Weight or Sand-Lightweight Concrete-Filled Profile Steel Deck Assemblies (f' c = 3,000 psi) Wind Load Rod Nominal Minimum End Distance c min Lower Flute Upper Flute Uncracked Cracked Uncracked Cracked BBMD550 1,160 95 1,505 1,05 BBMD36 1,5 995 1,65 1,350 BBMD65 1,5 995 1,65 1,350 Rod Allowable Tension Load of Rod Steel (lb.) A35 B/BM 30 1,05 1,90 60 1,15 1,55 1,90 15,00,615,360,095,15 3,35,360 1,95 3,05,95,990 3,35,60,030,990 3,60 5,900,630 1,15 6,100 1,05 11,15 1,15 5,95,0 11,5 1,90 9,00 1,035 16,535 1,90,50. Allowable tension loads are calculated based on the strength design provision of ACI 31-11 Appendix D using a conversion factor of α = 1 0.6 = 1.6. The conversion factor α is based on the load combination assuming 100% wind load.. Installation must comply with Figure 1 on page 3. C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. Metal-Deck Insert: Allowable Tension Loads in Soffit of Normal-Weight or Sand-Lightweight Concrete-Filled Profile Steel Deck Assemblies (f' c = 3,000 psi) Seismic Load Nominal Rod Minimum End Lower Flute Upper Flute Distance c min C A-B C C-F 5,6 C A-B C C-F 5,6 Uncracked Cracked Uncracked Cracked Uncracked Cracked Uncracked Cracked BBMD550 1,350 1,00 1,010 10 1,55 1,05 1,30 1,055 BBMD36 1,55 1,160 1,090 0 1,965 1,55 1,5 1,10 BBMD65 1,55 1,160 1,090 0 1,965 1,55 1,5 1,10 Rod Allowable Tension Load of Rod Steel (lb.) A35 B/BM 90 1,55,05 1,005,000 1,0,05 950,360 3,050 5,090,5,5,5 5,090,315,35 5,595 9,30,5,95,00 9,30,50 6,5,900 1,35,10 1,0 13,050 1,35 6,60 10,10 13,155 1,90 10,50 1,00 19,90 1,90 9,995. Allowable tension loads are calculated based on the strength design provision of ACI 31-11 Appendix D using a conversion factor of α = 1 0. = 1.3. The conversion factor α is based on the load combination assuming 100% seismic load.. The allowable tension load listed for C (Seismic Design Category) A-B may also be used in C C-F when the tension component of the strength-level seismic design load on the anchor does not exceed 0% of the total factored tension load on the anchor associated with the same load combination. 5. When designing anchorages in C C-F, the designer shall consider the ductility requirements of ACI 31-11 Section D.3.3. 6. Tension design strengths in C C-F have been adjusted by 0.5 factor in accordance with ACI 31-11 Section D.3.3.... Installation must comply with Figure 1 on page 3. See page 1 for an explanation of the load table icons. 1
Wood-Form Insert: Allowable Tension Loads in Normal-Weight or Sand-Lightweight Concrete No. BBWF550 BBWF36 BBWF65 Metal-Deck Insert: Allowable Tension Loads in Normal-Weight or Sand-Lightweight Concrete over Metal Deck Rod Drill Bit BBMD550 13 16 BBMD36 1 1 BBMD65 1 3 16 1 Rod M Edge Dist. (1) (1) (1) M Spacing (03) (03) (03) M Edge Dist. ½ (191) ½ (191) ½ (191) M Spacing (03) (03) (03) See notes under Metal-Deck Insert: Shear Loads on page 3. Tension Load Based on Concrete Strength (Normal Weight) Tension Load Based on Concrete Strength (Install in High Flute) Tension Load Based on Rod Strength (Normal Weight) Tension Load Based on Concrete Strength (Sand-Lightweight) Tension Load Based on Concrete Strength (Install in Low Flute) Tension Load Based on Rod Strength (Sand- Lightweight) f' c 3,000 psi (0. MPa) Grade 36 f' c 3,000 psi (0. MPa) Grade 36 Ultimate lb. (kn) Allowable lb. (kn) Allowable lb. (kn) Ultimate lb. (kn) Allowable lb. (kn) Allowable lb. (kn) 6,0 (30.3),360 (3.),0 (33.0) 1,05 (.6) 1,0 (.) 1,55 (.3) 90 (.),105 (9.),0 (19.0) 1,00 (.) (16.),105 (9.) (16.) 5,5 (6.1) 5,5 (6.1),00 1,100,60 (19.6) (.9) (3.6) Wood-Form Insert: Allowable Shear Loads in Normal-Weight or Sand-Lightweight Concrete No. Rod BBWF550 BBWF36 BBWF65 M Edge Dist. (1) (1) (1) M Spacing (03) (03) (03) Shear Load Based on Concrete Strength (Normal Weight) Shear Load Based on Rod Strength (Normal Weight) Shear Load Based on Concrete Strength (Sand-Lightweight) 90 (.),105 (9.) (16.) Tension Load Based on Rod Strength f' c 3,000 psi (0. MPa) f' c 3,000 psi (0. MPa) Grade 36 Ultimate lb. (kn) Allowable lb. (kn) Ultimate lb. (kn) Allowable lb. (kn) Allowable lb. (kn) 90 (.) 