The URL can be used to link to this page

Home My WebLink AboutORD FOR ADOPTION 02-19-91 (2)DATE: FEBRUARY 19, 1991 TO: WILLIAM A. HUSTON, CITY MANAGER DINANCE FOR ADOPTION NO. 2 _-19-91 Inter - Com FROM: OFFICE OF THE CITY CLERK SUBJECT: ORDINANCE NO. 1059.- EARTHQUAKE HAZARD MITIGATION REQUIREMENTS EXISTING UNREINFORCED.MASONRY BUILDINGS RECOMMENDATION: Ordinance No. 1059 have second reading by title only and be passed and adopted (roll call vote). BACKGROUND: The following Ordinance No. 1059 had first reading and introduction at the February 4, 1991 City Council meeting: ORDINANCE NO. 1059 - AN ORDINANCE OF THE CITY COUNCIL OF THE CITY OF TUSTIN, CALIFORNIA, AMENDING ARTICLE 8 OF THE TUSTIN CITY CODE BY ADOPTING EARTHQUAKE HAZARD MITIGATION REQUIREMENTS FOR EXISTING UNREINFORCED MASONRY BUILDINGS Valerie Whiteman Chief Deputy City Clerk 1 3 4 5 G 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 ORDINANCE NO. 1059 AN ORDINANCE OF THE CITY COUNCIL OF THE CITY OF TUSTIN AMENDING ARTICLE 8 OF THE TUSTIN CITY CODE BY ADOPTING EARTHQUAKE HAZARD MITIGATION REQUIREMENTS FOR EXISTING UNREINFORCED MASONRY BUILDINGS. The City Council of the City of Tustin does hereby ordain as follows: Section 1: Article 8 of the Tustin City Code is amended by adding a new Chapter 9A to read as follows: CHAPTER 9A EARTHQUAKE HAZARD MITIGATION FOR UNREINFORCED MASONRY BUILDINGS A8901 PURPOSE The purpose of this Chapter is to protect the public health, safety and general welfare by reducing the risk of death or injury that may result from the effects of earthquakes on existing unreinforced masonry bearing wall buildings. Such buildings have been widely recognized for sustaining hazardous damages as a result of partial or complete collapse during past moderate to strong earthquakes. The provisions of this Chapter are intended as minimum standards for structural seismic resistance 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. A8902 SCOPE The provisions of this Chapter shall apply to all existing building having at least one unreinforced masonry bearing wall constructed prior to the effective date of this Chapter. Exception: This Chapter shall not apply to detached one or two family dwellings and detached apartment houses containing less than 5 dwelling units and used solely for residential purposes. This Chapter shall not require existing electrical, plumbing, mechanical or fire safety systems to be altered unless they constitute a hazard to life or property or the character or the occupancy of an existing building is 1 r 3 4 5 6 8 9' 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 2 changed. This Chapter provides systematic procedures and standards for identifications and classification of unreinforced masonry bearing wall buildings based on their present use. Priorities and standards are also established under which these buildings are required to be structurally analyzed and anchored. Where the analysis finds deficiencies, this Chapter requires the building to be strengthened. A8903 DEFINITIONS t For the purpose of this Chapter, the following definitions shall apply in addition to those contained in the Uniform Building Code: COLLAR JOINT is the vertical space between adjacent wythes. It may contain mortar. CROSSWALL is a wall that meets the requirements of Section A8909D.3. A crosswall is not a shear wall. CROSSWALL SHEAR CAPACITY is the length of the crosswall times the allowable shear value, vCLa. DIAPHRAGM EDGE is the intersection of the horizontal diaphragm and a shear wall. DIAPHRAGM SHEAR CAPACITY is the depth of the diaphragm times the allowable shear value, vuD. FLEXIBLE DIAPHRAGM is a diaphragm of wood construction or other construction of similar flexibility. NORMAL WALL is a wall perpendicular to the direction of seismic forces. OPEN FRONT is an exterior building wall plane on one side only without vertical elements of the lateral force resisting system in one or more stories. POINTING is the partial reconstruction of the bed joints of a URM wall as defined in UBC Standard No. 24-42. 1 3 4 5 G 8' 9' 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 i 27'. 28 Ordinance No. 1059 Page 3 SHEAR WALL is a wall utilized to resist the required seismic forces parallel to the wall (not. including crosswa-lls). All reinforced or unreinforced masonry or concrete walls shall be considered shear walls. Braced frames shall be considered as shear walls. Movement - resisting frames may be designed as crosswalls or shear walls. UBC is the most recent Uniform Building Code and all amendments as adopted by the City of Tustin. UBC STANDARD is the. most recent Uniform Building Code Standards as adopted by the City of Tustin. UNREINFORCED MASONRY (URM) WALL is a masonry wall in which the area of reinforcing steel is less than 25 percent of the minimum required by the Building Code for reinforced masonry. UNREINFORCED MASONRY (URM) BEARING WALL is a masonry wall having all of the following characteristics: provides the vertical support for a floor or roof; the total superimposed load exceeds 100 pounds per linear foot of wall, and; the masonry wall does not have vertical reinforcement. YIELD STORY DRIFT OR DEFLECTION is the lateral displacement of one level relative to the level above or below at which yield stress is first developed in a frame member. A8904 SYMBOLS AND NOTATIONS For the purpose of this Chapter, the following symbols and notations shall apply in addition to those contained in the UBC: A = Area of unreinforced masonry pier in square inches. Ab = Total area of the bed joints above and below the test specimen for each in-place shear test. CP = Numerical coefficient as specified in UBC Section 2312(8) and given in UBC Table 23-P and Table Al -A of this Chapter. 1 3 4 5 G 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 2- 2G 27 28 Ordinance No. 1059 Page 4 D = DCR = EV _ Fi, Fn, FX FP Fwx H = h/ t = Vcb In -plane width dimension of pier in inches, or depth of diaphragm in feet. Demand -capacity ratio specified in Section A8909D. Shear Modulus, psi. lateral force applied to level i, n or x, respectively. ' lateral force on a part of the structure and in the direction under consideration Force applied to a wall at level x in pounds. Least clear height of opening on either side of pier in inches. height/thickness ratio of URM wall. Height is measured between wall anchorage levels, and/or slab on grade. Span of diaphragm between shear walls, or span between shear wall and open front in feet. Length of crosswall in feet. Effective span for an open front building specified in Section A8909D.8. Superimposed dead load at the top of the pier under consideration in pounds. Actual dead plus live load in place at the time of testing in pounds. Weight of wall in pounds. vaA, the allowable shear in any URM pier in pounds. Total shear capacity of crosswalls in the direction of analysis immediately below the diaphragm level being investigated, Zv jLo in pounds. 