NY StateExistingBuildingCode 2020
$46.58
Existing Building Code of New York State
| Published By | Publication Date | Number of Pages |
| NY | 2020 | 323 |
This is a fully integrated custom code based on the 2018 International Existing Building Code.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | 2020 EXISTING BUILDING CODE OF NEW YORK STATE |
| 2 | 2020 EXISTING BUILDING CODE OF NEW YORK STATE TITLE PAGE |
| 3 | COPYRIGHT |
| 4 | ACKNOWLEDGMENTS |
| 6 | PREFACE |
| 8 | EFFECTIVE USE OF THE EXISTING BUILDING CODE OF NEW YORK STATE |
| 14 | TABLE OF CONTENTS |
| 18 | [NY] CHAPTER 1 SCOPE AND ADMINISTRATION [NY] SECTION 101 TITLE, SCOPE AND PURPOSE |
| 19 | [NY] SECTION 102 APPLICABILITY |
| 20 | [NY] SECTION 103 ADMINISTRATION AND ENFORCEMENT |
| 21 | [NY] SECTION 104 MATERIALS, EQUIPMENT AND METHODS OF CONSTRUCTION [NY] SECTION 105 BUILDING PERMITS, CONSTRUCTION INSPECTIONS, STOP WORK ORDERS, CERTIFICATES OF OCCUPANCY, AND OPERATING PERMITS |
| 23 | [NY] SECTION 106 SUBMITTAL DOCUMENTS |
| 24 | [NY] SECTION 107 SERVICE UTILITIES [NY] SECTION 108 INSPECTION OF SOLID FUEL-BURNING HEATING APPLIANCES, CHIMNEYS AND FLUES |
| 26 | CHAPTER 2 DEFINITIONS SECTION 201 GENERAL SECTION 202 GENERAL DEFINITIONS |
| 30 | CHAPTER 3 PROVISIONS FOR ALL COMPLIANCE METHODS SECTION 301 ADMINISTRATION SECTION 302 GENERAL PROVISIONS SECTION 303 STRUCTURAL DESIGN LOADS AND EVALUATION AND DESIGN PROCEDURES |
| 31 | TABLE 303.3.1 PERFORMANCE OBJECTIVES FOR USE IN ASCE 41 FOR COMPLIANCE WITH FULL SEISMIC FORCES SECTION 304 IN-SITU LOAD TESTS SECTION 305 ACCESSIBILITY FOR EXISTING BUILDINGS |
| 32 | TABLE 303.3.2 PERFORMANCE OBJECTIVES FOR USE IN ASCE 41 FOR COMPLIANCE WITH REDUCED SEISMIC FORCES |
| 33 | TABLE 305.8.5 RAMPS |
| 34 | SECTION 306 ENERGY STORAGE SYSTEMS |
| 36 | CHAPTER 4 REPAIRS SECTION 401 GENERAL SECTION 402 BUILDING ELEMENTS AND MATERIALS SECTION 403 FIRE PROTECTION SECTION 404 MEANS OF EGRESS SECTION 405 STRUCTURAL |
| 37 | SECTION 406 ELECTRICAL SECTION 407 MECHANICAL SECTION 408 PLUMBING |
| 38 | CHAPTER 5 PRESCRIPTIVE COMPLIANCE METHOD SECTION 501 GENERAL SECTION 502 ADDITIONS |
| 39 | SECTION 503 ALTERATIONS |
| 41 | SECTION 504 FIRE ESCAPES |
| 42 | SECTION 505 WINDOWS AND EMERGENCY ESCAPE OPENINGS |
| 43 | SECTION 506 CHANGE OF OCCUPANCY |
| 44 | SECTION 507 HISTORIC BUILDINGS |
| 46 | CHAPTER 6 CLASSIFICATION OF WORK SECTION 601 GENERAL SECTION 602 ALTERATIONâLEVEL 1 SECTION 603 ALTERATIONâLEVEL 2 SECTION 604 ALTERATIONâLEVEL 3 SECTION 605 CHANGE OF OCCUPANCY SECTION 606 ADDITIONS SECTION 607 HISTORIC BUILDINGS SECTION 608 RELOCATED BUILDINGS |
| 48 | CHAPTER 7 ALTERATIONSâLEVEL 1 SECTION 701 GENERAL SECTION 702 BUILDING ELEMENTS AND MATERIALS |
