CODES

ADOPTS WITH AMENDMENTS:

International Residential Code 2018 (IRC 2018)

Part I — Administrative

Part II — Definitions

Part III — Building Planning and Construction

Part IV — Energy Conservation

Part V — Mechanical

Part VI — Fuel Gas

Part VII — Plumbing

Part VIII — Electrical

Part IX — Referenced Standards

Heads up: There are no suggested sections in this chapter.
Heads up: There are no amended sections in this chapter.
The provisions of this chapter shall control the design and construction of the floors for buildings, including the floors of attic spaces used to house mechanical or plumbing fixtures and equipment.

Floor construction shall be capable of accommodating all loads in accordance with Section R301 and of transmitting the resulting loads to the supporting structural elements.

Wood and wood-based products used for load-supporting purposes shall conform to the applicable provisions of this section.
Sawn lumber shall be identified by a grade mark of an accredited lumber grading or inspection agency and have design values certified by an accreditation body that complies with DOC PS 20. In lieu of a grade mark, a certificate of inspection issued by a lumber grading or inspection agency meeting the requirements of this section shall be accepted.
Preservative treated dimension lumber shall be identified as required by Section R317.2.
Approved end-jointed lumber identified by a grade mark conforming to Section R502.1.1 shall be permitted to be used interchangeably with solid-sawn members of the same species and grade. End-jointed lumber used in an assembly required elsewhere in this code to have a fire-resistance rating shall have the designation "Heat-Resistant Adhesive" or "HRA" included in its grade mark.
Structural capacities and design provisions for prefabricated wood I-joists shall be established and monitored in accordance with ASTM D5055.
Glued laminated timbers shall be manufactured and identified as required in ANSI A190.1, ANSI 117 and ASTM D3737.
Structural log members shall comply with the provisions of ICC 400.
Structural capacities for structural composite lumber shall be established and monitored in accordance with ASTM D5456.
Cross-laminated timber shall be manufactured and identified as required by ANSI/APA PRG 320.
Engineered wood rim boards shall conform to ANSI/APA PRR 410 or shall be evaluated in accordance with ASTM D7672. Structural capacities shall be in accordance with ANSI/APA PRR 410 or established in accordance with ASTM D7672. Rim boards conforming to ANSI/APA PRR 410 shall be marked in accordance with that standard.

Floors shall be designed and constructed in accordance with the provisions of this chapter, Figure R502.2 and Sections R317 and R318 or in accordance with ANSI AWC NDS.

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm.

FIGURE R502.2

FLOOR CONSTRUCTION

A load path for lateral forces shall be provided between floor framing and braced wall panels located above or below a floor, as specified in Section R602.10.8.
Blocking for fastening panel edges or fixtures shall be not less than utility grade lumber. Subflooring shall be not less than utility grade lumber, No. 4 common grade boards or wood structural panels as specified in Section R503.2. Fireblocking shall be of any grade lumber.
Spans for floor joists shall be in accordance with Tables R502.3.1(1) and R502.3.1(2). For other grades and species and for other loading conditions, refer to the AWC STJR.

Table R502.3.1(1) shall be used to determine the maximum allowable span of floor joists that support sleeping areas and attics that are accessed by means of a fixed stairway in accordance with Section R311.7 provided that the design live load does not exceed 30 pounds per square foot (1.44 kPa) and the design dead load does not exceed 20 pounds per square foot (0.96 kPa). The allowable span of ceiling joists that support attics used for limited storage or no storage shall be determined in accordance with Section R802.5.

TABLE R502.3.1(1)

FLOOR JOIST SPANS FOR COMMON LUMBER SPECIES (Residential sleeping areas, live load = 30 psf, L/Δ = 360)a

JOIST
SPACING
(inches)
SPECIES AND GRADE DEAD LOAD = 10 psfDEAD LOAD = 20 psf
2 × 62 × 82 × 102 × 122 × 62 × 82 × 102 × 12
Maximum floor joist spans
(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)
12Douglas fir-larchSS12-616-621-025-712-616-621-025-7
Douglas fir-larch#112-015-1020-324-812-015-719-022-0
Douglas fir-larch#211-1015-719-1023-411-814-918-020-11
Douglas fir-larch#39-1112-715-517-108-1111-313-916-0
Hem-firSS11-1015-719-1024-211-1015-719-1024-2
Hem-fir#111-715-319-523-711-715-318-921-9
Hem-fir#211-014-618-622-611-014-417-620-4
Hem-fir#39-812-415-017-58-811-013-515-7
Southern pineSS12-316-220-825-112-316-220-825-1
Southern pine#111-1015-719-1024-211-1015-718-722-0
Southern pine#211-314-1118-121-410-913-816-219-1
Southern pine#39-211-614-016-68-210-312-614-9
Spruce-pine-firSS11-715-319-523-711-715-319-523-7
Spruce-pine-fir#111-314-1119-023-011-314-717-920-7
Spruce-pine-fir#211-314-1119-023-011-314-717-920-7
Spruce-pine-fir#39-812-415-017-58-811-013-515-7
16Douglas fir-larchSS11-415-019-123-311-415-019-123-3
Douglas fir-larch#110-1114-518-521-410-813-616-519-1
Douglas fir-larch#210-914-217-520-310-112-915-718-1
Douglas fir-larch#38-710-1113-415-57-89-911-1113-10
Hem-firSS10-914-218-021-1110-914-218-021-11
Hem-fir#110-613-1017-821-110-613-416-318-10
Hem-fir#210-013-216-1019-89-1012-515-217-7
Hem-fir#38-510-813-015-17-69-611-813-6
Southern pineSS11-214-818-922-1011-214-818-922-10
Southern pine#110-914-218-021-410-913-916-119-1
Southern pine#210-313-315-818-69-411-1014-016-6
Southern pine#37-1110-011-114-47-18-1110-1012-10
Spruce-pine-firSS10-613-1017-821-610-613-1017-821-4
Spruce-pine-fir#110-313-617-219-119-1112-715-517-10
Spruce-pine-fir#210-313-617-219-119-1112-715-517-10
Spruce-pine-fir#38-510-813-015-17-69-611-813-6
19.2Douglas fir-larchSS10-814-118-021-1010-814-118-021-4
Douglas fir-larch#110-413-716-919-69-812-415-017-5
Douglas fir-larch#210-113-015-1118-69-311-814-316-6
Douglas fir-larch#37-1010-012-214-17-08-1110-1112-7
Hem-firSS10-113-417-020-810-113-417-020-7
Hem-fir#19-1013-016-719-39-712-214-1017-2
Hem-fir#29-512-515-617-18-1111-413-1016-1
Hem-fir#37-89-911-1013-96-108-810-712-4
Southern pineSS10-613-1017-821-610-613-1017-821-6
Southern pine#110-113-416-519-69-1112-714-817-5
Southern pine#29-612-114-416-108-610-1012-1015-1
Southern pine#37-39-111-013-16-58-29-1011-8
Spruce-pine-firSS9-1013-016-720-29-1013-016-719-6
Spruce-pine-fir#19-812-915-818-39-111-614-116-3
Spruce-pine-fir#29-812-915-818-39-111-614-116-3
Spruce-pine-fir#37-89-911-1013-96-108-810-712-4
24Douglas fir-larchSS9-1113-116-820-39-1113-116-519-1
Douglas fir-larch#19-712-415-017-58-811-013-515-7
Douglas fir-larch#29-311-814-316-68-310-512-914-9
Douglas fir-larch#37-08-1110-1112-76-38-09-911-3
Hem-firSS9-412-415-919-29-412-415-918-5
Hem-fir#19-212-114-1017-28-710-1013-315-5
Hem-fir#28-911-413-1016-18-010-212-514-4
Hem-fir#36-108-810-712-46-27-99-611-0
Southern pineSS9-912-1016-519-119-912-1016-519-8
Southern pine#19-412-414-817-58-1011-313-115-7
Southern pine#28-610-1012-1015-17-79-811-513-6
Southern pine#36-58-29-1011-85-97-38-1010-5
Spruce-pine-firSS9-212-115-518-99-212-115-017-5
Spruce-pine-fir#18-1111-614-116-38-110-312-714-7
Spruce-pine-fir#28-1111-614-116-38-110-312-714-7
Spruce-pine-fir#36-108-810-712-46-27-99-611-0

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa.

Note: Check sources for availability of lumber in lengths greater than 20 feet.

  1. Dead load limits for townhouses in Seismic Design Category C and all structures in Seismic Design Categories D0, D1 and D2 shall be determined in accordance with Section R301.2.2.2.

TABLE R502.3.1(2)

FLOOR JOIST SPANS FOR COMMON LUMBER SPECIES (Residential living areas, live load = 40 psf, L/Δ = 360)b

