Code of Massachusetts Regulations
780 CMR - STATE BOARD OF BUILDING REGULATIONS AND STANDARDS
Chapter 7 - Fire and Smoke Protection Features
Section 720 - PRESCRIPTIVE FIRE RESISTANCE
Subsection 720.1 - General

Universal Citation: 780 CMR MA Code of Regs 720.1

Current through Register 1531, September 27, 2024

The provisions of this section contain prescriptive details of fire-resistance-rated building elements, components or assemblies. The materials of construction listed in Tables 720.1(1), 720.1(2), and 720.1(3) shall be assumed to have the fire-resistance ratings prescribed therein. Where materials that change the capacity for heat dissipation are incorporated into a fire-resistance-rated assembly, fire test results or other substantiating data shall be made available to the building official to show that the required fire-resistance-rating time period is not reduced.

TABLE 720.1(1) MINIMUM PROTECTION OF STRUCTURAL PARTS BASED ON TIME PERIODS FOR VARIOUS NONCOMBUSTIBLE INSULATING MATERIALSm

STRUCTURAL PARTS TO BE PROTECTED ITEM NUMBER INSULATING MATERIAL USED MINIMUM THICKNESS OF INSULATING MATERIAL FOR THE FOLLOWING FIRE-RESISTANCE PERIODS (inches)
4 hour 3 hour 2 hour 1 hour
1. Steel columns and all of primary trusses 1-1.1 Carbonate, lightweight and sand-lightweight aggregate concrete, members 6'' × 6'' or greater (not including sandstone, granite and siliceous gravel).a 21/2 2 11/2 1
1-1.2 Carbonate, lightweight and sand-lightweight aggregate concrete, members 8'' × 8'' or greater (not including sandstone, granite and siliceous gravel).a 2 11/2 1 1
1-1.3 Carbonate, lightweight and sand-lightweight aggregate concrete, members 12'' ×12'' or greater (not including sandstone, granite and siliceous gravel).a 11/2 1 1 1
1-1.4 Siliceous aggregate concrete and concrete excluded in Item 1-1.1, members 6'' × 6'' or greater.a 3 2 11/2 1
1-1.5 Siliceous aggregate concrete and concrete excluded in Item 1-1.1, members 8'' × 8'' or greater.a 21/2 2 1 1
1-1.6 Siliceous aggregate concrete and concrete excluded in Item 1-1.1, members 12'' × 12'' or greater.a 2 1 1 1
1-2.1 Clay or shale brick with brick and mortar fill.a 33/4 - - 21/4
1-3.1 4'' hollow clay tile in two 2'' layers; 1/2'' mortar between tile and column; 3/8'' metal mesh 0.046' wire diameter in horizontal joints; tile fill.a 4 - - -
1-3.2 2' hollow clay tile; 3/4'' mortar between tile and column; 3/8'' metal mesh 0.046'' wire diameter in horizontal joints; limestone concrete fill;a plastered with 3/4'' gypsum plaster. 3 - - -
1-3.3 2'' hollow clay tile with outside wire ties 0.08'' diameter at each course of tile or 3/8'' metal mesh 0.046'' diameter wire in horizontal joints; limestone or trap-rock concrete filla extending 1'' outside column on all sides. - - 3 -
1-3.4 2'' hollow clay tile with outside wire ties 0.08'' diameter at each course of tile with or without concrete fill; 3/4'' mortar between tile and column. - - - 2
1-4.1 Cement plaster over metal lath wire tied to 3/4'' cold-rolled vertical channels with 0.049'' (No.18 B.W. gage) wire ties spaced 3'' to 6'' on center. Plaster mixed 1:2 1/2 by volume, cement to sand. - - 21/2b 7/8
1-5.1 Vermiculite concrete, 1:4 mix by volume over paperbacked wire fabric lath wrapped directly around column with additional 2'' × 2'' 0.065'/0.065'' (No. 16/16 B.W. gage) wire fabric placed 3/4'' from outer concrete surface. Wire fabric tied with 0.049'' (No. 18 B.W. gage) wire spaced 6'' on center for inner layer and 2'' on center for outer layer. 2 - - -
1-6.1 Perlite or vermiculite gypsum plaster over metal lath wrapped around column and furred 11/4'' from column flanges. Sheets lapped at ends and tied at 6'' intervals with 0.049'' (No. 18 B.W. gage) tie wire. Plaster pushed through to flanges. 11/2 1 - -
1-6.2 Perlite or vermiculite gypsum plaster over self-furring metal lath wrapped directly around column, lapped 1'' and tied at 6'' intervals with 0.049'' (No. 18 B.W. gage) wire. 13/4 13/8 1 -
1-6.3 Perlite or vermiculite gypsum plaster on metal lath applied to 3/4'' cold-rolled channels spaced 24'' apart vertically and wrapped flatwise around column. 11/2 - - -
1-6.4 Perlite or vermiculite gypsum plaster over two layers of 1/2'' plain full-length gypsum lath applied tight to column flanges. Lath wrapped with 1'' hexagonal mesh of No. 20 gage wire and tied with doubled 0.035'' diameter (No. 18 B.W. gage) wire ties spaced 23'' on center. For three-coat work, the plaster mix for the second coat shall not exceed 100 pounds of gypsum to 21/2 cubic feet of aggregate for the 3-hour system. 21/2 2 - -
1. Steel columns and all of primary trusses (continued) 1-6.5 Perlite or vermiculate gypsum plaster over one layer of 1/2'' plain full-length gypsum lath applied tight to column flanges. Lath tied with doubled 0.049'' (No. 18 B.W. gage) wire ties spaced 23'' on center and scratch coat wrapped with 1'' hexagonal mesh 0.035'' (No. 20 B.W. gage) wire fabric. For three-coat work, the plaster mix for the second coat shall not exceed 100 pounds of gypsum to 21/2cubic feet of aggregate. - 2 - -
1-7.1 Multiple layers of 1/2'' gypsum wallboardc adhesivelyd secured to column flanges and successive layers. Wallboard applied without horizontal joints. Corner edges of each layer staggered. Wallboard layer below outer layer secured to column with doubled 0.049'' (No. 18 B.W. gage) steel wire ties spaced 15'' on center. Exposed corners taped and treated. - - 2 1
1-7.2 Three layers of 5/8'' Type X gypsum wallboard.c First and second layer held in place by 1/8'' diameter by 13/8'' long ring shank nails with 5/16'' diameter heads spaced 24'' on center at corners. Middle layer also secured with metal straps at mid-height and 18'' from each end, and by metal corner bead at each corner held by the metal straps. Third layer attached to corner bead with 1'' long gypsum wallboard screws spaced 12'' on center. - - 17/8 -
1-7.3 Three layers of 5/8'' Type X gypsum wallboard,c each layer screw attached to 15/8'' steel studs 0.018'' thick (No. 25 carbon sheet steel gage) at each corner of column. Middle layer also secured with 0.049'' (No. 18 B.W.gage) double-strand steel wire ties, 24'' on center. Screws are No. 6 by 1'' spaced 24'' on center for inner layer, No. 6 by 15/8'' spaced 12'' on center for middle layer and No. 8 by 21/4'' spaced 12'' on center for outer layer. - 17/8 - -
1-8.1 Wood-fibered gypsum plaster mixed 1:1 by weight gypsum-to-sand aggregate applied over metal lath. Lath lapped 1'' and tied 6'' on center at all end, edges and spacers with 0.049'' (No. 18 B.W. gage) steel tie wires. Lath applied over 1/2'' spacers made of 3/4'' furring channel with 2'' legs bent around each corner. Spacers located 1'' from top and bottom of member and a maximum of 40'' on center and wire tied with a single strand of 0.049'' (No. 18 B.W. gage) steel tie wires. Corner bead tied to the lath at 6'' on center along each corner to provide plaster thickness. - - 15/8 -
1-9.1 Minimum W8x 35 wide flange steel column (w/d > = 0.75) with each web cavity filled even with the flange tip with normal weight carbonate or siliceous aggregate concrete (3,000 psi minimum compressive strength with 145 pcf ± 3 pcf unit weight). Reinforce the concrete in each web cavity with a minimum No. 4 deformed reinforcing bar installed vertically and centered in the cavity, and secured to the column web with a minimum No. 2 horizontal deformed reinforcing bar welded to the web every 18'' on center vertically. As an alternative to the No. 4 rebar, 3/4'' diameter by 3'' long headed studs, spaced at 12'' on center vertically, shall be welded on each side of the web midway between the column flanges. - - - See Note n
2. Webs or flanges of steel beams and girders 2-1.1 Carbonate, lightweight and sand-lightweight aggregate concrete (not including sandstone, granite and siliceous gravel) with 3'' or finer metal mesh placed 1'' from the finished surface anchored to the top flange and providing not less than 0.025 square inch of steel area per foot in each direction. 2 11/2 1 1
2-1.2 Siliceous aggregate concrete and concrete excluded in Item 2-1.1 with 3'' or finer metal mesh placed 1'' from the finished surface anchored to the top flange and providing not less than 0.025 square inch of steel area per foot in each direction. 21/2 2 11/2 1
2-2.1 Cement plaster on metal lath attached to 3/4'' cold-rolled channels with 0.04'' (No. 18 B.W. gage) wire ties spaced 3'' to 6'' on center. Plaster mixed 1:2 1/2 by volume, cement to sand. - - 21/2b 7/8
2. Webs or flanges of steel beams and girders (continued) 2-3.1 Vermiculite gypsum plaster on a metal lath cage, wire tied to 0.165'' diameter (No. 8 B.W. gage) steel wire hangers wrapped around beam and spaced 16'' on center. Metal lath ties spaced approximately 5'' on center at cage sides and bottom. - 7/8 - -
2-4.1 Two layers of 5/8'' Type X gypsum wallboardc are attached to U-shaped brackets spaced 24'' on center. 0.018'' thick (No. 25 carbon sheet steel gage) 15/8'' deep by 1'' galvanized steel runner channels are first installed parallel to and on each side of the top beam flange to provide a 1/2'' clearance to the flange. The channel runners are attached to steel deck or concrete floor construction with approved fasteners spaced 12'' on center. U-shaped brackets are formed from members identical to the channel runners. At the bent portion of the U-shaped bracket, the flanges of the channel are cut out so that 15/8'' deep corner channels can be inserted without attachment parallel to each side of the lower flange. As an alternate, 0.021'' thick (No. 24 carbon sheet steel gage) 1'' × 2'' runner and corner angles may be used in lieu of channels, and the web cutouts in the U-shaped brackets may be omitted. Each angle is attached to the bracket with 1/2''-long No. 8 self-drilling screws. The vertical legs of the U-shaped bracket are attached to the runners with one 1/2'' long No. 8 self-drilling screw. The completed steel framing provides a 21/8'' and 11/2'' space between the inner layer of wallboard and the sides and bottom of the steel beam, respectively. The inner layer of wallboard is attached to the top runners and bottom corner channels or corner angles with 11/4''-long No. 6 self-drilling screws spaced 16'' on center. The outer layer of wallboard is applied with 13/4''-long No. 6 self-drilling screws spaced 8'' on center. The bottom corners are reinforced with metal corner beads. - - 11/4 -
2-4.2 Three layers of 5/8'' Type X gypsum wallboardc attached to a steel suspension system as described immediately above utilizing the 0.018'' thick (No. 25 carbon sheet steel gage) 1'' × 2'' lower corner angles. The framing is located so that a 21/8'' and 2'' space is provided between the inner layer of wallboard and the sides and bottom of the beam, respectively. The first two layers of wallboard are attached as described immediately above. A layer of 0.035'' thick (No. 20 B.W. gage) 1'' hexagonal galvanized wire mesh is applied under the soffit of the middle layer and up the sides approximately 2''. The mesh is held in position with the No. 6 15/8''-long screws installed in the vertical leg of the bottom corner angles. The outer layer of wallboard is attached with No. 6 21/4''-long screws spaced 8'' on center. One screw is also installed at the mid-depth of the bracket in each layer. Bottom corners are finished as described above. - 17/8 - -
3. Bonded pretensioned reinforcement in prestressed concretee 3-1.1 Carbonate, lightweight, sand-lightweight and siliceousf aggregate concrete 4g 3g 21/2 11/2
Beams or girders
Solid slabsh 2 11/2 1
4. Bonded or unbonded post-tensioned tendons in prestressed concretee, i 4-1.1 Carbonate, lightweight, sand-lightweight and siliceousf aggregate concrete
Unrestrained members:
Solid slabsh