1 3 4 5 6 8 9' 10 11 12 13 14 15 16 li 18 19 20 21 22 23 24 2" 2( 2i 2� Ordinance No. 1059 Page 5 V = `a Total shear capacity of crosswalls in the direction of analysis immediately above the diaphragm level being investigated, Ev„Lo in pounds. . V = Pier rocking shear capacity of any URM wall or wall pier in pounds, based on the cracked pier analysis. V = `�” Total shear force resisted by a shear wall at the level under consideration in pounds. VP = Shear force assigned to a pier on the basis of its relative shear rigidity in pounds. V = VS Shear force assigned to a spandrel on the basis of the shear forces in the adjacent wall piers and tributary dead plus live loads. Vtest= Load in pounds at incipient cracking for each inplace masonry shear test per UBC Standard 23-40. v = Allowable shear stress in pounds per square a inch for unreinforced masonry. V = Allowable shear value for a crosswall sheathed ` with any of the materials given in Tables Al -C or Al -D in pounds per foot. vt = Mortar shear strength as specified in Section A8906C.3. vto = Mortar shear test values as specified in Section A8906C.3. vu = Allowable shear value for a diaphragm sheathed with any of the materials given in Table Al -C or Al -D in pounds per foot. EvuD = Sum of diaphragm shear capacities of both ends of the diaphragm. EEvUD= For diaphragms coupled with crosswalls EEvuD includes the sum of shear capacities of both ends of diaphragms coupled at and above the level under consideration. 1 3 4 5 6 8 9 10 11 12 13 14 15 16 17 18 19 20 211 22 23 24 25 26 27 28 ordinance No. 1059 Page 6 Wd Total dead load tributary to a diaphragm in pounds. EWd = Total dead load tributary to all on the diaphragms at and above the level under consideration in pounds. Ww = Total dead load of an unreinforced masonry wall above the level under consideration or above an open front of a building in pounds. WwX = Dead load of a URM wall assigned to Level x halfway above and below the level under consideration. A8905 GENERAL REQUIREMENTS A. General. All buildings shall have a seismic resisting system conforming with UBC Section 2303(b) except as modified by this Chapter. B. Alterations and Repairs. Alterations and repairs required to meet the provisions of this Chapter shall comply with all other applicable requirements of. the UBC unless specifically provided for in this Chapter. C. Requirements for Plans. The following construction information shall be included in the plans required by this Chapter: 1. 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 their materials of construction. The location of the crosswalls and their openings shall be fully dimensioned or drawn to scale on the plans. 2. Dimensioned wall elevations showing openings, piers, wall classes as defined in Section A8906C.3.1 thicknesses, heights, wall shear test locations, and cracks or damaged portions requiring repairs. The general condition of the mortar joints and if and where the joints require pointing. Where the exterior face is veneer, the type of veneer, its thickness and its bonding and/or ties to the structural wall masonry wall shall also be reported.. 1 3 4 5 6 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 7 3. The type of interior wall and ceiling surfaces. 4. The extent and type of existing wall anchorage to floors and roof.when utilized in the design. 5. The extent and type of parapet corrections which were previously performed, if any. 6. Repair details, if any, of cracked or damaged unreinforced masonry walls required to resist forces specified in this Chapter. 7. All ,other plans, sections, and details necessary to delineate required retrofit construction including those items in Section A8910. A8906 MATERIAL REQUIREMENTS A. General. All materials permitted by this Chapter and the UBC, including their appropriate allowable design values, and those existing configurations of materials specified herein, may be utilized to meet the requirements of this Chapter. B. Existing Materials. All existing materials utilized as part of the required force resisting system shall be in sound condition or shall be repaired or removed and replaced with new material. C. Existing Unreinforced Masonry 1. General. All unreinforced masonry walls utilized to carry vertical loads or seismic forces parallel and perpendicular to the wall plane shall be tested as specified in this subsection. All masonry that does not meet the minimum standards established by this Chapter shall be removed and replaced with new materials or alternatively shall have its structural functions replaced by new materials and shall be anchored to supporting elements. 2. Lay -Up of Walls. 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 into the backing. The clear distance between adjacent full-length headers shall not exceed 24 inches vertically or horizontally. Where the 1 3 4 5 G 8' 9 10 11 12 13 14 15 16 li 18 19 20 21 22 23 24 2J 26 27 28 Ordinance No. 1059 Page 8 backing consists of two or more wythes, the headers shall extend not less than 4 inches into the most -distant wythe or the backing. wythes shall be bonded together with separate headers whose area and spacing conform to the foregoing. Wythes of walls not bonded as described above shall be considered as veneer. A veneer wythe shall not be included in the effective thickness used in calculating the height to thickness ratio and the shear capacity of the wall. 3. Mortar a) Tests. The quality of mortar in all masonry walls shall be\determined by performing. in-place shear tests in accordance with UBC Standard 24-40. Alternative methods of testing may be approved by the Building Official. b) Location of Tests. The shear tests shall be taken at locations representative of the mortar conditions throughout the entire building, taking into account variations in workmanship at different building height levels, variations in weathering of the exterior surfaces, and variations in the condition of the interior surfaces due to deterioration caused by leaks and condensation of water and/or by the deleterious effects of other substances contained within the building. The exact test location shall be determined at the building site by the licensed engineer responsible for the structural design analysis of the building. An accurate record of all such tests and their location in the building shall be recorded and these results shall be submitted to the building department for approval as part of the structural analysis. C) Number of tests. The minimum number of tests shall be as follows: (i) 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. (ii) In any case, not less than one test per 1500 square feet of wall surface nor less than a total of eight tests. 