JOIST
SPACING
(inches)
SPECIES AND GRADEDEAD LOAD = 10 psfDEAD LOAD = 20 psf
2 × 62 × 82 × 102 × 122 × 62 × 82 × 102 × 12
Maximum floor joist spans
(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)(ft. - in.)
12Douglas fir-larchSS11-415-019-123-311-415-019-123-3
Douglas fir-larch#110-1114-518-522-010-1114-217-420-1
Douglas fir-larch#210-914-218-020-1110-813-616-519-1
Douglas fir-larch#38-1111-313-916-08-110-312-714-7
Hem-firSS10-914-218-021-1110-914-218-021-11
Hem-fir#110-613-1017-821-610-613-1017-119-10
Hem-fir#210-013-216-1020-410-013-116-018-6
Hem-fir#38-811-013-515-77-1110-012-314-3
Southern pineSS11-214-818-922-1011-214-818-922-10
Southern pine#110-914-218-021-1110-914-216-1120-1
Southern pine#210-313-616-219-19-1012-614-917-5
Southern pine#38-210-312-614-97-59-511-513-6
Spruce-pine-firSS10-613-1017-821-610-613-1017-821-6
Spruce-pine-fir#110-313-617-320-710-313-316-318-10
Spruce-pine-fir#210-313-617-320-710-313-316-318-10
Spruce-pine-fir#38-811-013-515-77-1110-012-314-3
16Douglas fir-larchSS10-413-717-421-110-413-717-421-1
Douglas fir-larch#19-1113-116-519-19-812-415-017-5
Douglas fir-larch#29-912-915-718-19-311-814-316-6
Douglas fir-larch#37-89-911-1113-107-08-1110-1112-7
Hem-firSS9-912-1016-519-119-912-1016-519-11
Hem-fir#19-612-716-018-109-612-214-1017-2
Hem-fir#29-112-015-217-78-1111-413-1016-1
Hem-fir#37-69-611-813-66-108-810-712-4
Southern pineSS10-213-417-020-910-213-417-020-9
Southern pine#19-912-1016-119-19-912-714-817-5
Southern pine#29-411-1014-016-68-610-1012-1015-1
Southern pine#37-18-1110-1012-106-58-29-1011-8
Spruce-pine-firSS9-612-716-019-69-612-716-019-6
Spruce-pine-fir#19-412-315-517-109-111-614-116-3
Spruce-pine-fir#29-412-315-517-109-111-614-116-3
Spruce-pine-fir#37-69-611-813-66-108-810-712-4
19.2Douglas fir-larchSS9-812-1016-419-109-812-1016-419-6
Douglas fir-larch#19-412-415-017-58-1011-313-815-11
Douglas fir-larch#29-211-814-316-68-510-813-015-1
Douglas fir-larch#37-08-1110-1112-76-58-29-1111-6
Hem-firSS9-212-115-518-99-212-115-518-9
Hem-fir#19-011-1014-1017-28-911-113-615-8
Hem-fir#28-711-313-1016-18-210-412-814-8
Hem-fir#36-108-810-712-46-37-119-811-3
Southern pineSS9-612-716-019-69-612-716-019-6
Southern pine#19-212-114-817-59-011-513-515-11
Southern pine#28-610-1012-1015-17-99-1011-813-9
Southern pine#36-58-29-1011-85-117-59-010-8
Spruce-pine-firSS9-011-1015-118-49-011-1015-117-9
Spruce-pine-fir#18-911-614-116-38-310-612-1014-10
Spruce-pine-fir#28-911-614-116-38-310-612-1014-10
Spruce-pine-fir#36-108-810-712-46-37-119-811-3
24Douglas fir-larchSS9-011-1115-218-59-011-1115-017-5
Douglas fir-larch#18-811-013-515-77-1110-012-314-3
Douglas fir-larch#28-310-512-914-97-69-611-813-6
Douglas fir-larch#36-38-09-911-35-97-38-1110-4
Hem-firSS8-611-314-417-58-611-314-416-10a
Hem-fir#18-410-1013-315-57-109-1112-114-0
Hem-fir#27-1110-212-514-47-49-311-413-1
Hem-fir#36-27-99-611-05-77-18-810-1
Southern pineSS8-1011-814-1118-18-1011-814-1118-0
Southern pine#18-611-313-115-78-110-312-014-3
Southern pine#27-79-811-513-67-08-1010-512-4
Southern pine#35-97-38-1010-55-36-88-19-6
Spruce-pine-firSS8-411-014-017-08-411-013-815-11
Spruce-pine-fir#18-110-312-714-77-59-511-613-4
Spruce-pine-fir#28-110-312-714-77-59-511-613-4
Spruce-pine-fir#36-27-99-611-05-77-18-810-1

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa.

Note: Check sources for availability of lumber in lengths greater than 20 feet.

  1. End bearing length shall be increased to 2 inches.
  2. Dead load limits for townhouses in Seismic Design Category C and all structures in Seismic Design Categories D0, D1, and D2 shall be determined in accordance with Section R301.2.2.2.
Table R502.3.1(2) shall be used to determine the maximum allowable span of floor joists that support other areas of the building, other than sleeping rooms and attics, provided that the design live load does not exceed 40 pounds per square foot (1.92 kPa) and the design dead load does not exceed 20 pounds per square foot (0.96 kPa).

Floor cantilever spans shall not exceed the nominal depth of the wood floor joist. Floor cantilevers constructed in accordance with Table R502.3.3(1) shall be permitted where supporting a light-frame bearing wall and roof only. Floor cantilevers supporting an exterior balcony are permitted to be constructed in accordance with Table R502.3.3(2).

TABLE R502.3.3(1)

CANTILEVER SPANS FOR FLOOR JOISTS SUPPORTING LIGHT-FRAME EXTERIOR BEARING WALL AND ROOF ONLYa, b, c, f, g, h (Floor Live Load ≤ 40 psf, Roof Live Load ≤ 20 psf)

MEMBER & SPACINGMAXIMUM CANTILEVER SPAN (uplift force at backspan support in lbs.)d, e
Ground Snow Load
≤ 20 psf30 psf50 psf70 psf
Roof WidthRoof WidthRoof WidthRoof Width
24 ft32 ft40 ft24 ft32 ft40 ft24 ft32 ft40 ft24 ft32 ft40 ft
2 × 8 @ 12"20"
(177)
15"
(227)
18"
(209)
2 × 10 @ 16"29"
(228)
21"
(297)
16"
(364)
26"
(271)
18"
(354)
20"
(375)
2 × 10 @ 12"36"
(166)
26"
(219)
20"
(270)
34"
(198)
22"
(263)
16"
(324)
26"
(277)
19"
(356)
2 × 12 @ 16"32"
(287)
25"
(356)
36"
(263)
29"
(345)
21"
(428)
29"
(367)
20"
(484)
23"
(471)
2 × 12 @ 12"42"
(209)
31"
(263)
37"
(253)
27"
(317)
36"
(271)
27"
(358)
17"
(447)
31"
(348)
19"
(462)
2 × 12 @ 8"48"
(136)
45"
(169)
48"
(164)
38"
(206)
40"
(233)
26"
(294)
36"
(230)
29"
(304)
18"
(379)

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa.

  1. Tabulated values are for clear-span roof supported solely by exterior bearing walls.
  2. Spans are based on No. 2 Grade lumber of Douglas fir-larch, hem-fir, and spruce-pine-fir for repetitive (three or more) members. No.1 or better shall be used for Southern pine.
  3. Ratio of backspan to cantilever span shall be not less than 3:1.
  4. Connections capable of resisting the indicated uplift force shall be provided at the backspan support.
  5. Uplift force is for a backspan to cantilever span ratio of 3:1. Tabulated uplift values are permitted to be reduced by multiplying by a factor equal to 3 divided by the actual backspan ratio provided (3/backspan ratio).
  6. See Section R301.2.2.6, Item 1, for additional limitations on cantilevered floor joists for detached one- and two-family dwellings in Seismic Design Category D0, D1, or D2 and townhouses in Seismic Design Category C, D0, D1 or D2.
  7. A full-depth rim joist shall be provided at the unsupported end of the cantilever joists. Solid blocking shall be provided at the supported end. Where the cantilever length is 24 inches or less and the building is assigned to Seismic Design Category A, B or C, solid blocking at the support for the cantilever shall not be required.
  8. Linear interpolation shall be permitted for building widths and ground snow loads other than shown.

TABLE R502.3.3(2)

CANTILEVER SPANS FOR FLOOR JOISTS SUPPORTING EXTERIOR BALCONYa, b, e, f

MEMBER SIZESPACINGMAXIMUM CANTILEVER SPAN
(uplift force at backspan support in lbs.)c, d
Ground Snow Load
≤ 30 psf50 psf70 psf
2 × 812"42" (139)39" (156)34" (165)
2 × 816"36" (151)34" (171)29" (180)
2 × 1012"61" (164)57" (189)49" (201)
2 × 1016"53" (180)49" (208)42" (220)
2 × 1024"43" (212)40" (241)34" (255)
2 × 1216"72" (228)67" (260)57" (268)
2 × 1224"58" (279)54" (319)47" (330)

For SI: 1 inch = 25.4 mm, 1 pound per square foot = 0.0479 kPa.

  1. Spans are based on No. 2 Grade lumber of Douglas fir-larch, hem-fir, and spruce-pine-fir for repetitive (three or more) members. No.1 or better shall be used for Southern pine.
  2. Ratio of backspan to cantilever span shall be not less than 2:1.
  3. Connections capable of resisting the indicated uplift force shall be provided at the backspan support.
  4. Uplift force is for a backspan to cantilever span ratio of 2:1. Tabulated uplift values are permitted to be reduced by multiplying by a factor equal to 2 divided by the actual backspan ratio provided (2/backspan ratio).
  5. A full-depth rim joist shall be provided at the unsupported end of the cantilever joists. Solid blocking shall be provided at the supported end. Where the cantilever length is 24 inches or less and the building is assigned to Seismic Design Category A, B or C, solid blocking at the support for the cantilever shall not be required.
  6. Linear interpolation shall be permitted for ground snow loads other than shown.
Joists under parallel bearing partitions shall be of adequate size to support the load. Double joists, sized to adequately support the load, that are separated to permit the installation of piping or vents shall be full-depth solid blocked with lumber not less than 2 inches (51 mm) in nominal thickness spaced not more than 4 feet (1219 mm) on center. Bearing partitions perpendicular to joists shall not be offset from supporting girders, walls or partitions more than the joist depth unless such joists are of sufficient size to carry the additional load.
The allowable spans of girders and headers fabricated of dimension lumber shall not exceed the values set forth in Tables R602.7(1), R602.7(2) and R602.7(3).
The ends of each joist, beam or girder shall have not less than 11/2 inches (38 mm) of bearing on wood or metal, have not less than 3 inches of bearing (76 mm) on masonry or concrete or be supported by approved joist hangers. Alternatively, the ends of joists shall be supported on a 1-inch by 4-inch (25 mm by 102 mm) ribbon strip and shall be nailed to the adjacent stud. The bearing on masonry or concrete shall be direct, or a sill plate of 2-inch-minimum (51 mm) nominal thickness shall be provided under the joist, beam or girder. The sill plate shall provide a minimum nominal bearing area of 48 square inches (30 865 mm2).
Joists framing from opposite sides over a bearing support shall lap not less than 3 inches (76 mm) and shall be nailed together with a minimum three 10d face nails. A wood or metal splice with strength equal to or greater than that provided by the nailed lap is permitted.
Joists framing into the side of a wood girder shall be supported by approved framing anchors or on ledger strips not less than nominal 2 inches by 2 inches (51 mm by 51 mm).