-

2

11/2

-

Beams and girdersj
8'' wide

41/2

21/2

13/4

greater than 12'' wide

3

21/2

2

11/2

4-1.2 Carbonate, lightweight, sand-lightweight and siliceous aggregate
Restrained members:k
Solid slabsh

11/4

1

3/4

-

Beams and girdersj
8'' wide

21/2

2

13/4

-

greater than 12'' wide

2

13/4

11/2

-

5. Reinforcing steel in reinforced concrete columns, beams girders and trusses 5-1.1 Carbonate, lightweight and sand-lightweight aggregate concrete, members 12'' or larger, square or round. (Size limit does not apply to beams and girders monolithic with floors.) 11/2 11/2 11/2 11/2
Siliceous aggregate concrete, members 12'' or larger, square or round. (Size limit does not apply to beams and girders monolithic with floors.) 2 11/2 11/2 11/2
6. Reinforcing steel in reinforced concrete joistsl 6-1.1 Carbonate, lightweight and sand-lightweight aggregate concrete. 11/4 11/4 1 3/4
6-1.2 Siliceous aggregate concrete. 13/4 11/2 1 3/4
7. Reinforcing and tie rods in floor and roof slabsl 7-1.1 Carbonate, lightweight and sand-lightweight aggregate concrete 1 1 3/4 3/4
7-1.2 Carbonate, lightweight and sand-lightweight aggregate concrete 11/4 1 1 3/4

For SI: 1 inch = 25.4 mm, 1 square inch = 645.2 mm2, 1 cubic foot = 0.0283 m3, 1 pound per cubic foot = 16.02 kg/m3.

a. Reentrant parts of protected members to be filled solidly.

b. Two layers of equal thickness with a 3/4-inch airspace between.

c. For all of the construction with gypsum wallboard described in Table 720.1(1), gypsum base for veneer plaster of the same size, thickness and core type shall be permitted to be substituted for gypsum wallboard, provided attachment is identical to that specified for the wallboard and the joints on the face layer are reinforced, and the entire surface is covered with a minimum of 1/16-inch gypsum veneer plaster.

d. An approved adhesive qualified under ASTM E 119 or UL 263.

e. Where lightweight or sand-lightweight concrete having an oven-dry weight of 110 pounds per cubic foot or less is used, the tabulated minimum cover shall be permitted to be reduced 25 percent, except that in no case shall the cover be less than 3/4 inch in slabs or 11/2 inches in beams or girders.

f. For solid slabs of siliceous aggregate concrete, increase tendon cover 20 percent.

g. Adequate provisions against spalling shall be provided by U-shaped or hooped stirrups spaced not to exceed the depth of the member with a clear cover of 1 inch.

h. Prestressed slabs shall have a thickness not less than that required in Table 720.1(3) for the respective fire-resistance time period

i. Fire coverage and end anchorages shall be as follows: Cover to the prestressing steel at the anchor shall be 1/2 inch greater than that required away from the anchor. Minimum cover to steel-bearing plate shall be 1 inch in beams and 3/4 inch in slabs.

j. For beam widths between 8 inches and 12 inches, cover thickness shall be permitted to be determined by interpolation.

k. Interior spans of continuous slabs, beams and girders shall be permitted to be considered restrained.

l. For use with concrete slabs having a comparable fire endurance where members are framed into the structure in such a manner as to provide equivalent performance to that of monolithic concrete construction.

m. Generic fire-resistance ratings (those not designated as PROPRIETARY* in the listing) in GA 600 shall be accepted as if herein listed.

n. No additional insulating material is required on the exposed outside face of the column flange to achieve a 1-hour fire-resistance rating.