| 49 | SECTION 703 FIRE PROTECTION SECTION 704 MEANS OF EGRESS SECTION 705 REROOFING |
| 50 | SECTION 706 STRUCTURAL SECTION 707 ENERGY CONSERVATION [NY] SECTION 708 PLUMBING |
| 52 | CHAPTER 8 ALTERATIONSâLEVEL 2 SECTION 801 GENERAL SECTION 802 BUILDING ELEMENTS AND MATERIALS |
| 54 | SECTION 803 FIRE PROTECTION |
| 56 | SECTION 804 CARBON MONOXIDE DETECTION SECTION 805 MEANS OF EGRESS |
| 57 | [NY] TABLE 805.3.1.1(1) GROUP B, S2 OR M LOCATED ON THE LEVEL OF EXIT DISCHARGE SINGLE EXIT BUILDING |
| 58 | [NY] TABLE 805.3.1.1(2) GROUP R-2 OR R-3 SINGLE EXIT BUILDING |
| 61 | SECTION 806 STRUCTURAL |
| 62 | SECTION 807 ELECTRICAL SECTION 808 MECHANICAL SECTION 809 PLUMBING |
| 63 | SECTION 810 ENERGY CONSERVATION |
| 64 | CHAPTER 9 ALTERATIONSâLEVEL 3 SECTION 901 GENERAL SECTION 902 SPECIAL USE AND OCCUPANCY SECTION 903 BUILDING ELEMENTS AND MATERIALS SECTION 904 FIRE PROTECTION |
| 65 | SECTION 905 MEANS OF EGRESS SECTION 906 STRUCTURAL |
| 66 | SECTION 907 ENERGY CONSERVATION |
| 68 | CHAPTER 10 CHANGE OF OCCUPANCY SECTION 1001 GENERAL SECTION 1002 SPECIAL USE AND OCCUPANCY SECTION 1003 BUILDING ELEMENTS AND MATERIALS SECTION 1004 FIRE PROTECTION SECTION 1005 MEANS OF EGRESS SECTION 1006 STRUCTURAL |
| 69 | SECTION 1007 ELECTRICAL SECTION 1008 MECHANICAL SECTION 1009 PLUMBING |
| 70 | SECTION 1010 OTHER REQUIREMENTS SECTION 1011 CHANGE OF OCCUPANCY CLASSIFICATION |
| 71 | TABLE 1011.4 MEANS OF EGRESS HAZARD CATEGORIES TABLE 1011.5 HEIGHTS AND AREAS HAZARD CATEGORIES |
| 72 | TABLE 1011.6 EXPOSURE OF EXTERIOR WALLS HAZARD CATEGORIES |
| 74 | CHAPTER 11 ADDITIONS SECTION 1101 GENERAL SECTION 1102 HEIGHTS AND AREAS SECTION 1103 STRUCTURAL |
| 75 | SECTION 1104 SMOKE ALARMS IN OCCUPANCY GROUPS R AND I-1 SECTION 1105 CARBON MONOXIDE DETECTION SECTION 1106 STORM SHELTERS SECTION 1107 ENERGY CONSERVATION |
| 76 | CHAPTER 12 HISTORIC BUILDINGS SECTION 1201 GENERAL SECTION 1202 REPAIRS SECTION 1203 FIRE SAFETY |
| 77 | SECTION 1204 CHANGE OF OCCUPANCY |
| 78 | SECTION 1205 STRUCTURAL SECTION 1206 RELOCATED BUILDINGS |
| 80 | CHAPTER 13 PERFORMANCE COMPLIANCE METHODS SECTION 1301 GENERAL |
| 81 | EQUATION 13-1 EQUATION 13-2 EQUATION 13-3 |
| 82 | EQUATION 13-4 [NY] TABLE 1301.6.3 COMPARTMENTATION VALUESa TABLE 1301.6.4 SEPARATION VALUES |
| 83 | TABLE 1301.6.5 CORRIDOR WALL VALUES TABLE 1301.6.6(1) VERTICAL OPENING PROTECTION VALUE TABLE 1301.6.6(2) CONSTRUCTION-TYPE FACTOR EQUATION 13-5 |
| 84 | TABLE 1301.6.8 AUTOMATIC FIRE DETECTION VALUES TABLE 1301.6.9 FIRE ALARM SYSTEM VALUES TABLE 1301.6.10 SMOKE CONTROL VALUES |
| 85 | TABLE 1301.6.11 MEANS OF EGRESS VALUESa TABLE 1301.6.12 DEAD-END VALUES |
| 86 | EQUATION 13-6 TABLE 1301.6.14 ELEVATOR CONTROL VALUES TABLE 1301.6.15 MEANS OF EGRESS EMERGENCY LIGHTING VALUES |
