|Adopt Entire Chapter|
|Adopt Entire Chapter as amended (amended sections listed below)||X||X||X|
|Adopt only those sections that are listed below|
|Chapter / Section|
The Office of the State Fire Marshal's adoption of this chapter or individual sections is applicable to structures regulated by other state agencies pursuant to Section 1.11.
Chapter A1 Seismic Strengthening Provisions for Unreinforced Masonry Bearing Wall Buildings
When adopted by a state agency, the provisions of these regulations shall be enforced by the appropriate enforcing agency, but only to the extent of authority granted to such agency by the state legislature.
Following is a list of the state agencies that adopt building standards, the specific scope of application of the agency responsible for enforcement, and the specific statutory authority of each agency to adopt and enforce such provisions of building standards of this code, unless otherwise stated.
- Enforcing Agency—State or local agency specified by the applicable provisions of the law.
- Authority Cited—Health and Safety Code Section 18934.7.
- Reference—Health and Safety Code Sections 18901 through 18949.
- Enforcing Agency—The local building department or the Department of Housing and Community Development.
- Authority Cited—Health and Safety Code Sections 17040, 17921, 17922 and 19990.
- Reference—Health and Safety Code Sections 17000 through 17060, 17910 through 17990, 19960 through 19997; and Government Code Section 12955.1.
- Enforcing Agency—The local building department or the Department of Housing and Community Development.
- Authority Cited—Health and Safety Code Sections 18300, 18620, 18640, 18865, 18873 and 18873.2.
- Reference—Health and Safety Code Sections 18200 through 18700 and 18860 through 18874.
The purpose of this chapter is to promote public safety and welfare by reducing the risk of death or injury that may result from the effects of earthquakes on existing unreinforced masonry bearing wall buildings.
The provisions of this chapter are intended as minimum standards for structural seismic resistance, and are established primarily to reduce the risk of life loss or injury. Compliance with these provisions will not necessarily prevent loss of life or injury, or prevent earthquake damage to rehabilitated buildings.
For the purpose of this chapter, the applicable definitions in the California Building Code as adopted by the California Building Standards Commission (BSC) shall also apply:
BUILDING CODE. [BSC, HCD 1 and HCD 2] "Building Code" shall mean the most current edition of the California Building Code, Title 24, Part 2 as adopted by the California Building Standards Commission (BSC).
[BS] DIAPHRAGM EDGE. The intersection of the horizontal diaphragm and a shear wall.
[BS] DIAPHRAGM SHEAR CAPACITY. The unit shear value times the depth of the diaphragm, vuD.
[BS] FLEXIBLE DIAPHRAGM. A diaphragm of wood or untopped metal deck construction.
[BS] NORMAL WALL. A wall perpendicular to the direction of seismic forces.
[BS] POINTING.The process of removal of deteriorated mortar from between masonry units and placement of new mortar. Also known as repointing or tuckpointing for purposes of this chapter.
[BS] REPOINTING. See "Pointing."
[BS] RIGID DIAPHRAGM. A diaphragm of concrete construction.
[BS] TUCKPOINTING. See "Pointing."
[BS] UNREINFORCED MASONRY. Includes burned clay, concrete or sand-lime brick; hollow clay or concrete block; plain concrete; and hollow clay tile. These materials shall comply with the requirements of Section A106 as applicable.
[BS] UNREINFORCED MASONRY BEARING WALL. A URM wall that provides the vertical support for the reaction of floor or roof-framing members.
[BS] UNREINFORCED MASONRY (URM) WALL. A masonry wall that relies on the tensile strength of masonry units, mortar and grout in resisting design loads, and in which the area of reinforcement is less than 25 percent of the minimum ratio required by the building code for reinforced masonry.
[BS] YIELD STORY DRIFT. The lateral displacement of one level relative to the level above or below at which yield stress is first developed in a frame member.
For the purpose of this chapter, the following notations supplement the applicable symbols and notations in the building code.
an = Diameter of core multiplied by its length or the area of the side of a square prism.
A = Cross-sectional area of unreinforced masonry pier or wall, square inches (10-6 m2).
Ab = Total area of the bed joints above and below the test specimen for each in-place shear test, square inches (10-6 m2).
D = In-plane width dimension of pier, inches (10-3 m), or depth of diaphragm, feet (m).