Joists shall be supported laterally at the ends by full-depth solid blocking not less than 2 inches (51 mm) nominal in thickness; or by attachment to a full-depth header, band or rim joist, or to an adjoining stud or shall be otherwise provided with lateral support to prevent rotation.

Exceptions:

  1. Trusses, structural composite lumber, structural glued-laminated members and I-joists shall be supported laterally as required by the manufacturer's recommendations.
  2. In Seismic Design Categories D0, D1 and D2, lateral restraint shall be provided at each intermediate support.

Joists exceeding a nominal 2 inches by 12 inches (51 mm by 305 mm) shall be supported laterally by solid blocking, diagonal bridging (wood or metal), or a continuous 1-inch by 3-inch (25 mm by 76 mm) strip nailed across the bottom of joists perpendicular to joists at intervals not exceeding 8 feet (2438 mm).

Exception: Trusses, structural composite lumber, structural glued-laminated members and I-joists shall be supported laterally as required by the manufacturer's recommendations.

Structural floor members shall not be cut, bored or notched in excess of the limitations specified in this section. See Figure R502.8.

For SI: 1 inch = 25.4 mm.

FIGURE R502.8

CUTTING, NOTCHING AND DRILLING

Notches in solid lumber joists, rafters and beams shall not exceed one-sixth of the depth of the member, shall not be longer than one-third of the depth of the member and shall not be located in the middle one-third of the span. Notches at the ends of the member shall not exceed one-fourth the depth of the member. The tension side of members 4 inches (102 mm) or greater in nominal thickness shall not be notched except at the ends of the members. The diameter of holes bored or cut into members shall not exceed one-third the depth of the member. Holes shall not be closer than 2 inches (51 mm) to the top or bottom of the member, or to any other hole located in the member. Where the member is notched, the hole shall not be closer than 2 inches (51 mm) to the notch.
Cuts, notches and holes bored in trusses, structural composite lumber, structural glue-laminated members, cross-laminated timber members or I-joists are prohibited except where permitted by the manufacturer's recommendations or where the effects of such alterations are specifically considered in the design of the member by a registered design professional.
Floor framing shall be nailed in accordance with Table R602.3(1). Where posts and beam or girder construction is used to support floor framing, positive connections shall be provided to ensure against uplift and lateral displacement.
Openings in floor framing shall be framed with header and trimmer joists. Where the header joist span does not exceed 4 feet (1219 mm), the header joist shall be a single member the same size as the floor joist. Single trimmer joists shall be used to carry a single header joist that is located within 3 feet (914 mm) of the trimmer joist bearing. Where the header joist span exceeds 4 feet (1219 mm), the trimmer joists and the header joist shall be doubled and of sufficient cross section to support the floor joists framing into the header.
Wood trusses shall be designed in accordance with approved engineering practice. The design and manufacture of metal-plate-connected wood trusses shall comply with ANSI/TPI 1. The truss design drawings shall be prepared by a registered professional where required by the statutes of the jurisdiction in which the project is to be constructed in accordance with Section R106.1.
Trusses shall be braced to prevent rotation and provide lateral stability in accordance with the requirements specified in the construction documents for the building and on the individual truss design drawings. In the absence of specific bracing requirements, trusses shall be braced in accordance with accepted industry practices, such as, the SBCA Building Component Safety Information (BCSI) Guide to Good Practice for Handling, Installing & Bracing of Metal Plate Connected Wood Trusses.
Truss members and components shall not be cut, notched, spliced or otherwise altered in any way without the approval of a registered design professional. Alterations resulting in the addition of load that exceeds the design load for the truss, shall not be permitted without verification that the truss is capable of supporting the additional loading.

Truss design drawings, prepared in compliance with Section R502.11.1, shall be submitted to the building official and approved prior to installation. Truss design drawings shall be provided with the shipment of trusses delivered to the job site. Truss design drawings shall include, at a minimum, the information specified as follows:

  1. Slope or depth, span and spacing.
  2. Location of all joints.
  3. Required bearing widths.
  4. Design loads as applicable:

    1. 4.1. Top chord live load.
    2. 4.2. Top chord dead load.
    3. 4.3. Bottom chord live load.
    4. 4.4. Bottom chord dead load.
    5. 4.5. Concentrated loads and their points of application.
    6. 4.6. Controlling wind and earthquake loads.
  5. Adjustments to lumber and joint connector design values for conditions of use.
  6. Each reaction force and direction.
  7. Joint connector type and description, such as size, thickness or gage, and the dimensioned location of each joint connector except where symmetrically located relative to the joint interface.
  8. Lumber size, species and grade for each member.
  9. Connection requirements for:

    1. 9.1. Truss-to-girder-truss.
    2. 9.2. Truss ply-to-ply.
    3. 9.3. Field splices.
  10. Calculated deflection ratio, maximum description for live and total load, or both.
  11. Maximum axial compression forces in the truss members to enable the building designer to design the size, connections and anchorage of the permanent continuous lateral bracing. Forces shall be shown on the truss drawing or on supplemental documents.
  12. Required permanent truss member bracing location.
Draftstopping shall be provided in accordance with Section R302.12.
Fireblocking shall be provided in accordance with Section R302.11.

Maximum allowable spans for lumber used as floor sheathing shall conform to Tables R503.1, R503.2.1.1(1) and R503.2.1.1(2).

TABLE R503.1

MINIMUM THICKNESS OF LUMBER FLOOR SHEATHING

JOIST OR BEAM
SPACING (inches)
MINIMUM NET THICKNESS
Perpendicular to joistDiagonal to joist
2411/163/4
165/85/8
48a11/2 T & GN/A
54b
60c

For SI: 1 inch = 25.4 mm, 1 pound per square inch = 6.895 kPa.

N/A = Not Applicable.

  1. For this support spacing, lumber sheathing shall have a minimum Fb of 675 and minimum E of 1,100,000 (see ANSI AWC NDS).
  2. For this support spacing, lumber sheathing shall have a minimum Fb of 765 and minimum E of 1,400,000 (see ANSI AWC NDS).
  3. For this support spacing, lumber sheathing shall have a minimum Fb of 855 and minimum E of 1,700,000 (see ANSI AWC NDS).
End joints in lumber used as subflooring shall occur over supports unless end-matched lumber is used, in which case each piece shall bear on not less than two joists. Subflooring shall be permitted to be omitted where joist spacing does not exceed 16 inches (406 mm) and a 1-inch (25 mm) nominal tongue-and-groove wood strip flooring is applied perpendicular to the joists.
Wood structural panel sheathing used for structural purposes shall conform to CSA O325, CSA O437 DOC PS 1 or DOC PS 2. Panels shall be identified for grade, bond classification and Performance Category by a grade mark or certificate of inspection issued by an approved agency. The Performance Category value shall be used as the "nominal panel thickness" or "panel thickness" wherever referenced in this code
Where used as subflooring or combination subfloor underlayment, wood structural panels shall be of one of the grades specified in Table R503.2.1.1(1). Where sanded plywood is used as combination subfloor underlayment, the grade, bond classification, and Performance Category shall be as specified in Table R503.2.1.1(2).

TABLE R503.2.1.1(1)
ALLOWABLE SPANS AND LOADS FOR WOOD STRUCTURAL PANELS FOR ROOF AND SUBFLOOR SHEATHING AND COMBINATION SUBFLOOR UNDERLAYMENTa, b, c
SPAN RATINGMINIMUM NOMINAL
PANEL THICKNESS
(inch)
ALLOWABLE LIVE LOAD
(psf)h, I
MAXIMUM SPAN
(inches)
LOAD (pounds per square
foot, at maximum span)
MAXIMUM SPAN
(inches)
SPAN
@ 16" o.c.
SPAN
@ 24" o.c.
With edge
supportd
Without edge
support
Total loadLive load
SheathingeRooffSubfloorj
16/03/830161640300
20/03/850202040300
24/03/8100302420g40300
24/167/16100402424504016
32/1615/32, 1/2180703228403016h
40/2019/32, 5/83051304032403020h, i
48/2423/32, 3/41754836453524
60/327/83056048453532
Underlayment, C-C plugged, single flooreRooffCombination subfloor
underlaymentk
16 o.c.19/32, 5/8100402424504016i
20 o.c.19/32, 5/8150603232403020i, j
24 o.c.23/32, 3/42401004836352524
32 o.c.7/81854840504032
48 o.c.13/32, 11/82906048504048

For SI: 1 inch = 25.4 mm, 1 pound per square foot = 0.0479 kPa.