TABLE 720.1(2) RATED FIRE-RESISTANCE PERIODS FOR VARIOUS WALLS AND PARTITIONS a, o, p

MATERIAL ITEM NUMBER CONSTRUCTION MINIMUM FINISHED THICKNESS FACE-TO-FACEb (inches)
4 hours 3 hours 2 hours 1 hour
1. Brick of clay or shale 1-1.1 Solid brick of clay or shalec. 6 4.9 3.8 2.7
1-1.2 Hollow brick, not filled. 5.0 4.3 3.4 2.3
1-1.3 Hollow brick unit wall, grout or filled with perlite vermiculite or expanded shale aggregate. 6.6 5.5 4.4 3.0
1-2.1 4" nominal thick units at least 75 percent solid backed with a hat-shaped metal furring channel 3/4 " thick formed from 0.021" sheet metal attached to the brick wall on 24" centers with approved fasteners, and 1 /2" Type X gypsum wallboard attached to the metal furring strips with 1"-long Type S screws spaced 8" on center. - - 5d -
2. Combination of clay brick and load-bearing hollow clay tile 2-1.1 4" solid brick and 4" tile (at least 40 percent solid). - 8 - -
2-1.2 4" solid brick and 8" tile (at least 40 percent solid). 12 - - -
3. Concrete masonry units 3-1.1f, g Expanded slag or pumice. 4.7 4.0 3.2 2.1
3-1.2f, g Expanded clay, shale or slate. 5.1 4.4 3.6 2.6
3-1.3f Limestone, cinders or air-cooled slag. 5.9 5.0 4.0 2.7
3-1.4f, g Calcareous or siliceous gravel. 6.2 5.3 4.2 2.8
4. Solid concreteh, i 4-1.1 Siliceous aggregate concrete. 7.0 6.2 5.0 3.5
Carbonate aggregate concrete. 6.6 5.7 4.6 3.2
Sand-lightweight concrete. 5.4 4.6 3.8 2.7
Lightweight concrete. 5.1 4.4 3.6 2.5
5. Glazed or unglazed facing tile, nonload-bearing 5-1.1 One 2" unit cored 15 percent maximum and one 4" unit cored 25 percent maximum with 3/4" mortar-filled collar joint. Unit positions reversed in alternate courses. - 63/8 - -
5-1.2 One 2" unit cored 15 percent maximum and one 4" unit cored 40 percent maximum with 3/4" mortar-filled collar joint. Unit positions side with 3/4" gypsum plaster. Two wythes tied together every fourth course with No. 22 gage corrugated metal ties. - 6 3/4 - -
5-1.3 One unit with three cells in wall thickness, cored 29 percent maximum. - - 6 -
5-1.4 One 2" unit cored 22 percent maximum and one 4" unit cored 41 percent maximum with 1/4 " mortar-filled collar joint. Two wythes tied together every third course with 0.030" (No. 22 galvanized sheet steel gage) corrugated metal ties. - - 6 -
5-1.5 One 4" unit cored 25 percent maximum with 3/4" gypsum plaster on one side. - - 43/4 -
5-1.6 One 4" unit with two cells in wall thickness, cored 22 percent maximum. - - - 4
5-1.7 One 4" unit cored 30 percent maximum with 3/4" vermiculite gypsum plaster on one side. - - 41/2 -
5-1.8 One 4" unit cored 39 percent maximum with 3/4" gypsum plaster on one side. - - - 41/2
6. Solid gypsum plaster 6-1.1 3/4" by 0.055" (No. 16 carbon sheet steel gage) vertical cold-rolled channels, 16" on center with 2.6-pound flat metal lath applied to one face and tied with 0.049" (No. 18 B.W. Gage) wire at 6" spacing. Gypsum plaster each side mixed 1:2 by weight, gypsum to sand aggregate. - - - 2d
6-1.2 3/4" by 0.05" (No. 16 carbon sheet steel gage) cold-rolled channels 16" on center with metal lath applied to one face and tied with 0.049" (No. 18 B.W. gage) wire at 6" spacing. Perlite or vermiculite gypsum plaster each side. For three-coat work, the plaster mix for the second coat shall not exceed 100 pounds of gypsum to 21/2 cubic feet of aggregate for the 1-hour system. - - 21/2d 2d
6-1.3 3/4" by 0.055" (No. 16 carbon sheet steel gage) vertical cold-rolled channels, 16" on center with3/8" gypsum lath applied to one face and attached with sheet metal clips. Gypsum plaster each side mixed 1:2 by weight, gypsum to sand aggregate. - - - 2d
6-2.1 Studless with1/2" full-length plain gypsum lath and gypsum plaster each side. Plaster mixed 1:1 for scratch coat and 1:2 for brown coat, by weight, gypsum to sand aggregate. - - - 2d
6-2.2 Studless with1/2" full-length plain gypsum lath and perlite or vermiculite gypsum plaster each side. - - 21/2d 2d
6-2.3 Studless partition with3/8" rib metal lath installed vertically adjacent edges tied 6" on center with No. 18 gage wire ties, gypsum plaster each side mixed 1:2 by weight, gypsum to sand aggregate. - - - 2d
7. Solid perlite and Portland cement 7-1.1 Perlite mixed in the ratio of 3 cubic feet to 100 pounds of Portland cement and machine applied to stud side of 11/2" mesh by 0.058-inch (No. 17 B.W. gage) paper-backed woven wire fabric lath wire-tied to 4"-deep steel trussed wirej studs 16" on center. Wire ties of 0.049" (No. 18 B.W. gage) galvanized steel wire 6" on center vertically. - - 31/8d -
8. Solid neat wood fibered gypsum plaster 8-1.1 3/4 " by 0.055-inch (No. 16 carbon sheet steel gage) cold-rolled channels, 12" on center with 2.5-pound flat metal lath applied to one face and tied with 0.049" (No. 18 B.W. gage) wire at 6" spacing. Neat gypsum plaster applied each side. - - 2d -
9. Solid wallboard partition 9-1.1 One full-length layer 1/2 " Type X gypsum wallboarde laminated to each side of 1" full-length V-edge gypsum coreboard with approved laminating compound. Vertical joints of face layer and coreboard staggered at least 3". - 2d -
10. Hollow (studless) gypsum wallboard partition 10-1.1 One full-length layer of 5/8 " Type X gypsum wallboarde attached to both sides of wood or metal top and bottom runners laminated to each side of 1" × 6" full-length gypsum coreboard ribs spaced 2" on center with approved laminating compound. Ribs centered at vertical joints of face plies and joints staggered 24" in opposing faces. Ribs may be recessed 6" from the top and bottom. - - - 21/4d
10-1.2 1" regular gypsum V-edge full-length backing board attached to both sides of wood or metal top and bottom runners with nails or 15/8 " drywall screws at 24" on center. Minimum width of rumors 1 5/8". Face layer of 1/2" regular full-length gypsum wallboard laminated to outer faces of backing board with approved laminating compound. - - 45/8d -
11. Noncombustible studs-interior partition with plaster each side 11-1.1 31/4" × 0.044" (No. 18 carbon sheet steel gage) steel studs spaced 24" on center. 5/8" gypsum plaster on metal lath each side mixed 1:2 by weight, gypsum to sand aggregate. - - - 43/4d
11-1.2 33/8" × 0.055" (No. 16 carbon sheet steel gage) approved nailable k studs spaced 24" on center. 5/8" neat gypsum wood-fibered plaster each side over3/8" rib metal lath nailed to studs with 6d common nails, 8" on center. Nails driven 11/4" and bent over. - - 55/8 -
11-1.3 4" × 0.044" (No. 18 carbon sheet steel gage) channel-shaped steel studs at 16" on center. On each side approved resilient clips pressed onto stud flange at 16" vertical spacing, 1/4" pencil rods snapped into or wire tied onto outer loop of clips, metal lath wire-tied to pencil rods at 6" intervals, 1" perlite gypsum plaster, each side. - 75/8d - -
11-1.4 21/2" × 0.044" (No. 18 carbon sheet steel gage) steel studs spaced 16" on center. Wood fibered gypsum plaster mixed 1:1 by weight gypsum to sand aggregate applied on 3/4-pound metal lath wire tied to studs, each side. 3/4" plaster applied over each face, including finish coat. - - 41/4d -
12. Wood studs interior partition with plaster each side 12-1.1l, m 2" × 4" wood studs 16" on center with5/8" gypsum plaster on metal lath. Lath attached by 4d common nails bent over or No. 14 gage by 11/4" by 3/4" crown width staples spaced 6" on center. Plaster mixed 1:11/2 for scratch coat and 1:3 for brown coat, by weight, gypsum to sand aggregate. - - - 51/8
12-1.2l 2" × 4" wood studs 16" on center with metal lath and 7/8 " neat wood-fibered gypsum plaster each side. Lath attached by 6d common nails, 7" on center. Nails driven 11/4" and bent over. - - 51/2d -
12-1.3l 2" × 4" wood studs 16" on center with 3/8" perforated or plain gypsum lath and 1/2" gypsum plaster each side. Lath nailed with 11/8" by No. 13 gage by 19/64" head plasterboard blued nails, 4" on center. Plaster mixed 1:2 by weight, gypsum to sand aggregate. - - - 51/4
12-1.4l 2" × 4" wood studs 16" on center with 3/8" Type X gypsum lath and 1/2" gypsum plaster each side. Lath nailed with 11/8" by No. 13 gage by 19/64" head plasterboard blued nails, 5" on center. Plaster mixed 1:2 by weight, gypsum to sand aggregate. - - - 51/4
13. Noncombustible studs-interior partition with gypsum wallboard each side 13-1.1 0.018" (No. 25 carbon sheet steel gage) channel-shaped studs 24" on center with one full-length layer of 5/8" Type X gypsum wallboard e applied vertically attached with 1" long No. 6 drywall screws to each stud. Screws are 8" on center around the perimeter and 12" on center on the intermediate stud. The wallboard may be applied horizontally when attached to 35/8" studs and the horizontal joints are staggered with those on the opposite side. Screws for the horizontal application shall be 8" on center at vertical edges and 12" on center at intermediate studs. - - - 27/8d
13-1.2 0.018" (No. 25 carbon sheet steel gage) channel-shaped studs 25" on center with two full-length layers of 1/2" Type X gypsum wallboard e applied vertically each side. First layer attached with 1"-long, No. 6 drywall screws, 8" on center around the perimeter and 12" on center on the intermediate stud. Second layer applied with vertical joints offset one stud space from first layer using 15/8" long, No. 6 drywall screws spaced 9" on center along vertical joints, 12" on center at intermediate studs and 24" on center along top and bottom runners. - - 35/8d -
13-1.3 0.055" (No. 16 carbon sheet steel gage) approved nailable metal studse 24" on center with full-length 5/8" Type X gypsum wallboarde applied vertically and nailed 7" on center with 6d cement-coated common nails. Approved metal fastener grips used with nails at vertical butt joints along studs. - - - 47/8
14. Wood studs-interior partition with gypsum wallboard each side 14-1.1h, m 2" × 4" wood studs 16" on center with two layers of 3/8 " regular gypsum wallboarde each side, 4d cooler n or wallboard n nails at 8" on center first layer, 5d coolern or wallboard n nails at 8" on center second layer with laminating compound between layers, joints staggered. First layer applied full length vertically, second layer applied horizontally or vertically. - - - 5
14-1.2l, m 2" × 4" wood studs 16" on center with two layers 1/2 " regular gypsum wallboard e applied vertically or horizontally each sidek, joints staggered. Nail base layer with 5d cooler n or wallboardn nails at 8" on center face layer with 8d cooler n or wallboardn nails at 8" on center. - - - 51/2
14-1.3l, m 2" × 4" wood studs 24" on center with 5/8 " Type X gypsum wallboarde applied vertically or horizontally nailed with 6d cooler n or wallboardn nails at 7" on center with end joints on nailing members. Stagger joints each side. - - - 43/4
14-1.4 l 2" × 4" fire-retardant-treated wood studs spaced 24" on center with one layer of 5/8 " Type X gypsum wallboarde applied with face paper grain (long dimension) parallel to studs. allboard attached with 6d coolern or wallboardn nails at 7" on center. - - - 43/4d
14-1.5l, m 2" × 4" wood studs 16" on center with two layers5/8" Type X gypsum wallboarde each side. Base layers applied vertically and nailed with 6d coolern or wallboardn nails at 9" on center. Face layer applied vertically or horizontally and nailed with 8d coolern or wallboard n nails at 7" on center. For nail-adhesive application, base layers are nailed 6" on center. Face layers applied with coating of approved wallboard adhesive and nailed 12" on center. - - 6 -
14-1.6l 2" × 3" fire-retardant-treated wood studs spaced 24" on center with one layer of 5/8 " Type X gypsum wallboarde applied with face paper grain (long dimension) at right angles to studs. Wallboard attached with 6d cement-coated box nails spaced 7" on center. - - - 35/8d
15. Exterior or interior walls (continued) 15-1.1l, m Exterior surface with 3/4" drop siding over 1/2" gypsum sheathing on 2" × 4" wood studs at 16" on center, interior surface treatment as required for 1-hour-rated exterior or interior 2" × 4" wood stud partitions. Gypsum sheathing nailed with 13/4" by No. 11 gage by 7/16" head galvanized nails at 8" on center. Siding nailed with 7d galvanized smooth box nails. - - - Varies
15-1.2l, m 2" × 4" wood studs 16" on center with metal lath and 3/4 " cement plaster on each side. Lath attached with 6d common nails 7" on center driven to 1" minimum penetration and bent over. Plaster mix 1:4 for scratch coat and 1:5 for brown coat, by volume, cement to sand. - - - 53/8
15-1.3l, m 2" × 4" wood studs 16" on center with 7/8" cement plaster (measured from the face of studs) on the exterior surface with interior surface treatment as required for interior wood stud partitions in this table. Plaster mix 1:4 for scratch coat and 1:5 for brown coat, by volume, cement to sand. - - - Varies
15-1.4 35/8 " No. 16 gage noncombustible studs 16" on center with 7/8 " cement plaster (measured from the face of the studs) on the exterior surface with interior surface treatment as required for interior, nonbearing, noncombustible stud partitions in this table. Plaster mix 1:4 for scratch coat and 1:5 for brown coat, by volume, cement to sand. - - - Variesd