DCR = Demand-capacity ratio specified in Section A111.4.2.
f'm = Compressive strength of masonry.
fsp = Tensile-splitting strength of masonry.
Fwx = Force applied to a wall at level x, pounds (N).
H = Least clear height of opening on either side of a pier, inches (10-3 m).
h/t = Height-to-thickness ratio of URM wall. Height, h, is measured between wall anchorage levels and/or slab-on-grade.
L = Span of diaphragm between shear walls, or span between shear wall and open front, feet (m).
Lc = Length of crosswall, feet (m).
P = Applied force as determined by standard test method of ASTM C 496 or ASTM E 519, pounds (N).
PD = Superimposed dead load at the location under consideration, pounds (kN). For determination of the rocking shear capacity, dead load at the top of the pier under consideration shall be used.
pD+L = Press resulting from the dead plus actual live load in place at the time of testing, pounds per square inch (kPa).
Pw = Weight of wall, pounds (N).
R = Response modification factor for Ordinary plain masonry shear walls in Bearing Wall System from Table 12.2-1 of ASCE 7, where R = 1.5.
SDS = Design spectral acceleration at short period, in g units.
SD1 = Design spectral acceleration at 1-second period, in g units.
va = The shear strength of any URM pier, vmA/1.5 pounds (N).
vc = Unit shear capacity value for a crosswall sheathed with any of the materials given in Table A1-D or A1-E, pounds per foot (N/m).
vm = Shear strength of unreinforced masonry, pounds per square inch (kPa).
Vaa = The shear strength of any URM pier or wall, pounds (N).
Vca = Total shear capacity of crosswalls in the direction of analysis immediately above the diaphragm level being investigated, vcLc, pounds (N).
Vcb = Total shear capacity of crosswalls in the direction of analysis immediately below the diaphragm level being investigated, vcLc, pounds (N).
Vp = Shear force assigned to a pier on the basis of its relative shear rigidity, pounds (N).
Vr = Pier rocking shear capacity of any URM wall or wall pier, pounds (N).
vt = Mortar shear strength as specified in Section A18.104.22.168, pounds per square inch (kPa).
Vtest = Load at incipient cracking for each in-place shear test performed in accordance with Section A22.214.171.124, pounds (kN).
vto = Mortar shear test values as specified in Section A126.96.36.199, pounds per square inch (kPa).
vu = Unit shear capacity value for a diaphragm sheathed with any of the materials given in Table A1-D or A1-E, pounds per foot (N/m).
Vwx = Total shear force resisted by a shear wall at the level under consideration, pounds (N).
W = Total seismic dead load as defined in the building code, pounds (N).
Wd = Total dead load tributary to a diaphragm level, pounds (N).
Ww = Total dead load of a URM wall above the level under consideration or above an open-front building, pounds (N).
Wwx = Dead load of a URM wall assigned to level x halfway above and below the level under consideration, pounds (N).
ΣvuD = Sum of diaphragm shear capacities of both ends of the diaphragm, pounds (N).
ΣΣvuD = For diaphragms coupled with crosswalls, vuD includes the sum of shear capacities of both ends of diaphragms coupled at and above the level under consideration, pounds (N).
ΣWd = Total dead load of all the diaphragms at and above the level under consideration, pounds (N).
The following construction information shall be included in the plans required by this chapter:
- Dimensioned floor and roof plans showing existing walls and the size and spacing of floor and roof-framing members and sheathing materials. The plans shall indicate all existing and new crosswalls and shear walls and their materials of construction. The location of these walls and their openings shall be fully dimensioned and drawn to scale on the plans.
- Dimensioned wall elevations showing openings, piers, wall classes as defined in Section A188.8.131.52, thickness, heights, wall shear test locations, cracks or damaged portions requiring repairs, the general condition of the mortar joints, and if and where pointing is required. Where the exterior face is veneer, the type of veneer, its thickness and its bonding and/or ties to the structural wall masonry shall also be noted.
- The type of interior wall and ceiling materials, and framing.
- The extent and type of existing wall anchorage to floors and roof when used in the design.
- The extent and type of parapet corrections that were previously performed, if any.
- Repair details, if any, of cracked or damaged unreinforced masonry walls required to resist forces specified in this chapter.
- All other plans, sections and details necessary to delineate required retrofit construction.
- The design procedure used shall be stated on both the plans and the permit application.