1 V 3 4 5� G 8 9 10 11 12 13 14 15 16 17 18 1� 2( 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 9 d) Minimum Quality Mortar. (.i) Mortar shear test values, Vto, in psi shall be obtained. for each in-place shear test in accordance with the following equation: vto - (Vtest- pp+L)/Ab................. (06-1) (ii) Individual unreinforced masonry walls with Vconsistently less than 30 psi shall be entirely pointed prior to retesting. (iii), The mortar shear strength, v , is the value in psi that is exceeded by 80% of all of t e mortar shear test values, vto. (iv) Unreinforced masonry with mortar shear strength, vt, less than 30 psi shall be removed or pointed and retested. e) Collar Joints. The collar joints shall be inspected at the test locations during each in-place shear test, and estimates of the percentage of the surfaces of adjacent wythes which are covered with mortar shall be reported along with the results of the in-place shear tests. f) Unreinforced Masonry Classes. All existing unreinforced masonry shall be categorized into one or more classes based on shear strength, quality of construction, state of repair, deterioration, and weathering. A class shall be characterized by the allowable masonry shear stress determined in accordance with Section A8908B. Classes shall be defined for whole walls, not for small areas of masonry within a wall. g) Pointing. All deteriorated mortar joints in unreinforced masonry walls shall be pointed according to UBC Standard 24-42. Nothing shall prevent pointing with mortar of all the masonry wall joints before the tests are made. A8907 QUALITY CONTROL A. Pointing. All preparation and mortar pointing shall be performed with special inspection. 1 3 4 5 6 8 9 10 11 121 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 10 Exception: At the discretion_ of the Building Official, incidental pointing may -be .performed without special inspection. B. Masonry Shear Tests. In-place masonry shear tests shall comply with UBC Standard 24-40. C. Existing Wall Anchors. Existing wall anchors utilized as all or part of the required tension anchors shall be tested in pullout according to UBC Standard 24- 41. The minimum number of anchors tested shall be four per floor, with two tests at walls with joists framing into the wall apd two tests at walls with joists parallel to the wall, but not less than ten percent of the total number of existing tension anchors at each level. D. New Bolts. One-fourth of all new shear bolts and combined tension and shear bolts in unreinforced masonry walls shall be tested according to UBC Standard 24-41. Exception. Special inspection may be provided during installation in lieu of testing. A8908 ALLOWABLE DESIGN VALUES A. Allowable Values. 1. Allowable values for existing materials are given in Table Al -C and for new materials in Table Al -D. 2. Allowable values not specified in this Chapter shall be as specified elsewhere in the UBC. B. Masonry Shear. The allowable unreinforced masonry shear stress, va, shall be determined for each masonry class from the following equation: v = 0. lvt + 0. 15PD/A.......................... (08-1) The mortar shear test value, vt, shall be determined in accordance with Section A8906.C., and not exceed 100 psi for the determination of va. The one-third increase in allowable values of the UBC is not allowed for va. 1 �i 3 4 5 G 8 9 10! 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 11 C. Masonry Compression. Where any increase in dead plus live compression stress occurs, the allowable compression stress in unreinforced masonry shall not exceed 100 psi. The one-third increase in allowable stress of the UBC is allowed. D. Masonry Tension. Unreinforced masonry shall be assumed as having no tensile capacity. E. Ma*onry Shear Modulus. The shear modulus (Ev) for unreinforced masonry, for relative rigidity analyses when masonry is used to resist lateral forces in combination with other materials, may be assumed as 10,000vt, unless substantiated by tests. F. Existing Tension Anchors. T h e a 11 o w a b l e resistance values of the existing anchors shall be 40 percent of the average of the tension tests of existing anchors having the saire wall thickness and joist orientation. The one-third increase in allowable stress of the UBC is not allowed for existing tension anchors. G. Foundations. For existing foundations new total dead load may be increased over existing dead load by 25 percent. New total dead load plus live load plus seismic may be increased over existing dead load plus live load by 50 percent. Higher values may be justified only in conjunction with a geotechnical investigation. A8909 ANALYSIS AND DESIGN A. General. Except as modified herein, the analysis and design relating to the structural alteration of existing buildings shall be in accordance with the UBC. The elements of buildings required to be analyzed by this Chapter shall be as specified in Table No. Al -H. B. Selection of Procedure. Buildings shall be analyzed by the General Procedure of Section A8909C which is based on Chapter 23 of the UBC or, when applicable, buildings may be analyzed by the Special Procedure of A8909D. C. General Procedure. 1. Minimum Design Lateral Forces. Buildings shall be analyzed to resist minimum lateral forces 1 V 3 4 5 G 8 9 10 11 12 13 14 -15 16 li 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 12 assumed to act concurrently in the direction of each of the main axes of the structure in accordance with the following: V= 0.33ZW..........................(09-1) 2. Lateral Forces on Elements of Structures., Parts or portions of structures shall be analyzed as required in Chapter 23 of the Building code. Exceptions: a) Unre nforced masonry walls for which height to thickness ratios do not exceed ratios set forth in Table No. Al -B need not be analyzed for out -of - plane loading. Unreinforced masonry walls which exceed the allowable h/t ratios of Table No. Al -B shall be braced according to Section A8910E. b) Parapets complying with Section A8910F need not be analyzed for out -of -plane loading. 3. Shear Walls (In -plan Loading). Shear walls shall comply with subsection A8909E. D. Special Procedure. 1. Limits for the application of Subsection A8909D. The Special Procedure of this subsection may only be applied to buildings with the following characteristics: a) Flexible diaphragms at all levels above the base of structure. b) A maximum of 2 stories above the base of the building. C) The vertical elements of the lateral force resisting system shall consist predominantly of masonry or concrete shear walls. d) New vertical elements of the lateral force resisting system consisting of steel .braced frames or special moment resisting frames shall have a maximum overall height -to -length ratio of 1.5 to 1. 1 3 4 5 G 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 2- 26 27 28 Ordinance No. 1059 Page 13 . e) A minimum of two lines of vertical elements of the lateral force resisting system parallel to.each axis of the building except for single story buildings with an open front on one side only. (See A8909D.8. for open front buildings.) 2. Lateral Forces on Elements of Structures., With the exception of the diaphragm provisions in subsection A8909D., elements of structures shall comply with subsection A8909C.2. 3. Crosswalls. Crosswalls shall meet the requirements of this subsection. a) Crosswall Definition. A crosswall is a wood - framed wall sheathed with any of the materials described in Tables No. AI -C or Al -D. Spacing of crosswalls shall not exceed 40 feet 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. Exception: i) Crosswalls need not be provided at all levels in accordance with subsection A8909D 4b. (iv). ii) Existing crosswalls need not be continuous below a wood diaphragm at/or within four feet of grade provided: a) Shear connections and anchorage requirements Section A8909D.5. are satisfied at all edges of the diaphragm. b) Crosswalls with total shear capacity of .07 EWd interconnect the diaphragm to the foundation. C) The demand/capacity ratio of the diaphragm between the crosswalls that are continuous to their foundations shall be calculated as: DCR = ( 0. 