  1. The allowable total loads were determined using a dead load of 10 psf. If the dead load exceeds 10 psf, then the live load shall be reduced accordingly.
  2. Panels continuous over two or more spans with long dimension (strength axis) perpendicular to supports. Spans shall be limited to values shown because of possible effect of concentrated loads.
  3. Applies to panels 24 inches or wider.
  4. Lumber blocking, panel edge clips (one midway between each support, except two equally spaced between supports where span is 48 inches), tongue-and-groove panel edges, or other approved type of edge support.
  5. Includes Structural I panels in these grades.
  6. Uniform load deflection limitation: 1/180 of span under live load plus dead load, 1/240 of span under live load only.
  7. Maximum span 24 inches for 15/32-and 1/2-inch panels.
  8. Maximum span 24 inches where 3/4-inch wood finish flooring is installed at right angles to joists.
  9. Maximum span 24 inches where 1.5 inches of lightweight concrete or approved cellular concrete is placed over the subfloor.
  10. Unsupported edges shall have tongue-and-groove joints or shall be supported with blocking unless minimum nominal 1/4-inch-thick wood panel-type underlayment, fiber-cement underlayment with end and edge joints offset not less than 2 inches or 11/2 inches of lightweight concrete or approved cellular concrete is placed over the subfloor, or 3/4-inch wood finish flooring is installed at right angles to the supports. Fiber-cement underlayment shall comply with ASTM C1288 or ISO 8336 Category C. Allowable uniform live load at maximum span, based on deflection of 1/360 of span, is 100 psf.
  11. Unsupported edges shall have tongue-and-groove joints or shall be supported by blocking unless nominal 1/4-inch-thick wood panel-type underlayment, fiber-cement underlayment with end and edge joints offset not less than 2 inches or 3/4-inch wood finish flooring is installed at right angles to the supports. Fiber-cement underlayment shall comply with ASTM C1288 or ISO 8336 Category C. Allowable uniform live load at maximum span, based on deflection of 1/360 of span, is 100 psf, except panels with a span rating of 48 on center are limited to 65 psf total uniform load at maximum span.
  12. Allowable live load values at spans of 16 inches on center and 24 inches on center taken from reference standard APA E30, APA Engineered Wood Construction Guide. Refer to reference standard for allowable spans not listed in the table.
TABLE R503.2.1.1(2)
ALLOWABLE SPANS FOR SANDED PLYWOOD COMBINATION SUBFLOOR UNDERLAYMENTa
IDENTIFICATIONSPACING OF JOISTS (inches)
162024
Species groupb
11/25/83/4
2, 35/83/47/8
43/47/81

For SI: 1 inch = 25.4 mm, 1 pound per square foot = 0.0479 kPa.

  1. Plywood continuous over two or more spans and face grain perpendicular to supports. Unsupported edges shall be tongue-and-groove or blocked except where nominal 1/4-inch-thick wood panel-type underlayment, fiber-cement underlayment or 3/4-inch wood finish floor is used. Fiber-cement underlayment shall comply with ASTM C 1288 or ISO 8336 Category C. Allowable uniform live load at maximum span based on deflection of 1/360 of span is 100 psf.
  2. Applicable to all grades of sanded exterior-type plywood.
The maximum allowable span for wood structural panels used as subfloor or combination subfloor underlayment shall be as set forth in Table R503.2.1.1(1), or APA E30. The maximum span for sanded plywood combination subfloor underlayment shall be as set forth in Table R503.2.1.1(2).
Wood structural panels used as subfloor or combination subfloor underlayment shall be attached to wood framing in accordance with Table R602.3(1) and shall be attached to cold-formed steel framing in accordance with Table R505.3.1(2).
Particleboard shall conform to ANSI A208.1 and shall be so identified by a grade mark or certificate of inspection issued by an approved agency.
Particleboard floor underlayment shall conform to Type PBU and shall be not less than 1/4 inch (6.4 mm) in thickness.
Particleboard underlayment shall be installed in accordance with the recommendations of the manufacturer and attached to framing in accordance with Table R602.3(1).
Pressure preservative-treated wood basement floors and floors on ground shall be designed to withstand axial forces and bending moments resulting from lateral soil pressures at the base of the exterior walls and floor live and dead loads. Floor framing shall be designed to meet joist deflection requirements in accordance with Section R301.
Unless special provision is made to resist sliding caused by unbalanced lateral soil loads, wood basement floors shall be limited to applications where the differential depth of fill on opposite exterior foundation walls is 2 feet (610 mm) or less.
Joists in wood basement floors shall bear tightly against the narrow face of studs in the foundation wall or directly against a band joist that bears on the studs. Plywood subfloor shall be continuous over lapped joists or over butt joints between in-line joists. Sufficient blocking shall be provided between joists to transfer lateral forces at the base of the end walls into the floor system.
Where required, resistance to uplift or restraint against buckling shall be provided by interior bearing walls or properly designed stub walls anchored in the supporting soil below.
The area within the foundation walls shall have all vegetation, topsoil and foreign material removed, and any fill material that is added shall be free of vegetation and foreign material. The fill shall be compacted to ensure uniform support of the pressure preservative-treated wood floor sleepers.
A minimum 4-inch-thick (102 mm) granular base of gravel having a maximum size of 3/4 inch (19.1 mm) or crushed stone having a maximum size of 1/2 inch (12.7 mm) shall be placed over the compacted earth.
Polyethylene sheeting of minimum 6-mil (0.15 mm) thickness shall be placed over the granular base. Joints shall be lapped 6 inches (152 mm) and left unsealed. The polyethylene membrane shall be placed over the pressure preservative-treated wood sleepers and shall not extend beneath the footing plates of the exterior walls.
Framing materials, including sleepers, joists, blocking and plywood subflooring, shall be pressure-preservative treated and dried after treatment in accordance with AWPA U1 (Commodity Specification A, Special Requirement 4.2), and shall bear the label of an accredited agency.
Elements shall be straight and free of any defects that would significantly affect structural performance. Cold-formed steel floor framing members shall be in accordance with the requirements of this section.
The provisions of this section shall control the construction of cold-formed steel floor framing for buildings not greater than 60 feet (18 288 mm) in length perpendicular to the joist span, not greater than 40 feet (12 192 mm) in width parallel to the joist span and less than or equal to three stories above grade plane. Cold-formed steel floor framing constructed in accordance with the provisions of this section shall be limited to sites where the ultimate design wind speed is less than 140 miles per hour (63 m/s), Exposure Category B or C, and the ground snow load is less than or equal to 70 pounds per square foot (3.35 kPa).

Where supported by cold-formed steel-framed walls in accordance with Section R603, cold-formed steel floor framing shall be constructed with floor joists located in-line with load-bearing studs located below the joists in accordance with Figure R505.1.2 and the tolerances specified as follows:

  1. The maximum tolerance shall be 3/4 inch (19.1 mm) between the centerline of the horizontal framing member and the centerline of the vertical framing member.
  2. Where the centerline of the horizontal framing member and bearing stiffener are located to one side of the centerline of the vertical framing member, the maximum tolerance shall be 1/8 inch (3 mm) between the web of the horizontal framing member and the edge of the vertical framing member.

For SI: 1 inch = 25.4 mm.

FIGURE R505.1.2

IN-LINE FRAMING

Cold-formed steel trusses shall be designed, braced and installed in accordance with AISI S240. In the absence of specific bracing requirements, trusses shall be braced in accordance with accepted industry practices, such as the SBCA Cold-Formed Steel Building Component Safety Information (CFSBCSI), Guide to Good Practice for Handling, Installing & Bracing of Cold-Formed Steel Trusses. Truss members shall not be notched, cut or altered in any manner without an approved design.
Load-bearing cold-formed steel floor framing members shall be in accordance with this section.
Load-bearing cold-formed steel framing members shall be cold formed to shape from structural quality sheet steel complying with the requirements of ASTM A1003: Structural Grades 33 Type H and 50 Type H.

Load-bearing cold-formed steel framing shall have a metallic coating complying with ASTM A1003 and one of the following:

  1. Not less than G 60 in accordance with ASTM A653.
  2. Not less than AZ 50 in accordance with ASTM A792.

Load-bearing cold-formed steel floor framing members shall comply with Figure R505.2.3(1) and with the dimensional and thickness requirements specified in Table R505.2.3. Additionally, all C-shaped sections shall have a minimum flange width of 1.625 inches (41 mm) and a maximum flange width of 2 inches (51 mm). The minimum lip size for C-shaped sections shall be 1/2 inch (12.7 mm). Track sections shall comply with Figure R505.2.3(2) and shall have a minimum flange width of 11/4 inch (32 mm). Minimum Grade 33 ksi steel shall be used wherever 33 mil and 43 mil thicknesses are specified. Minimum Grade 50 ksi steel shall be used wherever 54 and 68 mil thicknesses are specified.

TABLE R505.2.3

COLD-FORMED STEEL JOIST SIZES AND THICKNESS

MEMBER DESIGNATIONaWEB DEPTH
(inches)
MINIMUM BASE STEEL THICKNESS
mil (inches)
550S162-t5.533 (0.0329), 43 (0.0428), 54 (0.0538), 68 (0.0677)
800S162-t833 (0.0329), 43 (0.0428), 54 (0.0538), 68 (0.0677)
1000S162-t1043 (0.0428), 54 (0.0538), 68 (0.0677)
1200S162-t1243 (0.0428), 54 (0.0538), 68 (0.0677)

For SI: 1 inch = 25.4 mm, 1 mil = 0.0254 mm.

  1. The member designation is defined by the first number representing the member depth in 0.01 inch, the letter "S" representing a stud or joist member, the second number representing the flange width in 0.01 inch, and the letter "t" shall be a number representing the minimum base metal thickness in mils.

FIGURE R505.2.3(1)

C-SHAPED SECTION

FIGURE R505.2.3(2)

TRACK SECTION

Load-bearing cold-formed steel framing members shall have a legible label, stencil, stamp or embossment with the following information as a minimum:

  1. Manufacturer's identification.
  2. Minimum base steel thickness in inches (mm).
  3. Minimum coating designation.
  4. Minimum yield strength, in kips per square inch (ksi) (MPa).
Screws for steel-to-steel connections shall be installed with a minimum edge distance and center-to-center spacing of 1/2 inch (12.7 mm), shall be self-drilling tapping, and shall conform to ASTM C1513. Floor sheathing shall be attached to cold-formed steel joists with minimum No. 8 self-drilling tapping screws that conform to ASTM C1513. Screws attaching floor sheathing to cold-formed steel joists shall have a minimum head diameter of 0.292 inch (7.4 mm) with countersunk heads and shall be installed with a minimum edge distance of 3/8 inch (9.5 mm). Gypsum board ceilings shall be attached to cold-formed steel joists with minimum No. 6 screws conforming to ASTM C954 or ASTM C1513 with a bugle-head style and shall be installed in accordance with Section R702. For all connections, screws shall extend through the steel not fewer than three exposed threads. Fasteners shall have a rust-inhibitive coating suitable for the installation in which they are being used, or be manufactured from material not susceptible to corrosion.
Web holes, web hole reinforcing, and web hole patching shall be in accordance with this section.