- Details of the anchor prequalification program required by Section A107.5.3, if used, including location and results of all tests.
Structural observation, in accordance with Section 1704 of the California Building Code, shall be required for structures in which seismic retrofit is being performed in accordance with this chapter. Structural observation shall include visual observation of work for conformance with the approved construction documents and confirmation of existing conditions assumed during design.
Structural testing and inspection for new construction materials shall be in accordance with the California Building Code, except as modified by this chapter.
Existing materials used as part of the required vertical-load-carrying or lateral-force-resisting system shall be in sound condition, or shall be repaired or removed and replaced with new materials. All other unreinforced masonry materials shall comply with the following requirements:
- The lay-up of the masonry units shall comply with Section A106.3.2, and the quality of bond between the units has been verified to the satisfaction of the building official;
- Concrete masonry units are verified to be load-bearing units complying with ASTM C 90 or such other standard as is acceptable to the building official; and
- The compressive strength of plain concrete walls shall be determined based on cores taken from each class of concrete wall. The location and number of tests shall be the same as those prescribed for tensile-splitting strength tests in Sections A184.108.40.206 and A220.127.116.11, or in Section A108.1.
The facing and backing shall be bonded so that not less than 10 percent of the exposed face area is composed of solid headers extending not less than 4 inches (102 mm) into the backing. The clear distance between adjacent full-length headers shall not exceed 24 inches (610 mm) vertically or horizontally. Where the backing consists of two or more wythes, the headers shall extend not less than 4 inches (102 mm) into the most distant wythe, or the backing wythes shall be bonded together with separate headers with their area and spacing conforming to the foregoing. Wythes of walls not bonded as described above shall be considered veneer. Veneer wythes shall not be included in the effective thickness used in calculating the height-to-thickness ratio and the shear capacity of the wall.
Exception:Where SD1 is not more than 0.3, veneer wythes anchored as specified in the building code and made composite with backup masonry may be used for calculation of the effective thickness.
The quality of mortar in all masonry walls shall be determined by performing in-place shear tests in accordance with the following:
- The bed joints of the outer wythe of the masonry shall be tested in shear by laterally displacing a single brick relative to the adjacent bricks in the same wythe. The head joint opposite the loaded end of the test brick shall be carefully excavated and cleared. The brick adjacent to the loaded end of the test brick shall be carefully removed by sawing or drilling and excavating to provide space for a hydraulic ram and steel loading blocks. Steel blocks, the size of the end of the brick, shall be used on each end of the ram to distribute the load to the brick. The blocks shall not contact the mortar joints. The load shall be applied horizontally, in the plane of the wythe. The load recorded at first movement of the test brick as indicated by spalling of the face of the mortar bed joints is Vtest in Equation A1-3.
- Alternative procedures for testing shall be used where in-place testing is not practical because of crushing or other failure mode of the masonry unit (see Section A18.104.22.168).
The tensile-splitting strength of existing masonry, fsp, or the prism strength of existing masonry, f 'm may be determined in accordance with one of the following procedures:
- An alternative to material testing is estimation of the f'm of the existing masonry. This alternative should be limited to recently constructed masonry. The determination of f'm requires that the unit correspond to a specification of the unit by an ASTM standard and classification of the mortar by type.
The minimum number of tests per class shall be as follows:
- At each of both the first and top stories, not less than two tests per wall or line of wall elements providing a common line of resistance to lateral forces.
- At each of all other stories, not less than one test per wall or line of wall elements providing a common line of resistance to lateral forces.
- In any case, not less than one test per 1,500 square feet (139.4 m2) of wall surface and not less than a total of eight tests.
- Individual unreinforced masonry walls with vto consistently less than 30 pounds per square inch (207 kPa) shall be entirely pointed prior to retesting.
- The mortar shear strength, vt, is the value in pounds per square inch (kPa) that is exceeded by 80 percent of the mortar shear test values, vto.
- Unreinforced masonry with mortar shear strength, vt, less than 30 pounds per square inch (207 kPa) shall be removed, pointed and retested or shall have its structural function replaced, and shall be anchored to supporting elements in accordance with Sections A106.3.1 and A113.8. When existing mortar in any wythe is pointed to increase its shear strength and is retested, the condition of the mortar in the adjacent bed joints of the inner wythe or wythes and the opposite outer wythe shall be examined for extent of deterioration. The shear strength of any wall class shall be no greater than that of the weakest wythe of that class.