83Wd+Vca)/2vuD........ (09-2) and DCR shall not exceed 2.5. 1 3 4 5 G' 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 14 b) Crosswall Shear Capacity. Within any 40 feet measured along the span of the diaphragm, the sum of the crosswall shear capacities shall be at least 30 percent of the diaphragm shear capacity of the strongest diaphragm at or above the level under consideration. C) Existing Crosswalls. Existing crosswalls shall have a length to height ratio between openings of not less than 1.5. Existing crosswall connections to diaphragms need not be investigated as long as the crosswall extends to the framing of the diaphragm above and below. d) New Crosswalls. New crosswall connections to the diaphragm shall develop the crosswall shear capacity. New crosswalls shall have the capacity to resist an overturning moments equal to the crosswall shear capacity times the story height. Crosswall overturning moments need 'not be cumulative over more than two stories. e) Other Crosswall Systems. Other systems such as special moment resisting frames may be used as crosswalls provided that the yield story drift does not exceed one inch in any story. 4. Wood Diaphragms. a) Acceptable Diaphragm Span. A diaphragm is acceptable if the point (L,DCR) on Figure Al -1 falls within Regions 1, 2, or 3. b) Demand -Capacity Ratios. Demand -Capacity Ratios shall be calculated for the diaphragm according to the following formulas: (i) For a diaphragm without qualifying crosswalls at levels immediately above or below: DCR = 0.83ZWd/E VUD............ (09-3) (ii) For a diaphragm in a single -story building with qualifying crosswalls: DCR = 0. 8 3 ZWd/ (Z VUD + Vcb) .... ( 09-4) (iii) For diaphragms in a multi -story building 1 3 4 5 G 9 10 11 12 13 14 15 16 17 18 19 20; 21 22 23 24 25 26 -- 27 28 Ordinance No. 1059 Page 15 with qualifying crosswalls in all levels: DCR = 0.83 ZEWd/ (EEvuD + Vcb) .... (09-5) DCR shall be calculated at each level for the set of diaphragms at and above the level under consideration. (iv) For a roof diaphragm and the diaphragm directly below if coupled by crosswalls: DCR= 0. 83ZEWd/EEvuD........... (09-6) C) Chords. An analysis for diaphragm flexure need not be made and chords need not be.provided. d) Collectors. An analysis shall of diaphragm collector forces shall be made for the transfer of diaphragm edge shears into vertical elements of the lateral force resisting system. Collector forces may be resisted by new or existing elements. e) Diaphragm Openings. (i) Diaphragm forces at corners of openings shall be investigated and shall be developed into the diaphragm by new or existing materials. (ii) In addition to calculating demand capacity ratios per Section A8909D.4b), the demand capacity ratio of the portion of the diaphragm adjacent to an opening shall be calculated using the opening dimension as the span. (iii) Where an opening occurs in the end quarter of the diaphragm span vuD for the demand capacity ratio calculation shall be based on the net depth of the diaphragm. 5. Diaphragm Shear Transfer. Diaphragms shall be connected to shear walls with connections capable of developing minimum force given by the lesser of the following formulas: 703 -ii V= . 5ZCpWd.................... (09-7) V = VUD ........................(09-8) 1 3 4 5 G 8 9 10 111 12 13 14 15l 16 17 18 A 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 16 • .6. Shear Walls (In Plane Loading) - Special Procedure. a) Wall Story Force. The wall story distributed to a shear wall at any diaphragm level shall be the lesser value calculated as: (i) For buildings without crosswalls, FWX = 0. 3 3 Z (WWX + Wd/ 2) .............. (09-9) but need not exceed R \FWX = 0.33ZWWX + VUD................. (09-10) For buildings with crosswalls in all levels: FWX = 0.2 5 Z (WWX+Wd/ 2 ) ................ (09-11) but need not exceed FWX = 0.25Z (WWX + EWd (vuD/EEvuD) ) .... (09-12) and need not exceed FWX = 0.25ZWWX + vUD................. (09-13) b) Wall Story Shear. The wall story shear shall be the sum of the wall story forces at and above the level of consideration. VWX=EFWX0 ......................... (09-14) C) Shear Wall Analysis. Shear walls shall comply with subsection A8909E. d) Moment Frames. Moment frames used in place of shear walls shall be designed as required in Chapter 23 of the Building Code except that the forces shall be as specified in Section A8909D.6a) and the interstory drift ratio shall be limited to 0.005. 7. Out of Plane Forces - URM Walls. a) Allowable URM Wall Height to Thickness' Ratios. The provisions of Section A8909C.2. are applicable except 1 3 4 5 6 8 9 10 11 12 13 14 15 16 17 18 19 20I21 22 23 24 25 26 271 281 ordinance No. 1059 Page 17 the allowable h/t ratios given in Table Al -B shall be determined from Figure Al -1 as follows: - (i) In Region 1, h/t ratios for "buildings with crosswalls" may be used if qualifying crosswalls are present in all stories. (ii) In Region 2, h/t ratios for "buildings with crosswalls" may be used whether or not qualifying crosswalls are present. (iii) In Rection 3, h/t ratios for "all other buildings" shall be used whether or not qualifying crosswalls are present. b) Walls with Diaphragms in Different Regions. When diaphragms above and below the wall under consideration have DCRs in different regions of Figure Al -1, the lesser h/t ratio shall be used. 8. Buildings with Open Fronts. A building with an open front on one side shall have crosswalls parallel to the open front and shall be designed by the following procedure: a) Effective Diaphragm Span, L,, for use in Figure No. A1-1 shall be determined in accordance with the following formula: Li = 2 ( (Ww/Wd) L + L] ............. (09-15) b) Diaphragm Demand/capacity ratio shall be calculated as: DCR = 0.83Z (Wd + Ww) / ( (v, D) + Vc] ... (09-16) E. Analysis of Vertical Elements of the Lateral Force - Resisting System. Applicable to both General Procedure and Special Procedure Buildings. 1. Existing URM Walls. a) Flexural Rigidity. Flexural rigidity may be neglected in determining the rigidity of an URM wall. b) Shear Walls with Openings. Wall piers shall be analyzed according to the following procedure: 4 5 G 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 2( 21 2�, Ordinance No. 1059 Page 18 (i) For any pier, (a) The pier shear capacity. shall be calculated as: Va=vaDt................. (09-17) (b) The pier rocking shear capacity shall be calculated as: Vr = 0. 5PDD/H................ (09-18) (ii) The wall piers at any level are acceptable if they comply with one of the following modes of behavior: (a) Rocking Controlled Mode. When the pier rocking shear capacity is less than the pier shear capacity, i.e. Yr < Va for each pier do a level, forces in the wall at that level, V , shall be distributed to each pier, VP, in proportion to Po/H. For the wall at that level: Vwx < Vr.............. (09-19) (b) Shear Controlled Mode. Where the pier shear capacity is less than the pier rocking capacity, i.e. Va < Vr in at least one pier in a level, Vwx, shall be distributed to each pier, Vp, in proportion to D/H. For each pier at that level: VP < Va* o o 4 * 6 * o o 6 o o o - o o (09-20) and VP < Vr.................. (09-21) If VP < Va for each pier and VP > Vr for one or more piers, omit such piers from the analysis and repeat the procedure for the remaining piers or strengthen and reanalyze the wall. (iii) Masonry Pier Tension Stress. Unreinforced masonry wall piers need not be analyzed for tension stress. 1 3 4 5 6 %I 81I 6 10 11 12 13 14 15 16 li 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 19 C) Shear Wall Without Openings. Shear walls without openings shall be analyzed as for walls with openings except. that Vr shall be calculated as follows: V = (0. 50Pp + 0.25Pw) D/H...... (09-22) 2. Plywood sheathed shear walls. Plywood sheathed shear walls may be used to resist lateral loads for buildings with flexible diaphragms analyzed according to provisions of Section A8909C. Plywood sheathed shear walls may not be used to share lateral with other materials along the same line of resistance. 3. Combinations of Vertical Elements. a) Lateral Force Distribution. Lateral forces shall be. distributed among the vertical resisting elements in proportion to their relative rigidities, except that moment frames shall comply with Section A8909E.3.b). b) Moment Resisting Frames. A moment frame shall not be used with a URM wall in a single line of resistance unless the wall has piers that are capable of sustaining rocking in accordance with A8909E.1b) and the frames are designed to carry 100% of the lateral forces and the interstory drift ratio shall be limited to 0.0025. A8910 DETAILED SYSTEM DESIGN REQUIREMENTS A. Wall Anchorage. 1. Anchor Locations. All unreinforced masonry walls shall be anchored at the roof and floor levels as required in Section A8909C.2. Ceiling with substantial rigidity and abutting masonry walls shall be connected to walls with tension bolts at a maximum anchor spacing of 6 feet. Ceiling systems with substantial mass shall be braced at the ceiling perimeter to the roof or floor diaphragms. 2. Anchor Requirements. Anchors shall be tension bolts through the wall as specified in Table No. Al -D, or by an approved equivalent at a maximum anchor spacing of 6 feet. All existing wall anchors shall be secured to the joists to develop the required forces. 1 0 V 3 4 5 6 7 8 0 10 11 12 13 14 15 16 17 18 H 2a 21 22 23 24 25 26 271 281 Ordinance No. 1059 Page 20 The Building Official may require testing to verify the adequacy of the embedded ends of existing -wall anchors. 3. Minimum Wall Anchorage. Anchorage of masonry walls to each floor or roof shall resist a minimum force determined by Section 2312(g)2 of the UBC or 200 pounds per linear foot, whichever is greater, acting normal to the wall at the level of the floor or roof. Existing wall anchors, installed under previous permits, must meet or must be upgraded to meet the requirements of this Chapter. 4. Anchnrs at Corners. At the roof and all floor levels both shear and tension anchors shall be provided within two feet horizontally from the inside of the corners of the walls. 5. Anchors with Limited Access. When access to the exterior face of the masonry wall is prevented by proximity of an existing building or if architectural conditions warrant them, wall anchors conforming to Items 4 and 5b in Table No. Al -D may be used. (See footnote 6 of Table Al -D for an alternative system). B. Diaphragm Shear Transfer. Shear bolt spacing shall have a maximum bolt spacing of 6 feet. C. Collectors. Collector elements shall be provided which are capable of transferring the seismic forces originating in other portions of the building to the element providing the resistance to those forces. D. Ties and Continuity. Ties and continuity shall conform to Section 2312(h)2E of the UBC. E. Wall Bracing. 1. General. Where a wall height -thickness ratio exceeds the specified limits, the wall may be laterally supported by vertical bracing members per Section A8910E.2. or by reducing the wall height by bracing per Section A8910E.3. 2. Vertical Bracing Members. Vertical bracing members shall be attached to floor and roof construction for their design loads independently of required wall anchors. Horizontal spacing of vertical bracing members 1 V 3 4 5 6' 8 9 10 11 12 13 14 15 16 17 18 19 20 21 i 22' 23 24 25 26 _ 27 28 Ordinance No. 1059 Page 21 shall not exceed one-half the unsupported height of the wall nor 10 feet. Deflection of such bracing members at design loads shall not exceed one-tenth of the wall thickness. 3. Intermediate Wall Bracing. The wall height may be by bracing elements connected to the floor or roof. Horizontal spacing of the bracing element's and wall anchors shall be as required by design but shall not exceed 6 feet on center. Bracing elements shall be detailed to minimize the horizontal displacement of the wall by the vertical displacement of the floor or roof. F. Parapets. ",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 position. The maximum height, of an unbraced unreinforced masonry parapet above the lower of either the level of the tension anchors or roof sheathing, shall not exceed one and one-half (1.5) times the thickness of the parapet wall If the required parapet height exceeds this maximum height, a bracing system designed for the force factors specified in Table 23-P of the Building Code for walls shall support the top of the parapet. Parapet corrective work must be performed in conjunction with the installation tension roof anchors. The minimum height of a parapet above the wall anchor shall be 12 inches. 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. G. Veneer. 1. Unreinforced masonry walls which carry no design loads other than their own weight may be considered as veneer if they are adequately anchored to new supporting elements. 2. Veneer shall be anchored with approved anchor ties, conforming to the required design capacity specified in the UBC and placed at a maximum spacing of 24 inches with a maximum supported area of 2 square feet. 1 19 3 4 5 6 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 -- 27 28 Ordinance No. 1059 Page 22 EXCEPTION: Existing veneer anchor ties may be acceptable provided the ties are in good.condition and conform to the following minimum size, maximum spacing and material requirements. Existing veneer anchor ties shall be corrugated galvanized iron strips not less than one inch in width, eight inches in length and one -sixteenth of an inch in thickness (1" X 8" X 1/1611) or equal and shall be located and laid in every alternate course in the vertical height of the wall at a spacing not to exceed 17 inches on centers horizontally. As an alternate, such ties may be laid in every fourth course vertically at a spacing not to exceed 9 inches on centers horizontally. 