| 87 | TABLE 1301.6.16 MIXED OCCUPANCY VALUESa TABLE 1301.6.17 SPRINKLER SYSTEM VALUES TABLE 1301.6.18 STANDPIPE SYSTEM VALUES |
| 88 | TABLE 1301.6.19 INCIDENTAL USE AREA VALUES TABLE 1301.6.20 SMOKE COMPARTMENTATION VALUES TABLE 1301.6.21.1 PATIENT ABILITY VALUES |
| 89 | TABLE 1301.6.21.2 PATIENT CONCENTRATION VALUES TABLE 1301.6.21.3 ATTENDANT-TO-PATIENT RATIO VALUES TABLE 1301.8 MANDATORY SAFETY SCORESa TABLE 1301.9 EVALUATION FORMULASa |
| 90 | TABLE 1301.7 SUMMARY SHEETâBUILDING CODE |
| 92 | CHAPTER 14 RELOCATED OR MOVED BUILDINGS SECTION 1401 GENERAL SECTION 1402 REQUIREMENTS |
| 94 | CHAPTER 15 CONSTRUCTION SAFEGUARDS SECTION 1501 GENERAL [BS] TABLE 1501.6 PROTECTION OF PEDESTRIANS |
| 95 | SECTION 1502 PROTECTION OF ADJOINING PROPERTY SECTION 1503 TEMPORARY USE OF STREETS, ALLEYS AND PUBLIC PROPERTY |
| 96 | SECTION 1504 FIRE EXTINGUISHERS SECTION 1505 MEANS OF EGRESS SECTION 1506 STANDPIPES SECTION 1507 AUTOMATIC SPRINKLER SYSTEM SECTION 1508 ACCESSIBILITY SECTION 1509 WATER SUPPLY FOR FIRE PROTECTION |
| 98 | CHAPTER 16 REFERENCED STANDARDS ASCE/SEI ASHRAE ASME ASTM |
| 99 | ICC |
| 100 | NFPA UL |
| 102 | APPENDIX A: GUIDELINES FOR THE SEISMIC RETROFIT OF EXISTING BUILDINGS CHAPTER A1 SEISMIC STRENGTHENING PROVISIONS FOR UNREINFORCED MASONRY BEARING WALL BUILDINGS SECTION A101 PURPOSE SECTION A102 SCOPE SECTION A103 DEFINITIONS |
| 103 | SECTION A104 SYMBOLS AND NOTATIONS SECTION A105 GENERAL REQUIREMENTS |
| 104 | SECTION A106 MATERIALS REQUIREMENTS |
| 105 | EQUATION A1-1 EQUATION A1-2 |
| 106 | SECTION A107 QUALITY CONTROL SECTION A108 DESIGN STRENGTHS |
| 107 | EQUATION A1-3 EQUATION A1-4 SECTION A109 ANALYSIS AND DESIGN PROCEDURE SECTION A110 GENERAL PROCEDURE EQUATION A1-5 SECTION A111 SPECIAL PROCEDURE |
| 108 | EQUATION A1-6 EQUATION A1-7 EQUATION A1-8 EQUATION A1-9 EQUATION A1-10 EQUATION A1-11 EQUATION A1-12 EQUATION A1-13 EQUATION A1-14 |
| 109 | EQUATION A1-15 EQUATION A1-16 EQUATION A1-17 SECTION A112 ANALYSIS AND DESIGN EQUATION A1-18 EQUATION A1-19 EQUATION A1-20 EQUATION A1-21 EQUATION A1-22 EQUATION A1-23 |
| 110 | SECTION A113 DETAILED BUILDING SYSTEM DESIGN REQUIREMENTS |
| 111 | [BS] TABLE A102.1 ELEMENTS REGULATED BY THIS CHAPTER SECTION A114 WALLS OF UNBURNED CLAY, ADOBE OR STONE MASONRY |
| 112 | [BS] TABLE A108.1(1) STRENGTH VALUES FOR EXISTING MATERIALS |
| 113 | [BS] TABLE A108.1(2) STRENGTH VALUES OF NEW MATERIALS USED IN CONJUNCTION WITH EXISTING CONSTRUCTION |
| 114 | [BS] TABLE A110.2 ALLOWABLE VALUE OF HEIGHT-TO-THICKNESS RATIO OF UNREINFORCED MASONRY WALLS [BS] TABLE A111.5 HORIZONTAL FORCE FACTOR, Cp [BS] TABLE A113.6 MAXIMUM ALLOWABLE HEIGHT-TO-THICKNESS RATIO FOR PARAPETS [BS] TABLE A114.1 MAXIMUM HEIGHT-TO-THICKNESS RATIO FOR ADOBE OR STONE WALLS |