- The minimum average value of tensile-splitting strength determined by Equation A1-1 or A1-2 shall be 50 pounds per square inch (344.7 kPa). The minimum value of f'm determined by categorization of the masonry units and mortar should be 1,000 pounds per square inch (6895 kPa).
- Individual unreinforced masonry walls with average tensile-splitting strength of less than 50 pounds per square inch (344.7 kPa) shall be entirely pointed prior to retesting.
- Hollow unit unreinforced masonry walls with estimated prism compressive strength of less than 1,000 pounds per square inch (6895 kPa) shall be grouted to increase the average net area compressive strength.
Deteriorated mortar joints in unreinforced masonry walls shall be pointed in accordance with the following requirements:
- Joint preparation. The deteriorated mortar shall be cut out by means of a toothing chisel or non-impact power tool to a depth at which sound mortar is reached but not less than 3/4 inch (19.1 mm). Care shall be taken not to damage the brick edges. After cutting is complete, all loose material shall be removed with a brush, air stream or water stream.
- Mortar preparation. The mortar mix shall be proportioned as required by the registered design professional. The pointing mortar shall be prehydrated by first thoroughly mixing all ingredients dry and then mixing again, adding only enough water to produce a damp workable mix which will retain its form when pressed into a ball. The mortar shall be kept in a damp condition for 11/2 hours; then sufficient water shall be added to bring it to a consistency that is somewhat drier than conventional masonry mortar.
- Packing. The joint into which the mortar is to be packed shall be damp but without freestanding water. The mortar shall be tightly packed into the joint in layers not exceeding 1/4 inch (6.4 mm) in depth until it is filled; then it shall be tooled to a smooth surface to match the original profile.
All new embedded bolts shall be subject to periodic special inspection in accordance with the building code, prior to placement of the bolt and grout or adhesive in the drilled hole. Five percent of all bolts that do not extend through the wall shall be subject to a direct-tension test, and an additional 20 percent shall be tested using a calibrated torque wrench. Testing shall be performed in accordance with Section A107.5. New bolts that extend through the wall with steel plates on the far side of the wall need not be tested.
Exception: Special inspection in accordance with the building code may be provided during installation of new anchors in lieu of testing.
All new embedded bolts resisting tension forces or a combination of tension and shear forces shall be subject to periodic special inspection in accordance with the building code, prior to placement of the bolt and grout or adhesive in the drilled hole. Five percent of all bolts resisting tension forces shall be subject to a direct-tension test, and an additional 20 percent shall be tested using a calibrated torque wrench. Testing shall be performed in accordance with Section A107.5. New through-bolts need not be tested.
Bolts embedded in unreinforced masonry walls shall be tested using a torque-calibrated wrench to the following minimum torques:
1/2-inch-diameter (12.7 mm) bolts: 40 foot pounds (54.2 N-m).
5/8-inch-diameter (15.9 mm) bolts: 50 foot pounds (67.8 N-m).
3/4-inch-diameter (19.1 mm) bolts: 60 foot pounds (81.3 N-m).
This section is applicable when it is desired to use tension or shear values for anchors greater than those permitted by Table A1-E. The direct-tension test procedure set forth in Section A107.5.1 for existing anchors shall be used to determine the allowable tension values for new embedded through bolts, except that no preload is required. Bolts shall be installed in the same manner and using the same materials as will be used in the actual construction. A minimum of five tests for each bolt size and type shall be performed for each class of masonry in which they are proposed to be used. The allowable tension values for such anchors shall be the lesser of the average ultimate load divided by a safety factor of 5.0 or the average load at which 1/8 inch (3.2 mm) elongation occurs for each size and type of bolt and class of masonry.
The test procedure for prequalification of shear bolts shall comply with ASTM E 488 or another approved procedure.
The allowable values determined in this manner shall be permitted to exceed those set forth in Table A1-E.
- Strength values for existing materials are given in Table A1-D and for new materials in Table A1-E.
- Capacity reduction factors need not be used.
- The use of new materials not specified herein shall be based on substantiating research data or engineering judgment, with the approval of the building official.