3. The location and condition of existing veneer anchor ties shall be verified as follows: a) 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 a part of the structural analysis. b) 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. H. Truss and Beam Supports. 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. The loads shall be transmitted down to adequate support. . Adjacent Buildings. 1. Where elements of adjacent buildings do not have a separation of at least 5 inches, the allowable height/thickness ratios for "buildings with crosswalls" per Table Al -B shall not be used in the direction of consideration. 2. Where an exterior URM bearing wall does not have a separation of at least 5 inches and the diaphragm levels of the adjoining structures differ by more than one and one-half times the wall thickness, supplemental vertical gravity load carrying members shall be added to 1 91 3 4 5 G 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 271 281 Ordinance No. 1059 Page 23 support the loads normally carried by the wall and such members shall not be attached to the wall. The loads shall be transmitted down to the foundation. A8911 ADMINISTRATIVE PROVISIONS A. Definitions. The following definitions shall apply to Section A8911 as follows: VERY HIGH RISK BUILDING is any building, other than an essential or hazardous building, having an occupant load of 100 occupants or more as determined by. Section 3302 (a) of UBC. HIGH RISK BUILDING is any building, not classified as a very high risk building, having an occupant load as determined by Section 3302(a) of the UBC of 99 occupants to 20 occupants. MODERATE RISK BUILDING is any building, other than an essential or hazardous building, having an occupant load as determined by Section 3302a of the UBC of less than 20 occupants. B. Rating classifications. 1. The hazard rating classifications identified in Section A8911A. and on Table Al -E are hereby established and each building within the scope of this Chapter shall be placed in one such rating classification by the Building Official. The total occupant load of the entire building as determined by Section 3302(a) of the UBC shall be used to determine the rating classification. Exception: For purposes of this Chapter, portions of buildings constructed to act independently when resisting seismic forces, and having required exits with independent travel paths, may be placed in separate rating classifications. 2. Buildings placed in a particular hazardous rating classification may be changed to a lesser hazardous rating if corrective repairs are undertaken and accomplished. Hazardous rating may also be changed when competent engineering data is submitted substantiating such a change. Such data may consist of analytical V 3 4 5 G 7i 8 9 10 11 12 13 14 15 16 li 18 19 20 21 22 23 24 25 26 27 28 Ordinance No. 1059 Page 24 assessments, tests, data substantiating a higher capacity ratio or a modification of use or occupancy potential. Corrective repair plans and/or data substantiating a change in hazardous rating shall be prepared by a structural or civil engineer or architect licensed under the laws of the state to practice said profession. Partial repair designed to correct or strengthen individual and/or critical elements of a building will be permitted pursuant to Table Al -G provided a suitable plan indicating the method of total and eventual correction is submitted and the method of eventual correction is approved and installed. Buildings so repaired will be regarded reflecting repairs so accomplished. 3. Complete repair and removal from any hazardous rating classification will be deemed to have been accomplished when the building has been repaired in accordance with this Chapter. 4. Special and Intermediate Hazards. In addition to evaluation of the primary structural systems, any structural or non-structural element of the building, including parapets, ornamentation or other appendages attached to the building or any structural or non- structural architectural, mechanical or electrical system that is determined by reason of lack of attachment, anchorage or condition to become dangerous to persons in the building or in the vicinity will be classed as an immediate hazard. Any immediate hazard identified in buildings classified as very high or high risk buildings shall be treated under the procedures established by the Uniform Code for the Abatement of Dangerous Buildings. C Compliance Requirements. 1. The owner of each building within the scope of this Chapter shall, upon service of an order and within the time limits set forth in this Chapter, cause a structural analysis to be made of the building by an engineer or architect licensed by the state to practice as such with experience in rehabilitation of unreinforced masonry structures and, if the building does not comply with earthquake standards specified in this Chapter, the owner shall cause it to be structurally altered to conform to such standards or shall cause the building to be vacated and/or demolished as determined necessary by the Building Official. 1 V 3 4 5 G 7 8 9 10 11 12 13 14 15 16 17 18 H 2C 21 22 23' 24 25 26 271 28! Ordinance No. 1059 Page 25 As part of the design criteria, it is incumbent upon the owner and his engineer or architect to utilize materials and details of. construction which will not adversely affect the architectural appearance or historical significance of the building. Where details are visible, they shall be reviewed by the Planning Division of the Community Development Department of the City of Tustin and a Certificate of Appropriateness shall be issued for any improvements which affect the exterior condition of a building and which require a building permit. In all cases, the necessary reviews will not increase the allowable time for compliance with the order.. 2. The owner of a building within the scope of this Chapter shall comply with the requirements set forth above by submitting to the Building Official for review within the stated time limits: a) Within 270 days after service of the order, a structural analysis, which is subject to approval by the Building Official, and which shall demonstrate that the building meets the minimum requirements of this Chapter; or b) Within 270 days after service of the order, the structural analysis and plans for structural alterations of the building to comply with this Chapter; or C) Within 120 days after service of the order, plans for the installation of wall anchors in accordance with the requirements specified in Section A8910; or d) Within 270 days after service of the order, plans for the vacation or demolition of the building where demolition is authorized by the Community Development Director. 3. After plans are submitted and approved by the Building Official and Community Development Director where a Certificate of Appropriateness is first required, the owner shall obtain a building permit and then commence and complete the required construction or demolition within the time limits set forth in Table No. Al -F. These time limits shall begin to run from the date the order is served in accordance with Section A8911D.21 except that the time limit to commence structural alterations, vacation or demolition shall begin to run 1 V 3 4 5 G 7, 8 9 10 11 12 13 14 15 16 17 18 1C 2( 22 23 24 25 26 271 281 Ordinance No. 1059 Page 26 from the date the building permit is issued. 