15. Exterior or interior walls (continued) 15-1.5m 21/4" × 33/4" clay face brick with cored holes over 1/2" gypsum sheathing on exterior surface of 2" × 4" wood studs at 16" on center and two layers 5/8" Type X gypsum wallboard eon interior surface. Sheathing placed horizontally or vertically with vertical joints over studs nailed 6" on center with 13/4" × No. 11 gage by 7/16" head galvanized nails. Inner layer of wallboard placed horizontally or vertically and nailed 8" on center with 6d coolern or wallboardn nails. Outer layer of wallboard placed horizontally or vertically and nailed 8" on center with 8d coolern or wallboardn nails. All joints staggered with vertical joints over studs. Outer layer joints taped and finished with compound. Nail heads covered with joint compound. 0.035 inch (No. 20 galvanized sheet gage) corrugated galvanized steel wall ties3/4" by 65/8" attached to each stud with two 8d cooler n or wallboard n nails every sixth course of bricks. - - 10 -
15-1.6l, m 2" × 6" fire-retardant-treated wood studs 16" on center. Interior face has two layers of 5/8" Type X gypsum with the base layer placed vertically and attached with 6d box nails 12" on center. The face layer is placed horizontally and attached with 8d box nails 8" on center at joints and 12" on center elsewhere. The exterior face has a base layer of 5/8" Type X gypsum sheathing placed vertically with 6d box nails 8" on center at joints and 12" on center elsewhere. An approved building paper is next applied, followed by self-furred exterior lath attached with 21/2", No. 12 gage galvanized roofing nails with a 3/8" diameter head and spaced 6" on center along each stud. Cement plaster consisting of a 1/2" brown coat is then applied. The scratch coat is mixed in the proportion of 1:3 by weight, cement to sand with 10 pounds of hydrated lime and 3 pounds of approved additives or admixtures per sack of cement. The brown coat is mixed in the proportion of 1:4 by weight, cement to sand with the same amounts of hydrated lime and approved additives or admixtures used in the scratch coat. - - 81/4 -
15-1.7l, m 2" × 6" wood studs 16" on center. The exterior face has a layer of 5 /8" Type X gypsum sheathing placed vertically with 6d box nails 8" on center at joints and 12" on center elsewhere. An approved building paper is next applied, followed by 1" by No. 18 gage self-furred exterior lath attached with 8d by 21/2" long galvanized roofing nails spaced 6" on center along each stud. Cement plaster consisting of a 1/2" scratch coat, a bonding agent and a 1/2" brown coat and a finish coat is then applied. The scratch coat is mixed in the proportion of 1:3 by weight, cement to sand with 10 pounds of hydrated lime and 3 pounds of approved additives or admixtures per sack of cement. The brown coat is mixed in the proportion of 1:4 by weight, cement to sand with the same amounts of hydrated lime and approved additives or admixtures used in the scratch coat. The interior is covered with 3/8" gypsum lath with 1" hexagonal mesh of 0.035 inch (No. 20 B.W. gage) woven wire lath furred out 5/16" and 1" perlite or vermiculite gypsum plaster. Lath nailed with 11/8" by No. 13 gage by 19/64" head plasterboard glued nails spaced 5" on center. Mesh attached by 13/4" by No. 12 gage by 3/8" head nails with 3/8" furrings, spaced 8" on center. The plaster mix shall not exceed 100 pounds of gypsum to 21/2 cubic feet of aggregate. - - 83/8 -
15. Exterior or interior walls (continued) 15-1.8l, m 2" × 6" wood studs 16" on center. The exterior face has a layer of 5/8" Type X gypsum sheathing placed vertically with 6d box nails 8" on center at joints and 12" on center elsewhere. An approved building paper is next applied, followed by 11/2" by No. 17 gage self-furred exterior lath attached with 8d by 21/2" long galvanized roofing nails spaced 6" on center along each stud. Cement plaster consisting of a 1/2 " scratch coat, and a 1/2" brown coat is then applied. The plaster may be placed by machine. The scratch coat is mixed in the proportion of 1:4 by weight, plastic cement to sand. The brown coat is mixed in the proportion of 1:5 by weight, plastic cement to sand. The interior is covered with 3/8" gypsum lath with 1" hexagonal mesh of No. 20 gage woven wire lath furred out 5/16" and 1" perlite or vermiculite gypsum plaster. Lath nailed with 11/8" by No. 13 gage by 19/64" head plasterboard glued nails spaced 5" on center. Mesh attached by 13/4 " by No. 12 gage by 3/8" head nails with 3/8" furrings, spaced 8" on center. The plaster mix shall not exceed 100 pounds of gypsum to 21/2 cubic feet of aggregate. - - 83/8 -
15-1.9 4" No. 18 gage, nonload-bearing metal studs, 16" on center, with 1" Portland cement lime plaster [measured from the back side of the 3/4 -pound expanded metal lath] on the exterior surface. Interior surface to be covered with 1" of gypsum plaster on 3/4 -pound expanded metal lath proportioned by weight-1:2 for scratch coat, 1:3 for brown, gypsum to sand. Lath on one side of the partition fastened to 1/4" diameter pencil rods supported by No. 20 gage metal clips, located 16" on center vertically, on each stud. 3" thick mineral fiber insulating batts friction fitted between the studs. - - 61/2d -
15-1.10 Steel studs 0.060" thick, 4" deep or 6" at 16" or 24" centers, with 1/2" Glass Fiber Reinforced Concrete (GFRC) on the exterior surface. GFRC is attached with flex anchors at 24" on center, with 5" leg welded to studs with two 1/2 "-long flare-bevel welds, and 4" foot attached to the GFRC skin with 5/8" thick GFRC bonding pads that extend 21/2" beyond the flex anchor foot on both sides. Interior surface to have two layers of 1/2" Type X gypsum wallboard. e The first layer of wallboard to be attached with 1"-long Type S buglehead screws spaced 24" on center and the second layer is attached with 15/8 "-long Type S screws spaced at 12" on center. Cavity is to be filled with 5" of 4 pcf (nominal) mineral fiber batts. GFRC has 11/2 " returns packed with mineral fiber and caulked on the exterior. - - 61/2 -
15-1.11 Steel studs 0.060" thick, 4" deep or 6" at 16" or 24" centers, respectively, with 1/2" Glass Fiber Reinforced Concrete (GFRC) on the exterior surface. GFRC is attached with flex anchors at 24" on center, with 5" leg welded to studs with two 1/2"-long flare-bevel welds, and 4" foot attached to the GFRC skin with 5/8" -thick GFRC bonding pads that extend 21/2" beyond the flex anchor foot on both sides. Interior surface to have one layer of 5/8" Type X gypsum wallboarde , attached with 11/4"-long Type S buglehead screws spaced 12" on center. Cavity is to be filled with 5" of 4 pcf (nominal) mineral fiber batts. GFRC has 11/2" returns packed with mineral fiber and caulked on the exterior. - - - 61/8
15-1.12q 2" × 6" wood studs at 16" with double top plates, single bottom plate; interior and exterior sides covered with 5/8 " Type X gypsum wallboard, 4' wide, applied horizontally or vertically with vertical joints over studs, and fastened with 21/4" Type S drywall screws, spaced 12" on center. Cavity to be filled with 51/2" mineral wool insulation. - - - 63/4
15. Exterior or interior walls (continued) 15-1.13q 2" × 6" wood studs at 16" with double top plates, single bottom plate; interior and exterior sides covered with 5/8" Type X gypsum wallboard, 4' wide, applied vertically with all joints over framing or blocking and fastened with 21/4" Type S drywall screws, spaced 12" on center. R-19 mineral fiber insulation installed in stud cavity. - - - 63/4
15-1.14q 2" × 6" wood studs at 16" with double top plates, single bottom plate; interior and exterior sides covered with 5/8" Type X gypsum wallboard, 4' wide, applied horizontally or vertically with vertical joints over studs, and fastened with 21/4" Type S drywall screws, spaced 7" on center. - - - 63/4
15-1.15q 2" × 4" wood studs at 16" with double top plates, single bottom plate; interior and exterior sides covered with 5/8" Type X gypsum wallboard and sheathing, respectively, 4' wide, applied horizontally or vertically with vertical joints over studs, and fastened with 21/4" Type S drywall screws, spaced 12" on center. Cavity to be filled with 31/2" mineral wool insulation. - - - 43/4
15-1.16q 2" x 6" wood studs at 24" centers with double top plates, single bottom plate; interior and exterior side covered with two layers of 5 /8" Type X gypsum wallboard, 4' wide, applied horizontally with vertical joints over studs. Base layer fastened with 21/4" Type S drywall screws, spaced 24" on center and face layer fastened with Type S drywall screws, spaced 8" on center, wallboard joints covered with paper tape and joint compound, fastener heads covered with joint compound. Cavity to be filled with 51/2" mineral wool insulation. - - 8 -
15-2.1d 35/8" No. 16 gage steel studs at 24" on center or 2" × 4" wood studs at 24" on center. Metal lath attached to the exterior side of studs with minimum 1" long No. 6 drywall screws at 6" on center and covered with minimum 3/4" thick Portland cement plaster. Thin veneer brick units of clay or shale complying with ASTM C 1088, Grade TBS or better, installed in running bond in accordance with Section 1405.10 . Combined total thickness of the Portland cement plaster, mortar and thin veneer brick units shall be not less than 13/4". Interior side covered with one layer of 5/8" thick Type X gypsum wallboard attached to studs with 1" long No. 6 drywall screws at 12" on center. - - - 6
15-2.2d 35/8" No. 16 gage steel studs at 24" on center or 2" × 4" wood studs at 24" on center. Metal lath attached to the exterior side of studs with minimum 1" long No. 6 drywall screws at 6" on center and covered with minimum 3/4" thick Portland cement plaster. Thin veneer brick units of clay or shale complying with ASTM C 1088, Grade TBS or better, installed in running bond in accordance with Section 1405.10 . Combined total thickness of the Portland cement plaster, mortar and thin veneer brick units shall be not less than 2". Interior side covered with two layers of 5/8" thick Type X gypsum wallboard. Bottom layer attached to studs with 1" long No. 6 drywall screws at 24" on center. Top layer attached to studs with 15/8" long No. 6 drywall screws at 12" on center. - - 67/8 -
15-2.3d 35/8 " No. 16 gage steel studs at 16" on center or 2"× 4" wood studs at 16" on center. Where metal lath is used, attach to the exterior side of studs with minimum 1" long No. 6 drywall screws at 6" on center. Brick units of clay or shale not less than 25/8" thick complying with ASTM C 216 installed in accordance with Section 1405.6 with a minimum 1" air space. Interior side covered with one layer of 5/8" thick Type X gypsum wallboard attached to studs with 1" long No. 6 drywall screws at 12" on center. - - - 77/8
15. Exterior or interior walls 15-2.4d 35/8" No. 16 gage steel studs at 16" on center or 2" × 4" wood studs at 16" on center. Where metal lath is used, attach to the exterior side of studs with minimum 1" long No. 6 drywall screws at 6" on center. Brick units of clay or shale not less than 25 /8" thick complying with ASTM C 216 installed in accordance with Section 1405.6 with a minimum 1" air space. Interior side covered with two layers of 5/8 " thick Type X gypsum wallboard. Bottom layer attached to studs with 1" long No. 6 drywall screws at 24" on center. Top layer attached to studs with 15/8" long No. 6 drywall screws at 12" on center. - - 8 1/2 -
16. Exterior walls rated for fire resistance from the inside only in accordance with Section 705.5 . 16-1.1q 2" × 4" wood studs at 16" centers with double top plates, single bottom plate; interior side covered with 5/8" Type X gypsum wallboard, 4" wide, applied horizontally unblocked, and fastened with 21/4" Type S drywall screws, spaced 12" on center, wallboard joints covered with paper tape and joint compound, fastener heads covered with joint compound. Exterior covered with 3/8" wood structural panels, applied vertically, horizontal joints blocked and fastened with 6d common nails (bright) - 12" on center in the field, and 6" on center panel edges. Cavity to be filled with 3" mineral wool insulation. Rating established for exposure from interior side only. - - - 41/2
16-1.2q 2" × 6" wood studs at 16" centers with double top plates, single bottom plate; interior side covered with 5/8" Type X gypsum wallboard, 4" wide, applied horizontally or vertically with vertical joints over studs and fastened with 21/4" Type S drywall screws, spaced 12" on center, wallboard joints covered with paper tape and joint compound, fastener heads covered with joint compound, exterior side covered with 7/16" wood structural panels fastened with 6d common nails (bright) spaced 12" on center in the field and 6" on center along the panel edges. Cavity to be filled with 51/2" mineral wool insulation. Rating established from the gypsum-covered side only. - - - 69/16
16-1.3q 2" × 6" wood studs at 16" centers with double top plates, single bottom plates; interior side covered with 5/8" Type X gypsum wallboard, 4" wide, applied vertically with all joints over framing or blocking and fastened with 21/4" Type S drywall screws spaced 7" on center. Joints to be covered with tape and joint compound. Exterior covered with 3/8" wood structural panels, applied vertically with edges over framing or blocking and fastened with 6d common nails (bright) at 12" on center in the field and 6" on center on panel edges. R-19 mineral fiber insulation installed in stud cavity. Rating established from the gypsum-covered side only. - - - 61/2