The unreinforced masonry shear strength, vm, shall be determined for each masonry class from one of the following equations:
Buildings shall be analyzed to resist minimum lateral forces assumed to act nonconcurrently in the direction of each of the main axes of the structure in accordance with the following:
- Unreinforced masonry walls for which height-to-thickness ratios do not exceed ratios set forth in Table A1-B need not be analyzed for out-of-plane loading. Unreinforced masonry walls that exceed the allowable h/t ratios of Table A1-B shall be braced according to Section A113.5.
- Parapets complying with Section A113.6 need not be analyzed for out-of-plane loading.
- Walls shall be anchored to floor and roof diaphragms in accordance with Section A113.1.
The special procedures of this section may be applied only to buildings having the following characteristics:
- Flexible diaphragms at all levels above the base of the structure.
- Vertical elements of the lateral-force-resisting system consisting predominantly of masonry or concrete shear walls.
- Except for single-story buildings with an open front on one side only, a minimum of two lines of vertical elements of the lateral-force-resisting system parallel to each axis of the building (see Section A111.8 for open-front buildings).
A crosswall is a wood-framed wall sheathed with any of the materials described in Table A1-D or A1-E or other system as defined in Section A111.3.5. Crosswalls shall be spaced no more than 40 feet (12 192 mm) on center measured perpendicular to the direction of consideration, and shall be placed in each story of the building. Crosswalls shall extend the full story height between diaphragms.
- Crosswalls need not be provided at all levels when used in accordance with Section A111.4.2, Item 4.
Demand-capacity ratios shall be calculated for the diaphragm at any level according to the following formulas:
- Diaphragm forces at corners of openings shall be investigated and shall be developed into the diaphragm by new or existing materials.
- In addition to the demand-capacity ratios of Section A111.4.2, the demand-capacity ratio of the portion of the diaphragm adjacent to an opening shall be calculated using the opening dimension as the span.
- Where an opening occurs in the end quarter of the diaphragm span, the calculation of vuD for the demand-capacity ratio shall be based on the net depth of the diaphragm.
Diaphragms shall be connected to shear walls with connections capable of developing the diaphragm-loading tributary to the shear wall given by the lesser of the following formulas:
using the Cp values in Table A1-C, or
The wall story force distributed to a shear wall at any diaphragm level shall be the lesser value calculated as:
but need not exceed
The provisions of Section A110.2 are applicable, except the allowable height-to-thickness ratios given in Table A1-B shall be determined from Figure A1-1 as follows:
- In Region 1, height-to-thickness ratios for buildings with crosswalls may be used if qualifying crosswalls are present in all stories.
- In Region 2, height-to-thickness ratios for buildings with crosswalls may be used whether or not qualifying crosswalls are present.
- In Region 3, height-to-thickness ratios for "all other buildings" shall be used whether or not qualifying crosswalls are present.
Wall piers shall be analyzed according to the following procedure, which is diagramed in Figure A1-2.
- Masonry pier tension stress. Unreinforced masonry wall piers need not be analyzed for tension stress.
Shear walls without openings shall be analyzed the same as for walls with openings, except that Vr shall be calculated as follows:
Parapets and exterior wall appendages not conforming to this chapter shall be removed, or stabilized or braced to ensure that the parapets and appendages remain in their original positions.
The maximum height of an unbraced unreinforced masonry parapet above the lower of either the level of tension anchors or the roof sheathing shall not exceed the height-to-thickness ratio shown in Table A1-F. If the required parapet height exceeds this maximum height, a bracing system designed for the forces determined in accordance with the building code shall support the top of the parapet. Parapet corrective work must be performed in conjunction with the installation of tension roof anchors.
The minimum height of a parapet above any wall anchor shall be 12 inches (305 mm).
Exception: If a reinforced concrete beam is provided at the top of the wall, the minimum height above the wall anchor may be 6 inches (152 mm).
- 2.1. An approved testing laboratory shall verify the location and spacing of the ties and shall submit a report to the building official for approval as part of the structural analysis.
- 2.2. The veneer in a selected area shall be removed to expose a representative sample of ties (not less than four) for inspection by the building official.
Where trusses and beams other than rafters or joists are supported on masonry, independent secondary columns shall be installed to support vertical loads of the roof or floor members.
Exception: Secondary supports are not required where SD1 is less than 0.3g.