4. Owners electing to comply with Item 2c of this subsection are also required to comply with Items 2b or 2d of this subsection provided, however, that the 270 -day period provided for in Item 2b or 2d and the time limits of obtaining a building permit and to complete structural alterations or building demolition set forth in Table A1 - F shall be extended in accordance with Table No. Al -G. Each such extended time limit shall begin to run from the date the order is served in accordance with Section A8911D., except that the time limit to• commence structural alterations, vacation or demolition shall begin to run from the date the building permit is issued. 5. This Chapter does not require alteration of existing electrical, plumbing, mechanical or fire safety systems. D Administration. 1. Order - service. a) The Building Official shall, in accordance with the priorities set forth in Table No. Al -G, issue an order as provided in this section to the owner of each buildings within the scope of this Chapter. b) Prior to the service of an order as set forth in Table No. Al -G, a bulletin may be issued to the owner as shown upon the last equalized assessment roll or to the person in apparent charge or control of a building considered by the Building Official to be within the scope of this Chapter. The bulletin may contain information the Building Official deems appropriate. The bulletin may be issued by mail or in person. 2. Order - Priority of Service. Priorities for the service of the order for buildings within the scope of this Chapter shall be in accordance with the rating classification as shown on Table No. Al -G. Within each separate rating classification, the priority of the order shall normally be based upon the occupant load of the building. The owners of the buildings housing the largest occupant loads shall be served first. The minimum time period prior to the service of the order as shown on Table No. Al -G shall be measured from the 9 3 4 5 6. 8 J 10 11 12 13 14 15 16 17 18 1c 2( 21 22 23 24 25 26! 27 28 Ordinance No. 1059 Page 27 effective date of this Chapter. The Building Official may, upon receipt of a written request from the owner, order such owner to bring his building into compliance with this Chapter prior to the normal service date for such building set forth in this Chapter. 3. Order - Contents. The order shall be. in writing and shall be served by certified or registered mail upon the owner a shown on the last equalized assessment roll. The order shall specify that the building has been determined by the Building Official to be within the scope.of this Chapter and, therefore, is required to meet the minimum seismic standards of this Chapter. The order shall specify the rating classification of the building, a procedure to be followed if the owner is in disagreement with the hazard rating classification and that the rating will be recorded with the County Recorder with the County Recorder after 60 days unless a change in grade has been approved by the Building Official pursuant to Section A8911B, and information which sets forth the owner's alternatives and time limits for compliance under this Chapter. 4. Appeal from Order. The owner of the building may appeal the Building Official's initial determination that the building is within the scope of this Chapter to the Board of Appeals established by Section 204 of the UBC. Such appeal shall be filed with the Board within 30 days from the service date of the order described in Section A8911D. Any such appeal shall be decided by the Board not less than 10 days nor more than 60 days after writing and the grounds thereof shall be stated clearly and concisely. The form, processing and schedule of appeals shall be handled consistent with Section 501 of the Uniform Code for the Abatement of Dangerous Buildings. Other requests for modifications from any other determinations, orders or actions by the Building Official pursuant to this Chapter shall be made in accordance with the procedures established in Sections 105 and 106 of the UBC. 5. Recordation. Upon expiration of a sixty day period after the Building Official serves the aforementioned order pursuant to Subsection D1 and if such hazard rating has not been changed, the Building Official shall file with the office of the County 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 2G 27 2� Ordinance No. 1059 Page 28 Recorder a certificate stating that the subject building is within the scope of this Chapter and is a.potentially earthquake hazardous building. The certificate shall also state that the owner thereof has been ordered to structurally analyze the building and to structurally alter or demolish it where compliance with this Chapter has not been demonstrated. If the building is either demolished as approved by the Building Official, found not to be within the scope of this Chapter, or is structurally capable of resisting minimum seismic forces required by this Chapter as a result of structural alterations or an analysis, the Building Official shall file with the office of the County Recorder a form terminating the status of the subject building as being classified within the scope of this Chapter. 6. Enforcement. If the owner in charge or in control of the subject building fails to comply with any order issued by the Building Officials pursuant to this Chapter within any of the time limits set forth in Section A8911C, the Building Official shall verify that the record owner of this building has been properly served. If the order has been served on the record owner, then the Building Official shall order that the entire building be vacated and that the building remain vacated until such order has been complied with. If compliance with such order has not been accomplished within 90 days after the date the building has been ordered vacated or such additional time as may have been granted by the Board of Appeals, the Building Official may order its demolition in accordance with the provisions of Section 203 of the Building Code. In any event, no permit for demolition shall be issued without approval of the Director of Community Development. PASSED AND ADOPTED at a regular meeting of the Tustin City Council held on the day of 1991. MARY WYNN City Clerk RICHARD EDGAR Mayor CAS:kbc/quake. ord TABLE NO. Al -A HORIZONTAL FORCE FACTOR CP CONFIGURATION OF MATERIALS CP Roofs with straight or diagonal sheathing 0.5 and roofing applied directly to the sheathing, or floors with straight tongue and groove sheathing. Diaphragms with double or multiple layers of boards with edges offset and blocked plywood systems. 0.75 RPM TABLE NO. Al -B ALLOWABLE VALUE OF HEIGHT -THICKNESS RATIO OF UNREINFORCED MASONRY WALLS Wall Types Buildings with Crosswallsi All Other Buildings Walls of one-story 16 2,3 13 buildings First -story wall 16 15 of multi -story building Walls in top story 14 2,3 9 of two-story buildings 1 Applies to the Special Procedures of Section A8909D. only. See Section A8909D.7. for other restrictions. 