For SI: 1 inch = 25.4 mm, 1 square inch = 645.2 mm2, 1 cubic foot = 0.0283 m3 foot = 304.8 mm.
a. Staples with equivalent holding power and penetration shall be permitted to be used as alternate fasteners to nails for attachment to wood framing.
b. Thickness shown for brick and clay tile is nominal thicknesses unless plastered, in which case thicknesses are net. Thickness shown for concrete masonry and clay masonry is equivalent thickness defined in Section 721. 2.3.1 for concrete masonry and Section 722.4.1.1 for clay masonry. Where all cells are solid grouted or filled with silicone-treated perlite loose-fill insulation; vermiculite loose-fill insulation; or expanded clay, shale or slate lightweight aggregate, the equivalent thickness shall be the thickness of the block or brick using specified dimensions as defined in Chapter 21 . Equivalent thickness may also include the thickness of applied plaster and lath or gypsum wallboard, where specified.
c. For units in which the net cross-sectional area of cored brick in any plane parallel to the surface containing the cores is at least 75 percent of the gross cross-sectional area measured in the same plane.
d. Shall be used for nonbearing purposes only.
e. For all of the construction with gypsum wallboard described in this table, gypsum base for veneer plaster of the same size, thickness and core type shall be permitted to be substituted for gypsum wallboard, provided attachment is identical to that specified for the wallboard, and the joints on the face layer are reinforced and the entire surface is covered with a minimum of 1/16-inch gypsum veneer plaster.
f. The fire-resistance time period for concrete masonry units meeting the equivalent thicknesses required for a 2-hour fire-resistance rating in Item 3, and having a thickness of not less than 75/8 inches is 4 hours when cores which are not grouted are filled with silicone-treated perlite loose-fill insulation; vermiculite loose-fill insulation; or expanded clay, shale or slate lightweight aggregate, sand or slag having a maximum particle size of 3/8inch.
g. The fire-resistance rating of concrete masonry units composed of a combination of aggregate types or where plaster is applied directly to the concrete masonry shall be determined in accordance with ACI 216.1/TMS 0216. Lightweight aggregates shall have a maximum combined density of 65 pounds per cubic foot.
h. See also Note b. The equivalent thickness shall be permitted to include the thickness of cement plaster or 1.5 times the thickness of gypsum plaster applied in accordance with the requirements of Chapter 25.
i. Concrete walls shall be reinforced with horizontal and vertical temperature reinforcement as required by Chapter 19.
j. Studs are welded truss wire studs with 0.18 inch (No. 7 B.W. gage) flange wire and 0.18 inch (No. 7 B.W. gage) truss wires.
k. Nailable metal studs consist of two channel studs spot welded back to back with a crimped web forming a nailing groove.
l. Wood structural panels shall be permitted to be installed between the fire protection and the wood studs on either the interior or exterior side of the wood frame assemblies in this table, provided the length of the fasteners used to attach the fire protection is increased by an amount at least equal to the thickness of the wood structural panel.
m. The design stress of studs shall be reduced to 78 percent of allowable F'c with the maximum not greater than 78 percent of the calculated stress with studs having a slenderness ratio le/d of 33.
n. For properties of cooler or wallboard nails, see ASTM C 514, ASTM C 547 or ASTM F 1667.
o. Generic fire-resistance ratings (those not designated as PROPRIETARY* in the listing) in the GA 600 shall be accepted as if herein listed.
p. NCMA TEK 5-8A shall be permitted for the design of fire walls.
q. The design stress of studs shall be equal to a maximum of 100 percent of the allowable F'c calculated in accordance with Section 2306 .