Web holes in floor joists shall comply with all of the following conditions:

  1. Holes shall conform to Figure R505.2.6.1.
  2. Holes shall be permitted only along the centerline of the web of the framing member.
  3. Holes shall have a center-to-center spacing of not less than 24 inches (610 mm).
  4. Holes shall have a web hole width not greater than 0.5 times the member depth, or 21/2 inches (64.5 mm).
  5. Holes shall have a web hole length not exceeding 41/2 inches (114 mm).
  6. Holes shall have a minimum distance between the edge of the bearing surface and the edge of the web hole of not less than 10 inches (254 mm).

Framing members with web holes not conforming to these requirements shall be reinforced in accordance with Section R505.2.6.2, patched in accordance with Section R505.2.6.3 or designed in accordance with accepted engineering practices.

For SI: 1 inch = 25.4 mm.

FIGURE R505.2.6.1

FLOOR JOIST WEB HOLES

Reinforcement of web holes in floor joists not conforming to the requirements of Section R505.2.6.1 shall be permitted if the hole is located fully within the center 40 percent of the span and the depth and length of the hole does not exceed 65 percent of the flat width of the web. The reinforcing shall be a steel plate or C-shaped section with a hole that does not exceed the web hole size limitations of Section R505.2.6.1 for the member being reinforced. The steel reinforcing shall be not thinner than the thickness of the receiving member and shall extend not less than 1 inch (25 mm) beyond all edges of the hole. The steel reinforcing shall be fastened to the web of the receiving member with No. 8 screws spaced not more than 1 inch (25 mm) center-to-center along the edges of the patch with minimum edge distance of 1/2 inch (12.7 mm).

Patching of web holes in floor joists not conforming to the requirements in Section R505.2.6.1 shall be permitted in accordance with either of the following methods:

  1. Framing members shall be replaced or designed in accordance with accepted engineering practices where web holes exceed the following size limits:

    1. 1.1. The depth of the hole, measured across the web, exceeds 70 percent of the flat width of the web.
    2. 1.2. The length of the hole, measured along the web, exceeds 10 inches (254 mm) or the depth of the web, whichever is greater.
  2. Web holes not exceeding the dimensional requirements in Section R505.2.6.3, Item 1, shall be patched with a solid steel plate, stud section or track section in accordance with Figure R505.2.6.3. The steel patch shall, as a minimum, be of the same thickness as the receiving member and shall extend not less than 1 inch (25 mm) beyond all edges of the hole. The steel patch shall be fastened to the web of the receiving member with No. 8 screws spaced not more than 1 inch (25 mm) center-to-center along the edges of the patch with minimum edge distance of 1/2 inch (12.7 mm).

For SI: 1 inch = 25.4 mm.

FIGURE R505.2.6.3

FLOOR JOIST WEB HOLE PATCH

Cold-formed steel floors shall be constructed in accordance with this section.

Cold-formed steel-framed floors shall be anchored to foundations, wood sills or load-bearing walls in accordance with Table R505.3.1(1) and Figure R505.3.1(1), R505.3.1(2), R505.3.1(3), R505.3.1(4), R505.3.1(5) or R505.3.1(6). Anchor bolts shall be located not more than 12 inches (305 mm) from corners or the termination of bottom tracks. Continuous cold-formed steel joists supported by interior load-bearing walls shall be constructed in accordance with Figure R505.3.1(7). Lapped cold-formed steel joists shall be constructed in accordance with Figure R505.3.1(8). End floor joists constructed on foundation walls parallel to the joist span shall be doubled unless a C-shaped bearing stiffener, sized in accordance with Section R505.3.4, is installed web-to-web with the floor joist beneath each supported wall stud, as shown in Figure R505.3.1(9). Fastening of cold-formed steel joists to other framing members shall be in accordance with Section R505.2.5 and Table R505.3.1(2).

TABLE R505.3.1(1)

FLOOR-TO-FOUNDATION OR BEARING WALL CONNECTION REQUIREMENTSa, b

FRAMING CONDITIONBASIC ULTIMATE WIND SPEED (mph) AND EXPOSURE
110 mph Exposure Category C or
less than 139 mph Exposure Category B
Less than 139 mph Exposure Category C
Floor joist to wall track of exterior wall in
accordance with Figure R505.3.1(1)
2-No. 8 screws3-No. 8 screws
Rim track or end joist to load-bearing wall top
track in accordance with Figure R505.3.1(1)
1-No. 8 screw at 24 inches o.c.1-No. 8 screw at 24 inches o.c.
Rim track or end joist to wood sill in accordance Steel plate spaced at 4 feet o.c. with 4-No. 8
screws and 4-10d or 6-8d common nails
Steel plate spaced at 2 feet o.c. with 4-No. 8
screws and 4-10d or 6-8d common nails
Rim track or end joist to foundation in accordance 1/2-inch minimum diameter anchor bolt and
clip angle spaced at 6 feet o.c. with 8-No. 8
screws
1/2-inch minimum diameter anchor bolt and
clip angle spaced at 4 feet o.c. with 8-No. 8
screws
Cantilevered joist to foundation in accordance 1/2-inch minimum diameter anchor bolt and
clip angle spaced at 6 feet o.c. with 8-No. 8
screws
1/2-inch minimum diameter anchor bolt and
clip angle spaced at 4 feet o.c. with 8-No. 8
screws
Cantilevered joist to wood sill in accordance Steel plate spaced at 4 feet o.c. with 4-No. 8
screws and 4-10d or 6-8d common nails
Steel plate spaced at 2 feet o.c. with 4-No. 8
screws and 4-10d or 6-8d common nails
Cantilevered joist to exterior load-bearing wall
track in accordance with Figure R505.3.1(6)
2-No. 8 screws3-No. 8 screws

For SI: 1 inch = 25.4 mm, 1 pound per square foot = 0.0479 kPa, 1 mile per hour = 0.447 m/s, 1 foot = 304.8 mm.

  1. Anchor bolts are to be located not more than 12 inches from corners or the termination of bottom tracks such as at door openings or corners. Bolts extend not less than 15 inches into masonry or 7 inches into concrete. Anchor bolts connecting cold-formed steel framing to the foundation structure are to be installed so that the distance from the center of the bolt hole to the edge of the connected member is not less than one and one-half bolt diameters.
  2. All screw sizes shown are minimum.

TABLE R505.3.1(2)

FLOOR FASTENING SCHEDULEa

DESCRIPTION OF BUILDING ELEMENTSNUMBER AND SIZE OF FASTENERSSPACING OF FASTENERS
Floor joist to track of an interior load-bearing wall
in accordance with Figures R505.3.1(7) and
R505.3.1(8)
2 No. 8 screwsEach joist
Floor joist to track at end of joist2 No. 8 screwsOne per flange or two per bearing stiffener
Subfloor to floor joistsNo. 8 screws6 in. o.c. on edges and 12 in. o.c. at intermediate

For SI: 1 inch = 25.4 mm.

  1. All screw sizes shown are minimum.

For SI: 1 mil = 0.0254 mm, 1 inch = 25.4 mm.

FIGURE R505.3.1(1)

FLOOR-TO-EXTERIOR LOAD-BEARING WALL STUD CONNECTION

For SI: 1 mil = 0.0254 mm, 1 inch = 25.4 mm.

FIGURE R505.3.1(2)

FLOOR-TO-WOOD-SILL CONNECTION

For SI: 1 mil = 0.0254 mm, 1 inch = 25.4 mm.

FIGURE R505.3.1(3)

FLOOR-TO-FOUNDATION CONNECTION

For SI: 1 mil = 0.0254 mm.

FIGURE R505.3.1(4)

CANTILEVERED FLOOR-TO-FOUNDATION CONNECTION

For SI: 1 mil = 0.0254 mm, 1 inch = 25.4 mm.

FIGURE R505.3.1(5)

CANTILEVERED FLOOR-TO-WOOD-SILL CONNECTION

For SI: 1 mil = 0.0254 mm.

FIGURE R505.3.1(6)

CANTILEVERED FLOOR TO EXTERIOR LOAD-BEARING WALL CONNECTION

For SI: 1 mil = 0.0254 mm, 1 inch = 25.4 mm.

FIGURE R505.3.1(7)

CONTINUOUS SPAN JOIST SUPPORTED ON INTERIOR LOAD-BEARING WALL

For SI: 1 inch = 25.4 mm.

FIGURE R505.3.1(8)

LAPPED JOISTS SUPPORTED ON INTERIOR LOAD-BEARING WALL

FIGURE R505.3.1(9)

BEARING STIFFENERS FOR END JOISTS

Floor joist size and thickness shall be determined in accordance with the limits set forth in Table R505.3.2 for single or continuous spans. Where continuous joist members are used, the interior bearing supports shall be located within 2 feet (610 mm) of midspan of the cold-formed steel joists, and the individual spans shall not exceed the spans in Table R505.3.2. Floor joists shall have a bearing support length of not less than 11/2 inches (38 mm) for exterior wall supports and 31/2 inches (89 mm) for interior wall supports. Tracks shall be not less than 33 mils (0.84 mm) thick except where used as part of a floor header or trimmer in accordance with Section R505.3.8. Bearing stiffeners shall be installed in accordance with Section R505.3.4.

TABLE R505.3.2

ALLOWABLE SPANS FOR COLD-FORMED STEEL JOISTS—SINGLE OR CONTINUOUS SPANSa, b, c, d, e, f

JOIST
DESIGNATION
30 PSF LIVE LOAD40 PSF LIVE LOAD
Spacing (inches)Spacing (inches)
121619.224121619.224
550S162-3311'-8"10'-4"9'-5"8'-5"10'-7"9'-2"8'-5"7'-6"
550S162-4312'-8"11'-6"10'-8"10'-5"11'-6"10'-4"9'-10"9'-3"
550S162-5413'-7"12'-4"11'-7"10'-9"12'-4"11'-3"10'-7"9'-10"
550S162-6814'-7"13'-3"12'-6"11'-7"13'-3"12'-0"11'-4"10'-6"
800S162-3314'-6"12'-6"11'-5"10'-3"12'-10"11'-1"10'-2"9'-1"
800S162-4317'-0"15'-1"13'-9"12'-4"15'-5"13'-5"12'-3"10'-11"
800S162-5418'-3"16'-7"15'-8"14'-6"16'-7"15'-1"14'-2"13'-2"
800S162-6819'-9"17'-11"16'-11"15'-8"17'-11"16'-3"15'-4"14'-3"
1000S162-4319'-4"16'-9"15'-3"13'-8"17'-2"14'-10"13'-7"12'-2"
1000S162-5421'-9"19'-9"18'-7"17'-3"19'-9"18'-0"16'-11"15'-8"
1000S162-6823'-7"21'-5"20'-2"18'-9"21'-5"19'-6"18'-4"17'-0"
1200S162-5425'-1"22'-10"21'-6"19'-9"22'-10"20'-9"19'-6"17'-6"
1200S162-6827'-3"24'-9"23'-4"21'-8"24'-9"22'-6"21'-2"19'-8"

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa, 1 mil = 0.0254 mm.