| 115 | [BS] FIGURE A111.4.1 ACCEPTABLE DIAPHRAGM SPAN |
| 116 | [BS] FIGURE A112.2.2 ANALYSIS OF URM WALL IN-PLANE SHEAR FORCES |
| 118 | CHAPTER A2 EARTHQUAKE HAZARD REDUCTION IN EXISTING REINFORCED CONCRETE AND REINFORCED MASONRY WALL BUILDINGS WITH FLEXIBLE DIAPHRAGMS SECTION A201 PURPOSE SECTION A202 SCOPE SECTION A203 DEFINITIONS SECTION A204 SYMBOLS AND NOTATIONS SECTION A205 GENERAL REQUIREMENTS |
| 119 | SECTION A206 ANALYSIS AND DESIGN |
| 120 | SECTION A207 MATERIALS OF CONSTRUCTION |
| 122 | CHAPTER A3 PRESCRIPTIVE PROVISIONS FOR SEISMIC STRENGTHENING OF CRIPPLE WALLS AND SILL PLATE ANCHORAGE OF LIGHT, WOOD-FRAME RESIDENTIAL BUILDINGS SECTION A301 GENERAL SECTION A302 DEFINITIONS |
| 123 | SECTION A303 STRUCTURAL WEAKNESSES SECTION A304 STRENGTHENING REQUIREMENTS |
| 126 | [BS] TABLE A304.3.1 SILL PLATE ANCHORAGE AND CRIPPLE WALL BRACING [BS] TABLE A304.3.2 SILL PLATE ANCHORAGE FOR VARIOUS LENGTHS OF SILL PLATEa |
| 127 | [BS] FIGURE A304.1.3 TYPICAL FLOOR TO CRIPPLE WALL CONNECTION (FLOOR JOISTS NOT PARALLEL TO FOUNDATIONS) |
| 128 | [BS] FIGURE A304.1.4(1) TYPICAL FLOOR TO CRIPPLE WALL CONNECTION (FLOOR JOISTS PARALLEL TO FOUNDATIONS) |
| 129 | [BS] FIGURE A304.1.4(2) TYPICAL FLOOR TO MUDSILL CONNECTIONS |
| 130 | [BS] FIGURE A304.1.4(3) ALTERNATIVE FLOOR FRAMING TO CRIPPLE WALL CONNECTION |
| 131 | [BS] FIGURE A304.2.3(1) NEW REINFORCED CONCRETE FOUNDATION SYSTEM |
| 132 | [BS] FIGURE A304.2.3(2) NEW MASONRY CONCRETE FOUNDATION |
| 133 | [BS] FIGURE A304.3.1(1) SILL PLATE BOLTING TO EXISTING FOUNDATIONa |
| 134 | [BS] FIGURE A304.3.1(2) ALTERNATIVE SILL PLATE ANCHORING IN EXISTING FOUNDATIONâ WITHOUT CRIPPLE WALLS AND FLOOR FRAMING NOT PARALLEL TO FOUNDATIONS |
| 135 | [BS] FIGURE A304.3.1(3) ALTERNATIVE SILL PLATE ANCHOR TO EXISTING FOUNDATION WITHOUT CRIPPLE WALL AND FLOOR FRAMING PARALLEL TO FOUNDATIONS [BS] FIGURE A304.3.1(4) SILL PLATE ANCHORING TO EXISTING FOUNDATIONâALTERNATIVE CONNECTION FOR BATTERED FOOTING |
| 136 | [BS] FIGURE A304.4.1(1) CRIPPLE WALL BRACING WITH NEW WOOD STRUCTURAL PANEL ON EXTERIOR FACE OF CRIPPLE STUDS |
| 137 | [BS] FIGURE A304.4.1(2) CRIPPLE WALL BRACING WITH WOOD STRUCTURAL PANEL ON INTERIOR FACE OF CRIPPLE STUDS |
| 138 | [BS] FIGURE A304.4.1(3) PARTIAL CRIPPLE STUD WALL ELEVATION |
| 139 | [BS] FIGURE A304.4.2 FLOOR PLAN-CRIPPLE WALL BRACING LAYOUT |
| 140 | CHAPTER A4 EARTHQUAKE RISK REDUCTION IN WOOD-FRAME RESIDENTIAL BUILDINGS WITH SOFT, WEAK OR OPEN FRONT WALLS SECTION A401 GENERAL SECTION A402 DEFINITIONS SECTION A403 ANALYSIS AND DESIGN |
| 142 | SECTION A404 PRESCRIPTIVE MEASURES FOR WEAK STORY SECTION A405 MATERIALS OF CONSTRUCTION |
| 143 | SECTION A406 INFORMATION REQUIRED TO BE ON THE PLANS SECTION A407 QUALITY CONTROL |