TABLE 720.1(3) MINIMUM PROTECTION FOR FLOOR AND ROOF SYSTEMSa, q

FLOOR OR ROOF CONSTRUCTION ITEM NUMBER CEILING CONSTRUCTION THICKNESS OF FLOOR OR ROOF SLAB (inches) MINIMUM THICKNESS OF CEILING (inches)
4 hours 3 hours 2 hours 1 hour 4 hours 3 hours 2 hours 1 hour
1. Siliceous aggregate concrete 1-1.1 Slab (no ceiling required). Minimum cover over nonprestressed reinforcement shall not be less than 3/4" b. 7.0 6.2 5.0 3.5 - - - -
2. Carbonate aggregate concrete 2-1.1 6.6 5.7 4.6 3.2 - - - -
3. Sand-lightweight concrete 3-1.1 5.4 4.6 3.8 2.7 - - - -
4. Lightweight concrete 4-1.1 5.1 4.4 3.6 2.5 - - - -
5. Reinforced concrete 5-1.1 Slab with suspended ceiling of vermiculite gypsum plaster over metal lath attached to 3/4" cold-rolled channels spaced 12" on center. Ceiling located 6" minimum below joists. 3 2 - - 1 3/4 - -
5-2.1 3/8 " Type X gypsum wallboard c attached to 0.018 inch (No. 25 carbon sheet steel gage) by 7/8 " deep by 25/8 " hat-shaped galvanized steel channels with 1"-long No. 6 screws. The channels are spaced 24" on center, span 35" and are supported along their length at 35" intervals by 0.033" (No. 21 galvanized sheet gage) galvanized steel flat strap hangers having formed edges that engage the lips of the channel. The strap hangers are attached to the side of the concrete joists with 5/32" by 11/4 " long power-driven fasteners. The wallboard is installed with the long dimension perpendicular to the channels. All end joints occur on channels and supplementary channels are installed parallel to the main channels, 12" each side, at end joint occurrences. The finished ceiling is located approximately 12" below the soffit of the floor slab. - - 21/2 - - - 5/8 -
6. Steel joists constructed with a poured reinforced concrete slab on metal lath forms or steel form units d, e 6-1.1 Gypsum plaster on metal lath attached to the bottom cord with single No. 16 gage or doubled No. 18 gage wire ties spaced 6" on center. Plaster mixed 1:2 for scratch coat, 1:3 for brown coat, by weight, gypsum-to-sand aggregate for 2-hour system. For 3-hour system plaster is neat. - - 21/2 21/4 - - 3/4 5/8
6-2.1 Vermiculite gypsum plaster on metal lath attached to the bottom chord with single No.16 gage or doubled 0.049-inch (No. 18 B.W. gage) wire ties 6" on center. - 2 - - - 5/8 - -
6-3.1 Cement plaster over metal lath attached to the bottom chord of joists with single No. 16 gage or doubled 0.049" (No. 18 B.W. gage) wire ties spaced 6" on center. Plaster mixed 1:2 for scratch coat, 1:3 for brown coat for 1-hour system and 1:1 for scratch coat, 1:1 1/2 for brown coat for 2-hour system, by weight, cement to sand. - - - 2 - - - 5/8f
6-4.1 Ceiling of 5/8" Type X wallboard cattached to 7/8 " deep by 25/8" by 0.021 inch (No. 25 carbon sheet steel gage) hat-shaped furring channels 12" on center with 1" long No. 6 wallboard screws at 8" on center. Channels wire tied to bottom chord of joists with doubled 0.049 inch (No. 18 B.W. gage) wire or suspended below joists on wire hangers. g - - 21/2 - - - 5/8 -
6-5.1 Wood-fibered gypsum plaster mixed 1:1 by weight gypsum to sand aggregate applied over metal lath. Lath tied 6" on center to 3/4 " channels spaced 13 1/2" on center. Channels secured to joists at each intersection with two strands of 0.049 inch (No.18 B.W. gage) galvanized wire. - - 21/2 - - - 3/4 -
7. Reinforced concrete slabs and joists with hollow clay tile fillers laid end to end in rows 21/2" or more apart; reinforcement placed between rows and concrete cast around and over tile. 7-1.1 5/8 " gypsum plaster on bottom of floor or roof construction. - - 8h - - - 5/8 -
7-1.2 None - - - 51/2i - - - -
8. Steel joists constructed with a reinforced concrete slab on top poured on a 1/2" deep steel deck.e 8-1.1 Vermiculite gypsum plaster on metal lath attached to 3/4" cold-rolled channels with 0.049" (No. 18 B.W. gage) wire ties spaced 6" on center. 21/2j - - - 3/4 - - -
9. 3" deep cellular steel deck with concrete slab on top. Slab thickness measured to top. 9-1.1 Suspended ceiling of vermiculite gypsum plaster base coat and vermiculite acoustical plaster on metal lath attached at 6" intervals to 3/4" cold-rolled channels spaced 12" on center and secured to 11/2" cold-rolled channels spaced 36" on center with 0.065" (No. 16 B.W. gage) wire. 11/2" channels supported by No. 8 gage wire hangers at 36" on center. Beams within envelope and with a 21/2" airspace between beam soffit and lath have a 4-hour rating. 21/2 - - - 11/8k - - -
10. 11/2"-deep steel roof deck on steel framing. Insulation board, 30 pcf density, composed of wood fibers with cement binders of thickness shown bonded to deck with unified asphalt adhesive. Covered with a Class A or B roof covering. 10-1.1 Ceiling of gypsum plaster on metal lath. Lath attached to 3/4" furring channels with 0.049" (No. 18 B.W. gage) wire ties spaced 6" on center. 3/4" channel saddle tied to 2" channels with doubled 0.065" (No. 16 B.W. gage) wire ties. 2" channels spaced 36" on center suspended 2" below steel framing and saddle-tied with 0.165" (No. 8 B.W. gage) wire. Plaster mixed 1:2 by weight, gypsum-to-sand aggregate. - - 17/8 1 - - 3/4l 3/4l
11. 11/2"-deep steel roof deck on steel-framing wood fiber insulation board, 17.5 pcf density on top applied over a 15-lb asphalt-saturated felt. Class A or B roof covering. 11-1.1 Ceiling of gypsum plaster on metal lath. Lath attached to 3/4" furring channels with 0.049" (No. 18 B.W. gage) wire ties spaced 6" on center. 3/4" channels saddle tied to 2" channels with doubled 0.065" (No. 16 B.W. gage) wire ties. 2" channels spaced 36" on center suspended 2" below steel framing and saddle tied with 0.165" (No. 8 B.W. gage) wire. Plaster mixed 1:2 for scratch coat and 1:3 for brown coat, by weight, gypsum-to-sand aggregate for 1-hour system. For 2-hour system, plaster mix is 1:2 by weight, gypsum-to-sand aggregate. - - 11/2 1 - - 7/8g 3/4l
12. 11/2" deep steel roof deck on steel-framing insulation of rigid board consisting of expanded perlite and fibers impregnated with integral asphalt waterproofing; density 9 to 12 pcf secured to metal roof deck by 1/2" wide ribbons of waterproof, cold-process liquid adhesive spaced 6" apart. Steel joist or light steel construction with metal roof deck, insulation, and Class A or B built-up roof covering.e 12-1.1 Gypsum-vermiculite plaster on metal lath wire tied at 6" intervals to 3/4" furring channels spaced 12" on center and wire tied to 2" runner channels spaced 32" on center. Runners wire tied to bottom chord of steel joists. - - 1 - - - 7/8 -
13. Double wood floor over wood joists spaced 16" on center.m,n 13-1.1 Gypsum plaster over 3/8" Type X gypsum lath. Lath initially applied with not less than four 11/8" by No. 13 gage by 19/64" head plasterboard blued nails per bearing. Continuous stripping over lath along all joist lines. Stripping consists of 3" wide strips of metal lath attached by 1 1/2" by No. 11 gage by 1/2" head roofing nails spaced 6" on center. Alternate stripping consists of 3" wide 0.049" diameter wire stripping weighing 1 pound per square yard and attached by No.16 gage by 1 1/2" by 3/4" crown width staples, spaced 4" on center. Where alternate stripping is used, the lath nailing may consist of two nails at each end and one nail at each intermediate bearing. Plaster mixed 1:2 by weight, gypsum-to-sand aggregate. - - - - - - - 7/8
13-1.2 Cement or gypsum plaster on metal lath. Lath fastened with 1 1/2" by No. 11 gage by 7/16" head barbed shank roofing nails spaced 5" on center. Plaster mixed 1:2 for scratch coat and 1:3 for brown coat, by weight, cement to sand aggregate. - - - - - - - 5/8
13-1.3 Perlite or vermiculite gypsum plaster on metal lath secured to joists with 1 1/2" by No. 11 gage by 7/16" head barbed shank roofing nails spaced 5" on center. - - - - - - - 5/8
13-1.4 1/2" Type X gypsum wallboardc nailed to joists with 5d coolero or wallboardo nails at 6" on center. End joints of wallboard centered on joists. - - - - - - - 1/2
14. Plywood stressed skin panels consisting of 5/8" -thick interior C-D (exterior glue) top stressed skin on 2" × 6" nominal (minimum) stringers. Adjacent panel edges joined with 8d common wire nails spaced 6" on center. Stringers spaced 12" maximum on center. 14-1.1 1/2" -thick wood fiberboard weighing 15 to 18 pounds per cubic foot installed with long dimension parallel to stringers or 3/8" C-D (exterior glue) plywood glued and/or nailed to stringers. Nailing to be with 5d coolero or wallboardo nails at 12" on center. Second layer of 1/2" Type X gypsum wallboardc applied with long dimension perpendicular to joists and attached with 8d coolero or wallboardo nails at 6" on center at end joints and 8" on center elsewhere. Wallboard joints staggered with respect to fiberboard joints. - - - - - - - 1
15. Vermiculite concrete slab proportioned 1:4 (Portland cement to vermiculite aggregate) on a 1 1/2" -deep steel deck supported on individually protected steel framing. Maximum span of deck 6' - 10" where deck is less than 0.019 inch (No. 26 carbon steel sheet gage) or greater. Slab reinforced with 4" × 8" 0.109/0.083" (No. 12 /14B.W. gage) welded wire mesh. 15-1.1 None - - - 3j - - - -
16. Perlite concrete slab proportioned 1:6 (Portland cement to perlite aggregate) on a 11/4" -deep steel deck supported on individually protected steel framing. Slab reinforced with 4" × 8" 0.109/0.083" (No. 12/14 B.W. gage) welded wire mesh. 16-1.1 None - - - 31/2j - - - -
17. Perlite concrete slab proportioned 1:6 (Portland cement to perlite aggregate) on a 9/16" -deep steel deck supported by steel joists 4' on center. Class A or B roof covering on top. 17-1.1 Perlite gypsum plaster on metal lath wire tied to 3/4" furring channels attached with 0.065" (No. 16 B.W. gage) wire ties to lower chord of joists. - 2p 2p - - 7/8 3/4 -
18. Perlite concrete slab proportioned 1:6 (Portland cement to perlite aggregate) on 11/4" -deep steel deck supported on individually protected steel framing. Maximum span of deck 6' -10" where deck is less than 0.019" (No. 26 carbon sheet steel gage) and 8' -0" where deck is 0.019" (No. 26 carbon sheet steel gage) or greater. Slab reinforced with 0.042" (No. 19 B.W. gage) hexagonal wire mesh. Class A or B roof covering on top. 18-1.1 None - 21/4p 21/4p - - - - -