9,30,330 3,10 00,105 (1.5) (10.) (1.3) (3.6) (9.) (16.),105 (9.) 10,50,635 3,0 60 (6.9) (11.) (15.3) (3.) (16.) 5,5 (6.1) 5,5 1,360 3,090 3,5 60 (6.1) (55.0) (13.) (15.3) (3.),60 (3.6) 5,5 (6.1),60 (3.6) Tension Load Based on Rod Strength (Sand- Lightweight) f' c 3,000 psi (0. MPa) Grade 36 f' c 3,000 psi (0. MPa) Grade 36 Ultimate lb. (kn) Allowable lb. (kn) Allowable lb. (kn) Ultimate lb. (kn) Allowable lb. (kn) Allowable lb. (kn),50 (3.9) 10,00 (.6) 10,60 (6.5),15 (9.),65 (11.9),615 (11.6) 1. Allowable load must be the lesser of the concrete or steel strength.. The allowable loads based on concrete strength are based on a factor of safety of.0. 3. Allowable loads may not be increased for short-term loading due to wind or seismic forces.. Mechanical and plumbing design codes may prescribe lower allowable loads. Verify with local codes. 5. Minimum concrete slab thickness = x embedment depth. See page 1 for an explanation of the load table icons. 1,930 (.6) 3,05 (13.),360 (19.),600 (3.),150 (9.6) 1,930 (.6) 9,60 (1.),315 (3.9),360 (19.) C-A-016 015 SIMPSON STRONG-TIE COMPANY INC.
and Deck C-A-016 015 SIMPSON STRONG-TIE COMPANY INC. Metal-Deck Insert: Allowable Shear Loads in Normal-Weight or Sand-Lightweight Concrete over Metal Deck Drill Bit BBMD65 13 16-1 ½ 9,0 (191) (03) (3.) 1. Allowable load must be the lesser of the concrete or rod strength.. The allowable loads based on concrete strength are based on a factor of safety of.0. 3. Allowable loads may not be increased for short-term loading due to wind or seismic forces.. Anchors may be installed off-center in the flute, up to 1" from the edge of flute. Roof-Deck Insert: Allowable Tension Loads in Metal Deck Rod BBMD550 13 16 - BBMD36 1-1 3 1 " 3" Drill Bit BBRD550 13 16 M Edge Dist. ½ (191) ½ (191) M Spacing (03) (03) 1. The allowable loads are based on a factor of safety of.0.. Allowable loads may not be increased for short-term loading due to wind or seismic forces. 3. Acceptability of deck deflection due to imposed loads must be investigated separately. Wood-Form Insert: Factory Mutual and Underwriters Laboratories Pipe Size Limits No. BBWF550 BBWF36 BBWF65 Rod FM Max. Nominal Pipe Size UL Max. Nominal Pipe Size N/L N/L 1. N/L = Not listed for this pipe size. N/L 1 " MIN. Shear Load Based on Concrete Strength (Install in High Flute) Rod Dia,30 3,360 0,360 (10.) (1.9) (3.) (19.) 5. Shear loads shall be applied flush with metal deck surface. 6. Deck shall be 0-gauge minimum.. Mechanical and plumbing design codes may prescribe lower allowable loads. Verify with local codes.. Installation must comply with Figure 1. Allowable Tension Based on Deck Strength Load lb. (kn) Allowable Tension Load Based on Rod Strength lb. (kn) 1 ½" Deck 3" Deck Grade 36 150 (0.). rod strength must be investigated separately. 5. Anchors may be installed in the top or bottom flute of the metal deck. 6. Deck shall be 0-gauge minimum.. See Figure for typical installation. Shear Load Based on Concrete Strength Shear Load Based on (Install in Low Flute) Rod Strength f' c 3,000 psi (0. MPa) f' c 3,000 psi (0. MPa) Grade 36 Ultimate lb. (kn) Allowable lb. (kn) Ultimate lb. (kn) Allowable lb. (kn) Allowable lb. (kn) 9,0 (3.) 9,00 (1.) 1" MIN. 1 " MIN. Figure 1. Typical metal deck insert installation in concrete over metal deck See page 1 for an explanation of the load table icons. METAL DECK 0 GA. MIN.,30 (10.),350 (10.),90 (1.) 3,360 (1.9) 300 (1.3) 00 (3.1) 0 (3.) 90 (.),105 (9.) (16.) 1,930 (.6) 3,05 (13.) Metal-Deck Insert: Factory Mutual and Underwriters Laboratories Pipe Size Limits No. BBMD550 BBMD36 BBMD65 Rod See table FM Max. Nominal Pipe Size Install in High Flute 1. N/L = Not listed for this pipe size. Install in Low Flute UL Max. Nominal Pipe Size Install in High Flute Figure. Typical roof deck insert installation in metal deck Install in Low Flute N/L N/L N/L N/L N/L N/L 1 N/L 1 N/L 1 N/L 1 N/L 3