  1. Deflection criteria: L/480 for live loads, L/240 for total loads.
  2. Floor dead load = 10 psf.
  3. Table provides the maximum clear span in feet and inches.
  4. Bearing stiffeners are to be installed at all support points and concentrated loads.
  5. Minimum Grade 33 ksi steel shall be used for 33 mil and 43 mil thickness. Minimum Grade 50 ksi steel shall be used for 54 and 68 mil thickness.
  6. Table R505.3.2 is not applicable for 800S162-33 and 1000S162-43 continuous joist members.
Joist bracing and blocking shall be in accordance with this section.
The top flanges of cold-formed steel joists shall be laterally braced by the application of floor sheathing fastened to the joists in accordance with Section R505.2.5 and Table R505.3.1(2).

Floor joists with spans that exceed 12 feet (3658 mm) shall have the bottom flanges laterally braced in accordance with one of the following:

  1. Gypsum board installed with minimum No. 6 screws in accordance with Section R702.
  2. Continuous steel straps installed in accordance with Figure R505.3.3.2(1). Steel straps shall be spaced at not greater than 12 feet (3658 mm) on center and shall be not less than 11/2 inches (38 mm) in width and 33 mils (0.84 mm) in thickness. Straps shall be fastened to the bottom flange of each joist with one No. 8 screw, fastened to blocking with two No. 8 screws, and fastened at each end (of strap) with two No. 8 screws. Blocking in accordance with Figure R505.3.3.2(1) or R505.3.3.2(2) shall be installed between joists at each end of the continuous strapping and at a maximum spacing of 12 feet (3658 mm) measured along the continuous strapping (perpendicular to the joist run). Blocking shall also be located at the termination of all straps. As an alternative to blocking at the ends, anchoring the strap to a stable building component with two No. 8 screws shall be permitted.

For SI: 1 mil = 0.0254, 1 inch = 25.4 mm.

FIGURE R505.3.3.2(1)

JOIST BLOCKING (SOLID)

For SI: 1 mil = 0.0254, 1 inch = 25.4 mm.

FIGURE R505.3.3.2(2)

JOIST BLOCKING (STRAP)

Blocking is not required for continuous back-to-back floor joists at bearing supports. Blocking shall be installed between every other joist for single continuous floor joists across bearing supports in accordance with Figure R505.3.1(7). Blocking shall consist of C-shaped or track section with a minimum thickness of 33 mils (0.84 mm). Blocking shall be fastened to each adjacent joist through a 33-mil (0.84 mm) clip angle, bent web of blocking or flanges of web stiffeners with two No. 8 screws on each side. The minimum depth of the blocking shall be equal to the depth of the joist minus 2 inches (51 mm). The minimum length of the angle shall be equal to the depth of the joist minus 2 inches (51 mm).
Blocking shall be installed between every other joist over cantilever bearing supports in accordance with Figure R505.3.1(4), R505.3.1(5) or R505.3.1(6). Blocking shall consist of C-shaped or track section with minimum thickness of 33 mils (0.84 mm). Blocking shall be fastened to each adjacent joist through bent web of blocking, 33 mil clip angle or flange of web stiffener with two No. 8 screws at each end. The depth of the blocking shall be equal to the depth of the joist. The minimum length of the angle shall be equal to the depth of the joist minus 2 inches (51 mm). Blocking shall be fastened through the floor sheathing and to the support with three No. 8 screws (top and bottom).

Bearing stiffeners shall be installed at each joist bearing location in accordance with this section, except for joists lapped over an interior support not carrying a load-bearing wall above. Floor joists supporting jamb studs with multiple members shall have two bearing stiffeners in accordance with Figure R505.3.4(1). Bearing stiffeners shall be fabricated from a C-shaped, track or clip angle member in accordance with the one of following:

  1. C-shaped bearing stiffeners:

    1. 1.1. Where the joist is not carrying a load-bearing wall above, the bearing stiffener shall be a minimum 33 mil (0.84 mm) thickness.
    2. 1.2. Where the joist is carrying a load-bearing wall above, the bearing stiffener shall be not less than the same designation thickness as the wall stud above.
  2. Track bearing stiffeners:

    1. 2.1. Where the joist is not carrying a load-bearing wall above, the bearing stiffener shall be a minimum 43 mil (1.09 mm) thickness.
    2. 2.2. Where the joist is carrying a load-bearing wall above, the bearing stiffener shall be not less than one designation thickness greater than the wall stud above.

The minimum length of a bearing stiffener shall be the depth of member being stiffened minus 3/8 inch (9.5 mm). Each bearing stiffener shall be fastened to the web of the member it is stiffening as shown in Figure R505.3.4(2).

FIGURE R505.3.4(1)

BEARING STIFFENERS UNDER JAMB STUDS

For SI: 1 inch = 25.4 mm.

FIGURE R505.3.4(2)

BEARING STIFFENER

Flanges and lips of load-bearing cold-formed steel floor framing members shall not be cut or notched.
Floor cantilevers for the top floor of a two- or three-story building or the first floor of a one-story building shall not exceed 24 inches (610 mm). Cantilevers, not exceeding 24 inches (610 mm) and supporting two stories and roof (first floor of a two-story building), shall be permitted provided that all cantilevered joists are doubled (nested or back-to-back). The doubled cantilevered joists shall extend not less than 6 feet (1829 mm) toward the inside and shall be fastened with not less than two No. 8 screws spaced at 24 inches (610 mm) on center through the webs (for back-to-back) or flanges (for nested joists).

Joists and other structural members shall not be spliced without an approved design. Splicing of tracks shall conform to Figure R505.3.7.

For SI: 1 inch = 25.4 mm.

FIGURE R505.3.7

TRACK SPLICE

Openings in floors shall be framed with header and trimmer joists. Header joist spans shall not exceed 6 feet (1829 mm) or 8 feet (2438 mm) in length in accordance with Figure R505.3.8(1) or R505.3.8(2), respectively. Header and trimmer joists shall be fabricated from joist and track members, having a minimum size and thickness at least equivalent to the adjacent floor joists, and shall be installed in accordance with Figures R505.3.8(1), R505.3.8(2), R505.3.8(3) and R505.3.8(4). Each header joist shall be connected to trimmer joists with four 2-inch by 2-inch (51-mm by 51-mm) clip angles. Each clip angle shall be fastened to both the header and trimmer joists with four No. 8 screws, evenly spaced, through each leg of the clip angle. The clip angles shall have a thickness not less than that of the floor joist. Each track section for a built-up header or trimmer joist shall extend the full length of the joist (continuous).

For SI: 1 foot = 304.8 mm.

FIGURE R505.3.8(1)

COLD-FORMED STEEL FLOOR CONSTRUCTION—6-FOOT FLOOR OPENING

For SI: 1 foot = 304.8 mm.

FIGURE R505.3.8(2)

COLD-FORMED STEEL FLOOR CONSTRUCTION—8-FOOT FLOOR OPENING

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm.

FIGURE R505.3.8(3)

COLD-FORMED STEEL FLOOR CONSTRUCTION: FLOOR HEADER TO TRIMMER CONNECTION—6-FOOT OPENING

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm.

FIGURE R505.3.8(4)

COLD-FORMED STEEL FLOOR CONSTRUCTION: FLOOR HEADER TO TRIMMER CONNECTION—8-FOOT OPENING

Concrete slab-on-ground floors shall be designed and constructed in accordance with the provisions of this section or ACI 332. Floors shall be a minimum 31/2 inches (89 mm) thick (for expansive soils, see Section R403.1.8). The specified compressive strength of concrete shall be as set forth in Section R402.2.
The area within the foundation walls shall have all vegetation, top soil and foreign material removed.
Fill material shall be free of vegetation and foreign material. The fill shall be compacted to ensure uniform support of the slab, and except where approved, the fill depths shall not exceed 24 inches (610 mm) for clean sand or gravel and 8 inches (203 mm) for earth.

A 4-inch-thick (102 mm) base course consisting of clean graded sand, gravel, crushed stone, crushed concrete or crushed blast-furnace slag passing a 2-inch (51 mm) sieve shall be placed on the prepared subgrade where the slab is below grade.

Exception: A base course is not required where the concrete slab is installed on well-drained or sand-gravel mixture soils classified as Group I according to the United Soil Classification System in accordance with Table R405.1.

A 6-mil (0.006 inch; 152 µm) polyethylene or approved vapor retarder with joints lapped not less than 6 inches (152 mm) shall be placed between the concrete floor slab and the base course or the prepared subgrade where a base course does not exist.