19. Floor and beam construction consisting of 3" -deep cellular steel floor unit mounted on steel members with 1:4 (proportion of Portland cement to perlite aggregate) perlite-concrete floor slab on top. 19-1.1 Suspended envelope ceiling of perlite gypsum plaster on metal lath attached to 3/4" cold-rolled channels, secured to 11/2" cold-rolled channels spaced 42" on center supported by 0.203 inch (No. 6 B.W. gage) wire 36" on center. Beams in envelope with 3" minimum airspace between beam soffit and lath have a 4-hour rating. 2p - - - 1l - - -
20. Perlite concrete proportioned 1:6 (Portland cement to perlite aggregate) poured to 1/8" thickness above top of corrugations of 15/16" -deep galvanized steel deck maximum span 8'-0" for 0.024" (No. 24 galvanized sheet gage) or 6' 0" for 0.019" (No. 26 galvanized sheet gage) with deck supported by individually protected steel framing. Approved polystyrene foam plastic insulation board having a flame spread not exceeding 75 (1" to 4" thickness) with vent holes that approximate 3 percent of the board surface area placed on top of perlite slurry. A 2' by 4' insulation board contains six 2 3/4" diameter holes. Board covered with 21/4" minimum perlite concrete slab. Slab reinforced with mesh consisting of 0.042" (No. 19 B.W. gage) galvanized steel wire twisted together to form 2" hexagons with straight 0.065" (No. 16 B.W. gage) galvanized steel wire woven into mesh and spaced 3". Alternate slab reinforcement shall be permitted to consist of 4" × 8", 0.109/0.238" (No. 12/4 B.W. gage), or 2" × 2", 0.083/0.083" (No. 14/14 B.W. gage) welded wire fabric. Class A or B roof covering on top. 20-1.1 None - - Varies - - - - -
21. Wood joists, wood I-joists, floor trusses and flat or pitched roof trusses spaced a maximum 24" o.c. with 1/2" wood structural panels with exterior glue applied at right angles to top of joist or top chord of trusses with 8d nails. The wood structural panel thickness shall not be less than nominal 1/2" nor less than required by Chapter 23 . 21-1.1 Base layer 5/8" Type X gypsum wallboard applied at right angles to joist or truss 24" o.c. with 11/4" Type S or Type W drywall screws 24" o.c. Face layer 5/8" Type X gypsum wallboard or veneer base applied at right angles to joist or truss through base layer with 17/8" Type S or Type W drywall screws 12" o.c. at joints and intermediate joist or truss. Face layer Type G drywall screws placed 2" back on either side of face layer end joints, 12" o.c. - - - Varies - - - 11/4
22. Steel joists, floor trusses and flat or pitched roof trusses spaced a maximum 24" o.c. with 1/2" wood structural panels with exterior glue applied at right angles to top of joist or top chord of trusses with No. 8 screws. The wood structural panel thickness shall not be less than nominal 1/2" nor less than required by Chapter 23. 22-1.1 Base layer 5/8" Type X gypsum board applied at right angles to steel framing 24" on center with 1" Type S drywall screws spaced 24" on center. Face layer 5/8" Type X gypsum board applied at right angles to steel framing attached through base layer with 15/8" Type S drywall screws 12" on center at end joints and intermediate joints and 11/2" Type G drywall screws 12 inches on center placed 2" back on either side of face layer end joints. Joints of the face layer are offset 24" from the joints of the base layer. - - - Varies - - - 11/4
23. Wood I-joist (minimum joist depth 91/4" with a minimum flange depth of 15/16" and a minimum flange cross-sectional area of 2.3 square inches) at 24" o.c. spacing with 1 inch by 4 inch (nominal) wood furring strip spacer applied parallel to and covering the bottom of the bottom flange of each member, tacked in place. 2" mineral wool insulation, 3.5 pcf (nominal) installed adjacent to the bottom flange of the I-joist and supported by the 1" × 4" furring strip spacer. 23-1.1 1/2" deep single leg resilient channel 16" on center (channels doubled at wallboard end joints), placed perpendicular to the furring strip and joist and attached to each joist by 17/8" Type S drywall screws. 5/8" Type C gypsum wallboard applied perpendicular to the channel with end joints staggered at least 4' and fastened with 11/8" Type S drywall screws spaced 7" on center. Wallboard joints to be taped and covered with joint compound. - - - Varies - - - 5/8
24. Wood I-joist (minimum I-joist depth 91/4" with a minimum flange depth of 11/2" and a minimum flange cross-sectional area of 5.25 square inches; minimum web thickness of 3/8") @ 24" o.c., 11/2 " mineral wool insulation (2.5 pcf-nominal) resting on hat-shaped furring channels. 24-1.1 Minimum 0.026" thick hat-shaped channel 16" o.c. (channels doubled at wallboard end joints), placed perpendicular to the joist and attached to each joist by 15/8" Type S drywall screws. 5/8" Type C gypsum wallboard applied perpendicular to the channel with end joints staggered and fastened with 11/8" Type S drywall screws spaced 12" o.c. in the field and 8" o.c. at the wallboard ends. Wallboard joints to be taped and covered with joint compound. - - - Varies - - - 5/8
25. Wood I-joist (minimum I-joist depth 91/4" with a minimum flange depth of 11/2" and a minimum flange cross-sectional area of 5.25 square inches; minimum web thickness of 7/16") @ 24" o.c., 1 1 /2" mineral wool insulation (2.5 pcf-nominal) resting on resilient channels. 25-1.1 Minimum 0.019" thick resilient channel 16" o.c. (channels doubled at wallboard end joints), placed perpendicular to the joist and attached to each joist by 15/8" Type S drywall screws. 5/8" Type C gypsum wallboard applied perpendicular to the channel with end joints staggered and fastened with 1" Type S drywall screws spaced 12" o.c. in the field and 8" o.c. at the wallboard ends. Wallboard joints to be taped and covered with joint compound. - - - Varies - - - 5/8
26. Wood I-joist (minimum I-joist depth 91/4" with a minimum flange thickness of 11/2" and a minimum flange cross-sectional area of 2.25 square inches; minimum web thickness of 3/8") @ 24" o.c. 26-1.1 Two layers of 1/2" Type X gypsum wallboard applied with the long dimension perpendicular to the I-joists with end joints staggered. The base layer is fastened with 15/8" Type S drywall screws spaced 12" o.c. and the face layer is fastened with 2" Type S drywall screws spaced 12" o.c. in the field and 8" o.c. on the edges. Face layer end joints shall not occur on the same I-joist as base layer end joints and edge joints shall be offset 24" from base layer joints. Face layer to also be attached to base layer with 11/2" Type G drywall screws spaced 8" o.c. placed 6" from face layer end joints. Face layer wallboard joints to be taped and covered with joint compound. - - - Varies - - - 1
27. Wood I-joist (minimum I-joist depth 91/2" with a minimum flange depth of 15/16" and a minimum flange cross-sectional area of 1.95 square inches; minimum web thickness of 3/8") @ 24" o.c. 27-1.1 Minimum 0.019" thick resilient channel 16" o.c. (channels doubled at wallboard end joints), placed perpendicular to the joist and attached to each joist by 15/8" Type S drywall screws. Two layers of 1/2" Type X gypsum wallboard applied with the long dimension perpendicular to the I-joists with end joints staggered. The base layer is fastened with 11/4" Type S drywall screws spaced 12" o.c. and the face layer is fastened with 15/8" Type S drywall screws spaced 12" o.c. Face layer end joints shall not occur on the same I-joist as base layer end joints and edge joints shall be offset 24" from base layer joints. Face layer to also be attached to base layer with 11/2" Type G drywall screws spaced 8" o.c. placed 6" from face layer end joints. Face layer wallboard joints to be taped and covered with joint compound. - - - Varies - - - 1
28. Wood I-joist (minimum I-joist depth 91/4" with a minimum flange depth of 11/2" and a minimum flange cross-sectional area of 2.25 square inches; minimum web thickness of 3/8") @ 24" o.c. Unfaced fiberglass insulation is installed between the I-joists supported on the upper surface of the flange by stay wires spaced 12" o.c. 28-1.1 Base layer of 5/8" Type C gypsum wallboard attached directly to I-joists with 15/8" Type S drywall screws spaced 12" o.c. with ends staggered. Minimum 0.0179" thick hat-shaped 7/8-inch furring channel 16" o.c. (channels doubled at wallboard end joints), placed perpendicular to the joist and attached to each joist by 15/8" Type S drywall screws after the base layer of gypsum wallboard has been applied. The middle and face layers of 5/8" Type C gypsum wallboard applied perpendicular to the channel with end joints staggered. The middle layer is fastened with 1" Type S drywall screws spaced 12" o.c. The face layer is applied parallel to the middle layer but with the edge joints offset 24" from those of the middle layer and fastened with 15/8" Type S drywall screws 8" o.c. The joints shall be taped and covered with joint compound. - - - Varies - - 2 3/4 -
29. Channel-shaped 18 gage steel joists (minimum depth 8") spaced a maximum 24" o.c. supporting tongue-and-groove wood structural panels (nominal minimum 3/4" thick) applied perpendicular to framing members. Structural panels attached with 1-5/8" Type S-12 screws spaced 12" o.c. 29-1.1 Base layer 5/8" Type X gypsum board applied perpendicular to bottom of framing members with 11/8" Type S-12 screws spaced 12" o.c. Second layer 5/8" Type X gypsum board attached perpendicular to framing members with 15/8" Type S-12 screws spaced 12" o.c. Second layer joints offset 24" from base layer. Third layer 5/8" Type X gypsum board attached perpendicular to framing members with 23/8" Type S-12 screws spaced 12" o.c. Third layer joints offset 12" from second layer joints. Hat-shaped 7/8-inch rigid furring channels applied at right angles to framing members over third layer with two 23/8" Type S-12 screws at each framing member. Face layer 5/8" Type X gypsum board applied at right angles to furring channels with 11/8" Type S screws spaced 12" o.c. - - Varies - - - 33/8 -