2 This value of height -to -thickness ratio may be used only where mortar shear tests in accordance with Section A8906 establish a tested mortar shear strength, vt, of not less than 100 psi or where the tested mortar shear strength, vt, is not less than 60psi and a visual examination of the collar joint indicates not less than 50% mortar coverage. 3 Where a visual examination of the collar joint indicates not less than 50% mortar coverage and the tested mortar shear strength, vt, when established in accordance with Sections A8906 is greater than 30 psi but less than 60 psi, 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, vt. 30 TABLE NO. Al -C AT.MWABLE VALUES FOR EXISTING MATERIALS EXISTING MATERIALS OR CONFIGURATIONS OF MATERIALS ALLOWABLE VALUES 1. HORIZONTAL DIAPHRAGMS a. Roofs with straight 100 lbs. per foot sheathing and roofing for seismic shear applied directly to the sheathing. b. Roofs with diagonal 250 lbs. per foot sheathing and roofing for seismic shear applied directly to the sheathing. C. Floors with straight 100 lbs. per foot tongue -and -groove for seismic shear sheathing. d. Floors with straight 500 lbs. per foot sheathing and finished for seismic shear wood flooring with board edges offset or perpendicular. e. Floors with diagonal 600 lbs. per foot sheathing and finished for seismic shear wood flooring. 2. CROSSWALLS a. Plaster on wood or metal Per side: 200 lbs. lath. per foot for seismic shear b. Plaster on gypsum lath. 175 lbs. per foot for seismic shear C. Gypsum wall board, 75 lbs. per foot unblocked edges. for seismic shear d. Gypsum wall board, blocked 125 lbs. per foot edges. for seismic shear 31 TABLE NO. Al -C ALLOWABLE VALUES FOR EXISTING MATERIALS (Cont.) EXISTING MATERIALS OR CONFIGURATIONS OF MATERIALS ALLOWABLE VALUES 3. EXISTING FOOTINGS, WOOD FRAMING, STRUCTURAL STEEL, AND REINFORCING STEEL a. Plain concrete footings f'c = 1500 psi unless tests 3 otherwise shown by b. Douglas fir wood Allowable stress same as No. 1 D.F. C. Reinforcing steel ft = 18,000 lbs. per square inch maximum 3 d. Structural Steel ft = 20,000 lbs. per square inch maximum 3 1 Material must be sound and in good condition. 2 Shear values of these materials may be combined, except the total combined value shall not exceed 300 lbs. per foot. 3 Stresses given may be increased for combinations of loads as specified in the Building Code. 4 A one-third increase in allowable stress is not allowed. 32 TABLE NO. Al -D4 ALLOWABLE VALUES OF NEW MATERIALS USED IN CONJUNCTION WITH EXISTING CONSTRUCTION NEW MATERIALS OR CONFIGURATIONS OF MATERIALS ALLOWABLE VALUES 1. HORIZONTAL DIAPHRAGMS Plywood sheathing applied 225 lbs. per foot directly over existing straight sheathing with ends plywood sheets bearing on joists or rafters and edges of plywood located on center of individual sheathing boards. 2. CROSSWALLS4 a. Plywood sheathing applied The value specified directly over wood studs. in Table No. 25-K-1 No value shall be given to of the UBC for shear plywood applied over walls. existing plaster or wood sheathing. b. Drywall or plaster applied 100 percent of the directly over wood studs. values in Table No. 47-I of the UBC. C. Drywall or plaster applied Add to the sheathing to sheathing over existing allowable values 50 wood studs. percent of the values specified in Table No. 47-I of the UBC. 33 TABLE NO. Al -D ALLOWABLE VALUES OF NEW MATERIAL USED IN CONJUNCTION WITH EXISTING CONSTRUCTION (CONTINUED) 34 NEW MATERIALS OR CONFIGURATIONS OF MATERIALS ALLOWABLE VALUES 3. TENSION BOLTS Bolts extending entirely through 1800 lbs. per bolt. unreinforced masonry walls secured with bearing plates on 900 lbs. for 2 wythe far side of a 3 wythe minimum walls. wall with at least 30 square inches of area. 4. SHEAR BOLTS 4 Bolts embedded a minimum of 8 133 per of the inches into unreinforced masonry values for plain walls. Bolts shall be centered masonry specified for in 2-1/2 inch- diameter hole solid masonry in Table with the dry -pack or non -shrink 24-E of the UBC. No grout around circumference of values larger than bolt. 1.3 those given for 3/4 inch bolts shall be used. 5. COMBINED TENSION AND SHEAR BOLTS a. Through Bolts - Combined Shear Tension: Same as for and Tension tension bolts. Shear: Same as for Bolts meeting the above shear bolts requirements for tension bolts and shear bolts. 1.2,3 b. Embedded Bolts - Combined Shear Tension: 1200 lbs. and Tension per bolt. Shear: Same as for Bolts extending to the exterior shear bolts. face of the wall with a 2 1/2 inch round plate under the head and drilled at an angle of 22- 1/2 degrees to the horizontal. Installed as specified for shear bolts. 1.2,3 34 TABLE NO. Al -D ALLOWABLE VALUES OF NEW MATERIALS USED IN CONJUNCTION WITH EXISTING CONSTRUCTION (continued) NEW MATERIALS OR CONFIGURATION OF MATERIALS ALLOWABLE VALUES 6. INFILLED WALLS4 Reinforced masonry infilled Same as values specified openings in existing for the adjacent unreinforced masonry walls. unreinforced masonry Provide keys or dowels to walls. match reinforcing. 7. REINFORCED MASONRY Masonry piers and walls Same as values specified reinforced per Chapter 24. in Section 2409. 8. REINFORCED CONCRETE Concrete footings, walls and Same as values specified piers reinforced as in Chapter 26 of the UBC.S specified in Chapter 26 of the UBC and designed for tributary loads. 1 Bolts to be tested as specified in Section A8907. 2 Bolts to be 1/2 -inch minimum in diameter. 3 Drilling for bolts and dowels shall be done with an electric rotary drill. Impact tools shall not be used for drilling holes or tightening anchors and shear bolt nuts. 4 A one-third increase in allowable stress is not allowed. 5 Stresses given may be increased for combinations of loads as specified in the UBC. 6 ICBG approved anchors installed in accordance with the approval and the manufacturer's recommendation may be used in lieu of the system shown. 35 TABLE NO. Al -E RATING CLASSIFICATIONS TYPE OF BUILDING Very High -Risk Building High -Risk Building Moderate Risk Building CLASSIFICATION TABLE NO. Al -F TIME LIMITS FOR COMPLIANCE Required Action Obtain Commence Complete By Owner Building Construction Construction Permit Within Within2 Within2 Structural 1 year 180 days 3 years Alterations or Building Demolition 180 days 270 days 1 year Wall Anchors 1 Measured from date of service of order. 2 Measured from date of building permit issuance. 36 TABLE Al -G EXTENSIONS OF TIME AND SERVICE PRIORITIES Rating Occupant Load Extension of Time Periods for classification if Wall Anchors Service of are Installed Order I 100 or more 1 year 180 days II Less than 100 1 year 2 years to 20 III Less than 20 1 year 3 years 37 TABLE NO. Al -H ELEMENTS REGULATED BY THIS CHAPTER BUILDING ELEMENTS SEISMIC ZONE -4 Parapets Walls, Anchorage Walls, h/t Ratios Walls, In -Plane Shear Diaphragms Diaphragms, Shear Transfer2 Diaphragms, Demand -Capacity Ratios2 Elements of Structures Nonstructural Components ./ Applies only to buildings designed according to the General Procedures of Section A8909C. 2 Applies only to buildings designed according to the Special Procedures of Section A8909D.