| 144 | CHAPTER A5 REFERENCED STANDARDS ASCE/SEI ASTM ICC |
| 146 | APPENDIX B SUPPLEMENTARY ACCESSIBILITY REQUIREMENTS FOR EXISTING BUILDINGS AND FACILITIES SECTION B101 QUALIFIED HISTORICAL BUILDINGS AND FACILITIES SECTION B102 FIXED TRANSPORTATION FACILITIES AND STATIONS |
| 147 | SECTION B103 DWELLING UNITS AND SLEEPING UNITS SECTION B104 REFERENCED STANDARDS |
| 148 | APPENDIX C: GUIDELINES FOR THE WIND RETROFIT OF EXISTING BUILDINGS CHAPTER C1 GABLE END RETROFIT FOR HIGH-WIND AREAS SECTION C101 GENERAL SECTION C102 DEFINITIONS SECTION C103 MATERIALS OF CONSTRUCTION |
| 149 | [BS] TABLE C103.3 MATERIAL SPECIFICATIONS FOR RETROFITSa [BS] TABLE C103.5 NAIL AND SCREW REQUIREMENTS |
| 150 | [BS] FIGURE C103.5.3 FASTENER SPACINGS FOR LUMBER-TO-LUMBER CONNECTIONS OPERATING IN SHEAR PARALLEL TO GRAIN SECTION C104 RETROFITTING GABLE END WALLS TO ENHANCE WIND RESISTANCE |
| 151 | [BS] FIGURE C104.1 BASIC GABLE END RETROFIT METHODOLOGY [BS] TABLE C104.2 STUD LENGTH LIMITATIONS BASED ON EXPOSURE AND DESIGN WIND SPEED |
| 152 | [BS] FIGURE C104.2(1) TRUSS FRAMED GABLE END |
| 153 | [BS] FIGURE C104.2(2) CONVENTIONALLY FRAMED GABLE END L-BENT STRAP [BS] FIGURE C104.2(3) TRUSS FRAMED GABLE END U-BENT STRAP |
| 154 | [BS] FIGURE C104.2(4) CONVENTIONALLY FRAMED GABLE END U-BENT STRAP |
| 155 | [BS] FIGURE C104.2.3 OMITTED HORIZONTAL BRACE |
| 157 | [BS] FIGURE C104.2.4(1) LADDER BRACING FOR OMITTED RETROFIT STUD (GABLE END FRAME) [BS] FIGURE C104.2.4(2) LADDER BRACING FOR OMITTED RETROFIT STUD (CONVENTIONALLY FRAMED GABLE END) |
| 159 | [BS] FIGURE C104.2.5 ANCHOR BLOCK INSTALLATION |
| 160 | [BS] FIGURE C104.2.7 DETAIL OF RETROFIT TIE INSTALLATION |
| 161 | [BS] FIGURE C104.2.8(1) SPLICED HORIZONTAL BRACES |
| 162 | [BS] FIGURE C104.2.8(2) SPLICED HORIZONTAL BRACES |
| 163 | [BS] FIGURE C104.2.8(3) SPLICED HORIZONTAL BRACES |
| 164 | [BS] FIGURE C104.3 METHOD OF INSTALLING RETROFIT STUDS |
| 165 | [BS]FIGURE C104.3.4 NAIL PLATE FASTENING |
| 166 | [BS] FIGURE C104.3.8 RETROFIT STUD SPLICES |
| 167 | [BS] TABLE C104.4.1 ELEMENT SIZING AND SPACING FOR L-BENT RETROFIT METHOD [BS] TABLE C104.4.2 ELEMENT SIZING AND SPACING FOR U-BENT RETROFIT METHOD |
| 168 | [BS] TABLE C104.5.1 SPACING OF GUSSET ANGLES [BS] TABLE C104.5.2 SPACING OF LAG OR MASONRY SCREWS USED TO CONNECT SILL PLATE OF GABLE END WALL TO TOP OF THE WALL BELOW |
| 170 | CHAPTER C2 ROOF DECK FASTENING FOR HIGH-WIND AREAS SECTION C201 GENERAL SECTION C202 ROOF DECK ATTACHMENT FOR WOOD ROOFS SECTION C203 REFERENCED STANDARDS |
| 171 | [BS] TABLE C202.1.2 SUPPLEMENT FASTENERS AT PANEL EDGES AND INTERMEDIATE FRAMING |
| 172 | [NY] APPENDIX D DIAPER CHANGING STATIONS [NY] SECTION D101 INTRODUCTION [NY] SECTION D102 PURPOSE [NY] SECTION D103 DEFINITIONS |