Walls of unburned clay, adobe or stone masonry construction shall conform to the following:
- Walls of unburned clay, adobe or stone masonry shall not exceed a height- or length-to-thickness ratio specified in Table A1-G.
- Adobe may be allowed a maximum value of 9 pounds per square inch (62.1 kPa) for shear unless higher values are justified by test.
- Mortar for repointing may be of the same soil composition and stabilization as the brick, in lieu of cement-mortar.
[BS] TABLE A1-A
ELEMENTS REGULATED BY THIS CHAPTER
|≥ 0.067g < 0.133g||≥ 0.133g < 0.20g||≥ 0.20g < 0.30g||> 0.30g|
|Walls, h/t ratios||X||X||X|
|Walls, in-plane shear||X||X||X|
|Diaphragms, shear transferb||X||X||X|
|Diaphragms, demand-capacity ratiosb||X||X|
[BS] TABLE A1-B
ALLOWABLE VALUE OF HEIGHT-TO-THICKNESS RATIO OF UNREINFORCED MASONRY WALLS
|WALL TYPES||0.13g ≤ SD1 < 0.25g||0.25g ≤ SD1 < 0.4g||SD1 ≥ 0.4g BUILDINGS WITH CROSSWALLSa||SD1 > 0.4g ALL OTHER BUILDINGS|
|Walls of one-story buildings||20||16||16b,c||13|
|First-story wall of multistory building||20||18||16||15|
|Walls in top story of multistory building||14||14||14b,c||9|
|All other walls||20||16||16||13|
- Applies to the special procedures of Section A111 only. See Section A111.7 for other restrictions.
- This value of height-to-thickness ratio may be used only where mortar shear tests establish a tested mortar shear strength, vt, of not less than 100 pounds per square inch (690 kPa). This value may also be used where the tested mortar shear strength is not less than 60 pounds per square inch (414 kPa), and where a visual examination of the collar joint indicates not less than 50-percent mortar coverage.
- Where a visual examination of the collar joint indicates not less than 50-percent mortar coverage, and the tested mortar shear strength, vt, is greater than 30 pounds per square inch (207 kPa) but less than 60 pounds per square inch (414 kPa), the allowable height-to-thickness ratio may be determined by linear interpolation between the larger and smaller ratios in direct proportion to the tested mortar shear strength.
[BS] TABLE A1-C
HORIZONTAL FORCE FACTOR, Cp
|CONFIGURATION OF MATERIALS||Cp|
|Roofs with straight or diagonal sheathing and roofing applied directly to the sheathing, or floors with straight tongue-and-groove sheathing.||0.50|
|Diaphragms with double or mulitple layers of boards with edges offset, and blocked plywood systems.||0.75|
|Diaphragms of metal deck without topping:|
|Minimal welding or mechanical attachment.||0.6|
|Welded or mechanically attached for seismic resistance.||0.68|
[BS] TABLE A1-D
STRENGTH VALUES FOR EXISTING MATERIALS
|EXISTING MATERIALS OR CONFIGURATION OF MATERIALSa||STRENGTH VALUES|
|x 14.594 for N/m|
|Horizontal diaphragms||Roofs with straight sheathing and roofing applied directly to the sheathing.||300 lbs. per ft. for seismic shear|
|Roofs with diagonal sheathing and roofing applied directly to the sheathing.||750 lbs. per ft. for seismic shear|
|Floors with straight tongue-and-groove sheathing.||300 lbs. per ft. for seismic shear|
|Floors with straight sheathing and finished wood flooring with board edges offset or perpendicular.||1,500 lbs. per ft. for seismic shear|
|Floors with diagonal sheathing and finished wood flooring.||1,800 lbs. per ft. for seismic shear|
|Metal deck welded with minimal welding.c||1,800 lbs, per ft. for seismic shear|
|Metal deck welded for seismic resistance.d||3,000 lbs. per ft. for seismic shear|
|Crosswallsb||Plaster on wood or metal lath.||600 lbs. per ft. for seismic shear|
|Plaster on gypsum lath.||550 lbs. per ft. for seismic shear|
|Gypsum wallboard, unblocked edges.||200 lbs. per ft. for seismic shear|
|Gypsum wallboard, blocked edges.||400 lbs. per ft. for seismic shear|
|Existing footing, wood framing, structural steel, reinforcing steel||Plain concrete footings.||f'c = 1,500 psi (10.34 MPa) unless otherwise shown by tests|
|Douglas fir wood.||Same as D.F. No. 1|
|Reinforcing steel.||Fy = 40,000 psi (124.1 N/mm2) maximum|
|Structural steel.||Fy = 33,000 psi (137.9 N/mm2) maximum|
For SI: 1 inch = 25.4 mm, 1 square inch = 645.16 mm2, 1 pound = 4.4 N.