Exception: The vapor retarder is not required for the following:

  1. Garages, utility buildings and other unheated accessory structures.
  2. For unheated storage rooms having an area of less than 70 square feet (6.5 m2) and carports.
  3. Driveways, walks, patios and other flatwork not likely to be enclosed and heated at a later date.
  4. Where approved by the building official, based on local site conditions.
Where provided in slabs-on-ground, reinforcement shall be supported to remain in place from the center to upper one-third of the slab for the duration of the concrete placement.
Wood-framed decks shall be in accordance with this section. For decks using materials and conditions not prescribed in this section, refer to Section R301.
Materials used for the construction of decks shall comply with this section.
Wood materials shall be No. 2 grade or better lumber, preservative-treated in accordance with Section R317, or approved, naturally durable lumber, and termite protected where required in accordance with Section R318. Where design in accordance with Section R301 is provided, wood structural members shall be designed using the wet service factor defined in AWC NDS. Cuts, notches and drilled holes of preservative-treated wood members shall be treated in accordance with Section R317.1.1. All preservative-treated wood products in contact with the ground shall be labeled for such usage.
Engineered wood products shall be in accordance with Section R502.
Plastic composite exterior deck boards, stair treads, guards and handrails shall comply with the requirements of ASTM D7032 and this section.
Plastic composite deck boards and stair treads, or their packaging, shall bear a label that indicates compliance with ASTM D7032 and includes the allowable load and maximum allowable span determined in accordance with ASTM D7032. Plastic or composite handrails and guards, or their packaging, shall bear a label that indicates compliance with ASTM D7032 and includes the maximum allowable span determined in accordance with ASTM D7032.

Plastic composite deck boards, stair treads, guards, and handrails shall exhibit a flame spread index not exceeding 200 when tested in accordance with ASTM E84 or UL 723 with the test specimen remaining in place during the test.

Exception: Plastic composites determined to be noncombustible.

Plastic composite deck boards, stair treads, guards and handrails containing wood, cellulosic or other biodegradable materials shall be decay resistant in accordance with ASTM D7032.
Where required by Section 318, plastic composite deck boards, stair treads, guards and handrails containing wood, cellulosic or other biodegradable materials shall be termite resistant in accordance with ASTM D7032.
Plastic composite deck boards, stair treads, guards and handrails shall be installed in accordance with this code and the manufacturer's instructions.
Metal fasteners and connectors used for all decks shall be in accordance with Section R317.3 and Table R507.2.3.

TABLE R507.2.3
FASTENER AND CONNECTOR SPECIFICATIONS FOR DECKSa, b
ITEMMATERIALMINIMUM FINISH/COATINGALTERNATE FINISH/COATINGe
Nails and timber rivetsIn accordance with ASTM F1667Hot-dipped galvanized per ASTM A153Stainless steel, silicon bronze or copper
Boltsc
Lag screwsd
(including nuts and
washers)
In accordance with
ASTM A307 (bolts),
ASTM A563 (nuts),
ASTM F844 (washers)
Hot-dipped galvanized per ASTM A153, Class C
(Class D for 3/8-inch diameter and less) or mechanically
galvanized per ASTM B695, Class 55 or 410
stainless steel
Stainless steel, silicon bronze or copper
Metal connectorsPer manufacturer's
specification
ASTM A653 type G185 zinc coated galvanized
steel or post hot-dipped galvanized per
ASTM A123 providing a minimum average coating
weight of 2.0 oz./ft2 (total both sides)
Stainless steel

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm.

  1. Equivalent materials, coatings and finishes shall be permitted.
  2. Fasteners and connectors exposed to salt water or located within 300 feet of a salt water shoreline shall be stainless steel.
  3. Holes for bolts shall be drilled a minimum 1/32 inch and a maximum 1/16 inch larger than the bolt.
  4. Lag screws 1/2 inch and larger shall be predrilled to avoid wood splitting per the National Design Specification (NDS) for Wood Construction.
  5. Stainless-steel-driven fasteners shall be in accordance with ASTM F1667.
Flashing shall be corrosion-resistant metal of nominal thickness not less than 0.019 inch (0.48 mm) or approved nonmetallic material that is compatible with the substrate of the structure and the decking materials.
Alternative materials, including glass and metals, shall be permitted.

Decks shall be supported on concrete footings or other approved structural systems designed to accommodate all loads in accordance with Section R301. Deck footings shall be sized to carry the imposed loads from the deck structure to the ground as shown in Figure R507.3. The footing depth shall be in accordance with Section R403.1.4.

Exception: Free-standing decks consisting of joists directly supported on grade over their entire length.

For SI: 1 inch = 25.4 mm.

FIGURE R507.3

DECK POSTS TO DECK FOOTING CONNECTION

The minimum size of concrete footings shall be in accordance with Table R507.3.1, based on the tributary area and allowable soil-bearing pressure in accordance with Table R401.4.1.

TABLE R507.3.1

MINIMUM FOOTING SIZE FOR DECKS

LIVE OR
GROUND

SNOW

LOADb

(psf)
TRIBUTARY
AREA

(sq. ft.)
LOAD BEARING VALUE OF SOILS a, c, d (psf)
1500e2000e2500e≥ 3000e
Side of a
square footing

(inches)
Diameter of a
round footing

(inches)
Thickness
(inches)
Side of a
square footing

(inches)
Diameter of a
round footing

(inches)
Thickness
(inches)
Side of a
square footing

(inches)
Diameter of a
round footing

(inches)
Thickness
(inches)
Side of a
square footing

(inches)
Diameter of a
round footing
(inches)
Thickness
(inches)
402012146121461214612146
4014166121461214612146
6017196151761315612146
8020227171961517614166
10022258192161719615176
12024279212371921617196
140262910222582023718216
160283111242792124820227
502012146121461214612146
4015176131561214612146
6019216161861416613156
8021248192161719615176
10024279212371921617196
120263010232682023719216
140283211252892225820237
1603034122630102427921248
602012146121461214612146
4016196141661314612146
6020237172061618614166
8023269202371820616196
100262910222582023718216
120283211252892225820237
1403135122730102427922248
16033371328321125291023269
702012146121461214612146
4018206151761415612146
6021248192161719615176
8025289212481922718206
100283111242792124820227
1203034122630102427921248
14033371328321125291023269
16035401530341227311125289

For SI: 1 inch = 25.4 mm, 1 square foot = 0.0929 m2, 1 pound per square foot = 0.0479 kPa.

  1. Interpolation permitted, extrapolation not permitted.
  2. Based on highest load case: Dead + Live or Dead + Snow.
  3. Assumes minimum square footing to be 12 inches x 12 inches x 6 inches for 6 x 6 post.
  4. If the support is a brick or CMU pier, the footing shall have a minimum 2-inch projection on all sides.
  5. Area, in square feet, of deck surface supported by post and footings.

Deck footings shall extend below the frost line specified in Table R301.2(1) in accordance with Section R403.1.4.1.

Exceptions:

  1. Free-standing decks that meet all of the following criteria:

    1. 1.1. The joists bear directly on precast concrete pier blocks at grade without support by beams or posts.
    2. 1.2. The area of the deck does not exceed 200 square feet (18.9 m2).
    3. 1.3. The walking surface is not more than 20 inches (616 mm) above grade at any point within 36 inches (914 mm) measured horizontally from the edge.
  2. Free-standing decks need not be provided with footings that extend below the frost line.

For single-level wood-framed decks with beams sized in accordance with Table R507.5, deck post size shall be in accordance with Table R507.4.

TABLE R507.4

DECK POST HEIGHTa

DECK POST SIZEMAXIMUM HEIGHTa, b
(feet-inches)
4 × 46-9c
4 × 68
6 × 614
8 × 814

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa.

  1. Measured to the underside of the beam.
  2. Based on 40 psf live load.
  3. The maximum permitted height is 8 feet for one-ply and two-ply beams. The maximum permitted height for three-ply beams on post cap is 6 feet 9 inches.

Where posts bear on concrete footings in accordance with Section R403 and Figure R507.4.1, lateral restraint shall be provided by manufactured connectors or a minimum post embedment of 12 inches (305 mm) in surrounding soils or concrete piers. Other footing systems shall be permitted.

Exception: Where expansive, compressible, shifting or other questionable soils are present, surrounding soils shall not be relied on for lateral support.

Maximum allowable spans for wood deck beams, as shown in Figure R507.5, shall be in accordance with Table R507.5. Beam plies shall be fastened with two rows of 10d (3-inch × 0.128-inch) nails minimum at 16 inches (406 mm) on center along each edge. Beams shall be permitted to cantilever at each end up to one-fourth of the allowable beam span. Deck beams of other materials shall be permitted where designed in accordance with accepted engineering practices.

FIGURE R507.5

TYPICAL DECK JOIST SPANS

TABLE R507.5

DECK BEAM SPAN LENGTHSa, b, g (feet - inches)

SPECIEScSIZEdDECK JOIST SPAN LESS THAN OR EQUAL TO:
(feet)
681012141618
Southern pine1 — 2 × 64-114-03-73-33-02-102-8
1 — 2 × 85-115-14-74-22-103-73-5
1 — 2 × 107-06-05-54-114-74-34-0
1 — 2 × 128-37-16-45-105-55-04-9
2 — 2 × 66-115-115-44-104-64-34-0
2 — 2 × 88-97-76-96-25-95-45-0
2 — 2 × 1010-49-08-07-46-96-46-0
2 — 2 × 1212-210-79-58-78-07-67-0
3 — 2 × 68-27-56-86-15-85-35-0
3 — 2 × 810-109-68-67-97-26-86-4
3 — 2 × 1013-011-310-09-28-67-117-6
3 — 2 × 1215-313-311-1010-910-09-48-10
Douglas fir-larche,
hem-fire,
spruce-pine-fire,
redwood,
western cedars,
ponderosa pinef,
red pinef
3 × 6 or 2 — 2 x 65-54-84-23-103-63-12-9
3 × 8 or 2 — 2 × 86-105-115-44-104-64-13-8
3 × 10 or 2 — 2 × 108-47-36-65-115-65-14-8
3 × 12 or 2 — 2 × 129-88-57-66-106-45-115-7
4 × 66-55-64-114-64-23-113-8
4 × 88-57-36-65-115-65-24-10
4 × 109-118-77-87-06-66-15-8
4 × 1211-59-118-108-17-67-06-7
3 — 2 × 67-46-86-05-65-14-94-6
3 — 2 × 89-88-67-76-116-56-05-8
3 — 2 × 1012-010-59-48-67-107-46-11
3 — 2 × 1213-1112-110-99-109-18-68-1

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa, 1 pound = 0.454 kg.