| 173 | [NY] SECTION D104 GENERAL REQUIREMENTS |
| 174 | [NY] SECTION D105 ACCESSIBILITY, CONSTRUCTION, AND INSTALLATION REQUIREMENTS [NY] SECTION D106 SIGNAGE [NY] SECTION D107 MAINTENANCE [NY] SECTION D108 HISTORIC BUILDINGS |
| 176 | RESOURCE A GUIDELINES ON FIRE RATINGS OF ARCHAIC MATERIALS AND ASSEMBLIES INTRODUCTION PURPOSE |
| 177 | 1 FIRE-RELATED PERFORMANCE OF ARCHAIC MATERIALS AND ASSEMBLIES 1.1 FIRE PERFORMANCE MEASURES TUNNEL TEST RESULTS FOR EIGHT SPECIES OF LUMBER |
| 178 | 1.2 COMBUSTIBLE CONSTRUCTION TYPES 2 BUILDING EVALUATION 2.1 PRELIMINARY EVALUATION |
| 179 | FIGURE 1 PRELIMINARY EVALUATION FIELD NOTES |
| 180 | FIGURE 2 PRELIMINARY EVALUATION WORKSHEET |
| 181 | 2.2 FIRE RESISTANCE OF EXISTING BUILDING ELEMENTS 2.3 EFFECTS OF PENETRATIONS IN FIRE RESISTANT ASSEMBLIES 3 FINAL EVALUATION AND DESIGN SOLUTION |
| 182 | 3.1 THE EXPERIMENTAL APPROACH 3.2 THE THEORETICAL APPROACH HARMATHY’S TEN RULES |
| 184 | ILLUSTRATION OF HARMATHYâS RULES EXAMPLE APPLICATION OF HARMATHYâS RULES |
| 186 | 3.3 âTHICKNESS DESIGNâ STRATEGY 3.4 EVALUATION OF DOORS |
| 187 | FIGURE 3 MODIFICATION DETAILS |
| 188 | 4 SUMMARY |
| 190 | APPENDIX INTRODUCTION RESOURCE A TABLE OF CONTENTS |
| 192 | PURPOSE AND PROCEDURE |
| 193 | SECTION I – WALLS FIGURE 1.1.1 MASONRY WALLS 0″ TO LESS THAN 4″ THICK TABLE 1.1.1 MASONRY WALLS 0″ TO LESS THAN 4″ THICK |
| 194 | TABLE 1.1.1âcontinued MASONRY WALLS 0″ TO LESS THAN 4″ THICK |
| 195 | TABLE 1.1.1âcontinued MASONRY WALLS 0″ TO LESS THAN 4″ THICK |
| 196 | FIGURE 1.1.2 MASONRY WALLS 4″ TO LESS THAN 6″ THICK TABLE 1.1.2 MASONRY WALLS 4″ TO LESS THAN 6″ THICK |
| 197 | TABLE 1.1.2âcontinued MASONRY WALLS 4″ TO LESS THAN 6″ THICK |
| 198 | TABLE 1.1.2âcontinued MASONRY WALLS 4″ TO LESS THAN 6″ THICK |
| 199 | TABLE 1.1.2âcontinued MASONRY WALLS 4″ TO LESS THAN 6″ THICK |
| 200 | TABLE 1.1.2âcontinued MASONRY WALLS 4″ TO LESS THAN 6″ THICK |
| 201 | TABLE 1.1.2âcontinued MASONRY WALLS 4″ TO LESS THAN 6″ THICK |
| 202 | TABLE 1.1.2âcontinued MASONRY WALLS 4″ TO LESS THAN 6″ THICK |
| 203 | FIGURE 1.1.3 MASONRY WALLS 6″ TO LESS THAN 8″ THICK TABLE 1.1.3 MASONRY WALLS 6″ TO LESS THAN 8″ THICK |
| 204 | TABLE 1.1.3âcontinued MASONRY WALLS 6″ TO LESS THAN 8″ THICK |
| 205 | TABLE 1.1.3âcontinued MASONRY WALLS 6″ TO LESS THAN 8″ THICK |
| 206 | TABLE 1.1.3âcontinued MASONRY WALLS 6″ TO LESS THAN 8″ THICK |
| 207 | TABLE 1.1.3âcontinued MASONRY WALLS 6″ TO LESS THAN 8″ THICK |