- Material must be sound and in good condition.
- Shear values of these materials may be combined, except the total combined value should not exceed 900 pounds per foot (4380 N/m).
- Minimum 22-gage steel deck with welds to supports satisfying the standards of the Steel Deck Institute.
- Minimum 22-gage steel deck with 3/4 ϕ plug welds at an average spacing not exceeding 8 inches (203 mm) and with sidelap welds appropriate for the deck span.
[BS] TABLE A1-E
STRENGTH VALUES OF NEW MATERIALS USED IN CONJUNCTION WITH EXISTING CONSTRUCTION
|NEW MATERIALS OR CONFIGURATION OF MATERIALS||STRENGTH VALUES|
|Horizontal diaphragms||Plywood sheathing applied directly over existing straight sheathing with ends of plywood sheets bearing on joists or rafters and edges of plywood located on center of individual sheathing boards.||675 lbs. per ft.|
|Crosswalls||Plywood sheathing applied directly over wood studs; no value should be given to plywood applied over existing plaster or wood sheathing.||1.2 times the value specified in the current building code.|
|Drywall or plaster applied directly over wood studs.||The value specified in the current building code.|
|Drywall or plaster applied to sheathing over existing wood studs.||50 percent of the value specified in the current building code.|
|Tension boltse||Bolts extending entirely through unreinforced masonry wall secured with bearing plates on far side of a three-wythe-minimum wall with at least 30 square inches of area.b,c||5,400 lbs. per bolt. |
2,700 lbs. for two-wythe walls.
|Shear boltse||Bolts embedded a minimum of 8 inches into unreinforced masonry walls; bolts should be centered in 21/2-inch-diameter holes with dry-pack or nonshrink grout around the circumference of the bolt.||The value for plain masonry specified for solid masonry in the current building code; no value larger than those given for 3/4-inch bolts should be used.|
|Combined tension and shear bolts||Through-bolts—bolts meeting the requirements for shear and for tension bolts.b,c||Tension—same as for tension bolts. |
Shear—same as for shear bolts.
|Embedded bolts—bolts extending to the exterior face of the wall with a 21/2-inch round plate under the head and drilled at an angle of 221/2 degrees to the horizontal; installed as specified for shear bolts.a,b,c||Tension—3,600 lbs. per bolt. |
Shear—same as for shear bolts.
|Infilled walls||Reinforced masonry infilled openings in existing unreinforced masonry walls; provide keys or dowels to match reinforcing.||Same as values specified for unreinforced masonry walls.|
|Reinforced masonryd||Masonry piers and walls reinforced per the current building code.||The value specified in the current building code for strength design.|
|Reinforced concreted||Concrete footings, walls and piers reinforced as specified in the current building code.||The value specified in the current building code for strength design.|
For SI: 1 inch = 25.4 mm, 1 square inch = 645.16 mm2, 1 pound = 4.4 N.
- Embedded bolts to be tested as specified in Section A107.4.
- Bolts to be 1/2 inch minimum in diameter.
- Drilling for bolts and dowels shall be done with an electric rotary drill; impact tools should not be used for drilling holes or tightening anchors and shear bolt nuts.
- No load factors or capacity reduction factor shall be used.
- Other bolt sizes, values and installation methods may be used, provided a testing program is conducted in accordance with Section A107.5.3. The strength value shall be determined by multiplying the calculated allowable value, determined in accordance with Section A107.5.3, by 3.0, and the usable value shall be limited to a maximum of 1.5 times the value given in the table. Bolt spacing shall not exceed 6 feet on center and shall be not less than 12 inches on center.
[BS] TABLE A1-F
MAXIMUM ALLOWABLE HEIGHT-TO-THICKNESS RATIOS FOR PARAPETS
|0.13g ≤ SD1< 0.25g||0.25g ≤ SD1 < 0.4g||SD1 ≥ 0.4g|
|Maximum allowable height-to-thickness ratios||2.5||2.5||1.5|