  1. Ground snow load, live load = 40 psf, dead load = 10 psf, L/Δ = 360 at main span, L/Δ = 180 at cantilever with a 220-pound point load applied at the end.
  2. Beams supporting deck joists from one side only.
  3. No. 2 grade, wet service factor.
  4. Beam depth shall be greater than or equal to depth of joists with a flush beam condition.
  5. Includes incising factor.
  6. Northern species. Incising factor not included.
  7. Beam cantilevers are limited to the adjacent beam's span divided by 4.

The ends of beams shall have not less than 11/2 inches (38 mm) of bearing on wood or metal and not less than 3 inches (76 mm) of bearing on concrete or masonry for the entire width of the beam. Where multiple-span beams bear on intermediate posts, each ply must have full bearing on the post in accordance with Figures R507.5.1(1) and R507.5.1(2).

For SI: 1 inch = 25.4 mm.

FIGURE R507.5.1(1)

DECK BEAM TO DECK POST

For SI: 1 inch = 25.4 mm.

FIGURE R507.5.1(2)

NOTCHED POST-TO-BEAM CONNECTION

Deck beams shall be attached to supports in a manner capable of transferring vertical loads and resisting horizontal displacement. Deck beam connections to wood posts shall be in accordance with Figures R507.5.1(1) and R507.5.1(2). Manufactured post-to-beam connectors shall be sized for the post and beam sizes. Bolts shall have washers under the head and nut.

Maximum allowable spans for wood deck joists, as shown in Figure R507.6, shall be in accordance with Table R507.6. The maximum joist spacing shall be limited by the decking materials in accordance with Table R507.7. The maximum joist cantilever shall be limited to one-fourth of the joist span or the maximum cantilever length specified in Table R507.6, whichever is less.

FIGURE R507.6

TYPICAL DECK JOIST SPANS

TABLE R507.6

DECK JOIST SPANS FOR COMMON LUMBER SPECIES (ft. - in.)

SPECIESaSIZEALLOWABLE JOIST SPANbMAXIMUM CANTILEVERc, f
SPACING OF DECK JOISTS
(inches)
SPACING
OF DECK JOISTS WITH CANTILEVERSc

(inches)
121624121624
Southern pine2 × 69-119-07-71-31-41-6
2 × 813-111-109-82-12-32-5
2 × 1016-214-011-53-43-62-10
2 × 1218-016-613-64-64-23-4
Douglas fir-larchd,
hem-fird
spruce-pine-fird,
2 × 69-68-87-21-21-31-5
2 × 812-611-19-11-112-12-3
2 × 1015-813-711-13-13-52-9
2 × 1218-015-912-104-63-113-3
Redwood,
western cedars,
ponderosa pinee,
red pinee
2 × 68-108-07-01-01-11-2
2 × 811-810-78-81-81-102-0
2 × 1014-1113-010-72-82-102-8
2 × 1217-515-112-43-103-93-1

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa, 1 pound = 0.454 kg.

  1. No. 2 grade with wet service factor.
  2. Ground snow load, live load = 40 psf, dead load = 10 psf, L/Δ = 360.
  3. Ground snow load, live load = 40 psf, dead load = 10 psf, L/Δ = 360 at main span, L/Δ = 180 at cantilever with a 220-pound point load applied to end.
  4. Includes incising factor.
  5. Northern species with no incising factor.
  6. Cantilevered spans not exceeding the nominal depth of the joist are permitted.
The ends of joists shall have not less than 11/2 inches (38 mm) of bearing on wood or metal and not less than 3 inches (76 mm) of bearing on concrete or masonry over its entire width. Joists bearing on top of a multiple-ply beam or ledger shall be fastened in accordance with Table R602.3(1). Joists bearing on top of a single-ply beam or ledger shall be attached by a mechanical connector. Joist framing into the side of a beam or ledger board shall be supported by approved joist hangers.
Joist ends and bearing locations shall be provided with lateral resistance to prevent rotation. Where lateral restraint is provided by joist hangers or blocking between joists, their depth shall equal not less than 60 percent of the joist depth. Where lateral restraint is provided by rim joists, they shall be secured to the end of each joist with not fewer than three 10d (3-inch by 0.128-inch) (76 mm by 3.3 mm) nails or three No. 10x 3-inch (76 mm) long wood screws.

Maximum allowable spacing for joists supporting decking shall be in accordance with Table R507.7. Wood decking shall be attached to each supporting member with not less than two 8d threaded nails or two No. 8 wood screws. Other approved decking or fastener systems shall be installed in accordance with the manufacturer's installation requirements.

TABLE R507.7

MAXIMUM JOIST SPACING FOR DECKING

DECKING MATERIAL TYPE AND NOMINAL SIZEMAXIMUM ON-CENTER JOIST SPACING
Decking perpendicular to joistDecking diagonal to joista
11/4-inch-thick wood16 inches12 inches
2-inch-thick wood24 inches16 inches
Plastic compositeIn accordance with Section R507.2In accordance with Section R507.2

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 degree = 0.01745 rad.

  1. Maximum angle of 45 degrees from perpendicular for wood deck boards.
Where supported by attachment to an exterior wall, decks shall be positively anchored to the primary structure and designed for both vertical and lateral loads. Such attachment shall not be accomplished by the use of toenails or nails subject to withdrawal. For decks with cantilevered framing members, connection to exterior walls or other framing members shall be designed and constructed to resist uplift resulting from the full live load specified in Table R301.5 acting on the cantilevered portion of the deck. Where positive connection to the primary building structure cannot be verified during inspection, decks shall be self-supporting.
Vertical and lateral supports for decks shall comply with this section.
Vertical loads shall be transferred to band joists with ledgers in accordance with this section.
Deck ledgers shall be a minimum 2-inch by 8-inch (51 mm by 203 mm) nominal, pressure-preservative-treated Southern pine, incised pressure-preservative-treated hem-fir, or approved, naturally durable, No. 2 grade or better lumber. Deck ledgers shall not support concentrated loads from beams or girders. Deck ledgers shall not be supported on stone or masonry veneer.
Band joists supporting a ledger shall be a minimum 2-inch-nominal (51 mm), solid-sawn, spruce-pine-fir or better lumber or a minimum 1-inch by 91/2-inch (25 mm × 241 mm) dimensional, Douglas fir or better, laminated veneer lumber. Band joists shall bear fully on the primary structure capable of supporting all required loads.

Fasteners used in deck ledger connections in accordance with Table R507.9.1.3(1) shall be hot-dipped galvanized or stainless steel and shall be installed in accordance with Table R507.9.1.3(2) and Figures R507.9.1.3(1) and R507.9.1.3(2).

TABLE R507.9.1.3(1)

DECK LEDGER CONNECTION TO BAND JOISTa, b(Deck live load = 40 psf, deck dead load = 10 psf, snow load ≤ 40 psf)

CONNECTION DETAILSJOIST SPAN
6' and less6'1" to 8'8'1" to 10'10'1" to 12'12'1" to 14'14'1" to 16'16'1" to 18'
On-center spacing of fasteners
1/2-inch diameter lag screw with 1/2-inch
maximum sheathingc, d
30231815131110
1/2-inch diameter bolt with 1/2-inch maximum
sheathingd
36363429242119
1/2-inch diameter bolt with 1-inch maximum
sheathinge
36362924211816

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound per square foot = 0.0479 kPa.

  1. Ledgers shall be flashed in accordance with Section R703.4 to prevent water from contacting the house band joist.
  2. Snow load shall not be assumed to act concurrently with live load.
  3. The tip of the lag screw shall fully extend beyond the inside face of the band joist.
  4. Sheathing shall be wood structural panel or solid sawn lumber.
  5. Sheathing shall be permitted to be wood structural panel, gypsum board, fiberboard, lumber or foam sheathing. Up to 1/2-inch thickness of stacked washers shall be permitted to substitute for up to 1/2 inch of allowable sheathing thickness where combined with wood structural panel or lumber sheathing.

TABLE R507.9.1.3(2)

PLACEMENT OF LAG SCREWS AND BOLTS IN DECK LEDGERS AND BAND JOISTS

MINIMUM END AND EDGE DISTANCES AND SPACING BETWEEN ROWS
TOP EDGEBOTTOM EDGEENDSROW SPACING
Ledgera2 inchesd3/4 inch2 inchesb15/8 inchesb
Band Joistc3/4 inch2 inches2 inchesb15/8 inchesb

For SI: 1 inch = 25.4 mm.

  1. Lag screws or bolts shall be staggered from the top to the bottom along the horizontal run of the deck ledger in accordance with Figure R507.9.1.3(1).
  2. Maximum 5 inches.
  3. For engineered rim joists, the manufacturer's recommendations shall govern.
  4. The minimum distance from bottom row of lag screws or bolts to the top edge of the ledger shall be in accordance with Figure R507.9.1.3(1).

For SI: 1 inch = 25.4 mm.

FIGURE R507.9.1.3(1)

PLACEMENT OF LAG SCREWS AND BOLTS IN LEDGERS

For SI: 1 inch = 25.4 mm.

FIGURE R507.9.1.3(2)

PLACEMENT OF LAG SCREWS AND BOLTS IN BAND JOISTS

Alternate framing configurations supporting a ledger constructed to meet the load requirements of Section R301.5 shall be permitted.

Lateral loads shall be transfered to the ground or to a structure capable of transmitting them to the ground. Where the lateral load connection is provided in accordance with Figure R507.9.2(1), hold-down tension devices shall be installed in not less than two locations per deck, within 24 inches (610 mm) of each end of the deck. Each device shall have an allowable stress design capacity of not less than 1,500 pounds (6672 N). Where the lateral load connections are provided in accordance with Figure R507.9.2(2), the hold-down tension devices shall be installed in not less than four locations per deck, and each device shall have an allowable stress design capacity of not less than 750 pounds (3336 N).

For SI: 1 inch = 25.4 mm.

FIGURE R507.9.2(1)

DECK ATTACHMENT FOR LATERAL LOADS

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm.

FIGURE R507.9.2(2)

DECK ATTACHMENT FOR LATERAL LOADS

Analyzing code differences
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