| 208 | FIGURE 1.1.4 MASONRY WALLS 8″ TO LESS THAN 10″ THICK TABLE 1.1.4 MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 209 | TABLE 1.1.4âcontinued MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 210 | TABLE 1.1.4âcontinued MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 211 | TABLE 1.1.4âcontinued MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 212 | TABLE 1.1.4âcontinued MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 213 | TABLE 1.1.4âcontinued MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 214 | TABLE 1.1.4âcontinued MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 215 | TABLE 1.1.4âcontinued MASONRY WALLS 8″ TO LESS THAN 10″ THICK |
| 216 | FIGURE 1.1.5 MASONRY WALLS 10″ TO LESS THAN 12″ THICK TABLE 1.1.5 MASONRY WALLS 10″ TO LESS THAN 12″ THICK |
| 217 | TABLE 1.1.5âcontinued MASONRY WALLS 10″ TO LESS THAN 12″ THICK |
| 218 | TABLE 1.1.5âcontinued MASONRY WALLS 10″ TO LESS THAN 12″ THICK |
| 219 | TABLE 1.1.5âcontinued MASONRY WALLS 10″ TO LESS THAN 12″ THICK |
| 220 | FIGURE 1.1.6 MASONRY WALLS 12″ TO LESS THAN 14″ THICK TABLE 1.1.6 MASONRY WALLS 12″ TO LESS THAN 14″ THICK |
| 221 | TABLE 1.1.6âcontinued MASONRY WALLS 12″ TO LESS THAN 14″ THICK |
| 222 | TABLE 1.1.6âcontinued MASONRY WALLS 12″ TO LESS THAN 14″ THICK |
| 223 | TABLE 1.1.6âcontinued MASONRY WALLS 12″ TO LESS THAN 14″ THICK |
| 224 | TABLE 1.1.6âcontinued MASONRY WALLS 12″ TO LESS THAN 14″ THICK |
| 225 | TABLE 1.1.6âcontinued MASONRY WALLS 12″ TO LESS THAN 14″ THICK |
| 226 | FIGURE 1.1.7 MASONRY WALLS 14″ OR MORE THICK TABLE 1.1.7 MASONRY WALLS 14″ OR MORE THICK |
| 227 | TABLE 1.1.7âcontinued MASONRY WALLS 14″ OR MORE THICK |
| 228 | TABLE 1.1.7âcontinued MASONRY WALLS 14″ OR MORE THICK |
| 229 | FIGURE 1.2.1 METAL FRAME WALLS 0″ TO LESS THAN 4″ THICK TABLE 1.2.1 METAL FRAME WALLS 0″ TO LESS THAN 4″ THICK |
| 230 | TABLE 1.2.1âcontinued METAL FRAME WALLS 0″ TO LESS THAN 4″ THICK |
| 231 | TABLE 1.2.1âcontinued METAL FRAME WALLS 0″ TO LESS THAN 4″ THICK |
| 232 | TABLE 1.2.1âcontinued METAL FRAME WALLS 0″ TO LESS THAN 4″ THICK |
| 233 | FIGURE 1.2.2 METAL FRAME WALLS 4″ TO LESS THAN 6″ THICK TABLE 1.2.2 METAL FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 234 | TABLE 1.2.2âcontinued METAL FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 235 | TABLE 1.2.3 METAL FRAME WALLS 6″ TO LESS THAN 8″ THICK |
| 236 | TABLE 1.2.4 METAL FRAME WALLS 8″ TO LESS THAN 10″ THICK |
| 237 | TABLE 1.3.1 WOOD FRAME WALLS 0″ TO LESS THAN 4″ THICK |
| 238 | FIGURE 1.3.2 WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK TABLE 1.3.2 WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 239 | TABLE 1.3.2âcontinued WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 240 | TABLE 1.3.2âcontinued WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 241 | TABLE 1.3.2âcontinued WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 242 | TABLE 1.3.2âcontinued WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 243 | TABLE 1.3.2âcontinued WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 244 | TABLE 1.3.2âcontinued WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 245 | TABLE 1.3.2âcontinued WOOD FRAME WALLS 4″ TO LESS THAN 6″ THICK |