For SI: 1 inch = 25.4 mm, 1 foot = 304.8 mm, 1 pound = 0.454 kg, 1 cubic foot = 0.0283 m3,
1 pound per square inch = 6.895 kPa, 1 pound per linear foot = 1.4882 kg/m.
a. Staples with equivalent holding power and penetration shall be permitted to be used as alternate fasteners to nails for attachment to wood framing.
b. When the slab is in an unrestrained condition, minimum reinforcement cover shall not be less than 15/8inches for 4 hours (siliceous aggregate only); 11/4inches for 4 and 3 hours; 1 inch for 2 hours (siliceous aggregate only); and 3/4inch for all other restrained and unrestrained conditions.
c. For all of the construction with gypsum wallboard described in this table, gypsum base for veneer plaster of the same size, thickness and core type shall be permitted to be substituted for gypsum wallboard, provided attachment is identical to that specified for the wallboard, and the joints on the face layer are reinforced and the entire surface is covered with a minimum of 1/16-inch gypsum veneer plaster.
d. Slab thickness over steel joists measured at the joists for metal lath form and at the top of the form for steel form units.
e. (a) The maximum allowable stress level for H-Series joists shall not exceed 22,000 psi.
(b) The allowable stress for K-Series joists shall not exceed 26,000 psi, the nominal depth of such joist shall not be less than 10 inches and the nominal joist weight shall not be less than 5 pounds per linear foot.
f. Cement plaster with 15 pounds of hydrated lime and 3 pounds of approved additives or admixtures per bag of cement.
g. Gypsum wallboard ceilings attached to steel framing shall be permitted to be suspended with 11/2-inch cold-formed carrying channels spaced 48 inches on center, which are suspended with No. 8 SWG galvanized wire hangers spaced 48 inches on center. Cross-furring channels are tied to the carrying channels with No. 18 SWG galvanized wire hangers spaced 48 inches on center. Cross-furring channels are tied to the carrying channels with No. 18 SWG galvanized wire (double strand) and spaced as required for direct attachment to the framing. This alternative is also applicable to those steel framing assemblies recognized under Note q.
h. Six-inch hollow clay tile with 2-inch concrete slab above.
i. Four-inch hollow clay tile with 11/2-inch concrete slab above.
j. Thickness measured to bottom of steel form units.
k. Five-eighths inch of vermiculite gypsum plaster plus 1/2 inch of approved vermiculite acoustical plastic.
l. Furring channels spaced 12 inches on center.
m. Double wood floor shall be permitted to be either of the following:
(a) Subfloor of 1-inch nominal boarding, a layer of asbestos paper weighing not less than 14 pounds per 100 square feet and a layer of 1-inch nominal tongue-and-groove finished flooring; or
(b) Subfloor of 1-inch nominal tongue-and-groove boarding or 15/32-inch wood structural panels with exterior glue and a layer of 1-inch nominal tongue-and-groove finished flooring or 19/32-inch wood structural panel finish flooring or a layer of Type I Grade M-1 particleboard not less than 5/8-inch thick.
n. The ceiling shall be permitted to be omitted over unusable space, and flooring shall be permitted to be omitted where unusable space occurs above.
o. For properties of cooler or wallboard nails, see ASTM C 514, ASTM C 547 or ASTM F 1667.
p. Thickness measured on top of steel deck unit.
q. Generic fire-resistance ratings (those not designated as PROPRIETARY* in the listing) in the GA 600 shall be accepted as if herein listed.

720.1.1 Thickness of protective coverings. The thickness of fire-resistant materials required for protection of structural members shall be not less than set forth in Table 720.1(1), except as modified in this section. The figures shown shall be the net thickness of the protecting materials and shall not include any hollow space in back of the protection.

720.1.2 Unit masonry protection. Where required, metal ties shall be embedded in bed joints of unit masonry for protection of steel columns. Such ties shall be as set forth in Table 720.1(1) or be equivalent thereto.

720.1.3 Reinforcement for cast-in-place concrete column protection. Cast-in-place concrete protection for steel columns shall be reinforced at the edges of such members with wire ties of not less than 0.18 inch (4.6 mm) in diameter wound spirally around the columns on a pitch of not more than 8 inches (203 mm) or by equivalent reinforcement.

720.1.4 Plaster application. The finish coat is not required for plaster protective coatings where they comply with the design mix and thickness requirements of Tables 720.1(1), 720.1(2) and 720.1(3).

720.1.5 Bonded prestressed concrete tendons. For members having a single tendon or more than one tendon installed with equal concrete cover measured from the nearest surface, the cover shall not be less than that set forth in Table 720.1(1). For members having multiple tendons installed with variable concrete cover, the average tendon cover shall not be less than that set forth in Table 720.1(1), provided:

1. The clearance from each tendon to the nearest exposed surface is used to determine the average cover.

2. In no case can the clear cover for individual tendons be less than one-half of that set forth in Table 720.1(1). A minimum cover of 3/4 inch (19.1 mm) for slabs and 1 inch (25 mm) for beams is required for any aggregate concrete.

3. For the purpose of establishing a fire-resistance rating, tendons having a clear covering less than that set forth in Table 720.1(1) shall not contribute more than 50 percent of the required ultimate moment capacity for members less than 350 square inches (0.226 m2) in cross-sectional area and 65 percent for larger members. For structural design purposes, however, tendons having a reduced cover are assumed to be fully effective.

Disclaimer: These regulations may not be the most recent version. Massachusetts may have more current or accurate information. We make no warranties or guarantees about the accuracy, completeness, or adequacy of the information contained on this site or the information linked to on the state site. Please check official sources.
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.