| 246 | TABLE 1.3.3 WOOD FRAME WALLS 6″ TO LESS THAN 8″ THICK TABLE 1.4.1 MISCELLANEOUS MATERIALS WALLS 0″ TO LESS THAN 4″ THICK |
| 247 | TABLE 1.4.2 MISCELLANEOUS MATERIALS WALLS 4″ TO LESS THAN 6″ THICK |
| 248 | FIGURE 1.5.1 FINISH RATINGSâIN ORGANIC MATERIALS TABLE 1.5.1 FINISH RATINGSâINORGANIC MATERIALS |
| 249 | TABLE 1.5.1âcontinued FINISH RATINGSâINORGANIC MATERIALS TABLE 1.5.2 FINISH RATINGSâORGANIC MATERIALS |
| 250 | SECTION II COLUMNS TABLE 2.1.1 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 0″ TO LESS THAN 6″ |
| 251 | FIGURE 2.1.2 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 10″ TO LESS THAN 12″ TABLE 2.1.2 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 252 | TABLE 2.1.2âcontinued REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 253 | TABLE 2.1.2âcontinued REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 254 | TABLE 2.1.3 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 12″ TO LESS THAN 14″ |
| 255 | TABLE 2.1.4 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 14″ TO LESS THAN 16″ |
| 256 | FIGURE 2.1.5 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 16″ TO LESS THAN 18″ TABLE 2.1.5 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 16″ TO LESS THAN 18″ |
| 257 | TABLE 2.1.5âcontinued REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 16″ TO LESS THAN 18″ |
| 258 | TABLE 2.1.6 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 18″ TO LESS THAN 20″ |
| 259 | FIGURE 2.1.7 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 20″ TO LESS THAN 22″ TABLE 2.1.7 REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 20″ TO LESS THAN 22″ |
| 260 | TABLE 2.1.7âcontinued REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 20″ TO LESS THAN 22″ TABLE 2.1.8 HEXAGONAL REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 12″ TO LESS THAN 14″ |
| 261 | TABLE 2.1.9 HEXAGONAL REINFORCED CONCRETE COLUMNS MINIMUM DIMENSION 14″ TO LESS THAN 16″ TABLE 2.1.10 HEXAGONAL REINFORCED CONCRETE COLUMNS DIAMETERâ16″ TO LESS THAN 18″ TABLE 2.1.11 HEXAGONAL REINFORCED CONCRETE COLUMNS DIAMETERâ20″ TO LESS THAN 22″ |
| 262 | TABLE 2.2 ROUND CAST IRON COLUMNS |
| 263 | FIGURE 2.3 STEEL COLUMNS-GYPSUM ENCASEMENTS TABLE 2.3 STEEL COLUMNSâGYPSUM ENCASEMENTS |
| 264 | TABLE 2.3âcontinued STEEL COLUMNSâGYPSUM ENCASEMENTS TABLE 2.4 TIMBER COLUMNS MINIMUM DIMENSION TABLE 2.5.1.1 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION LESS THAN 6″ |
| 265 | TABLE 2.5.1.2 STEEL COLUMNSâCONCRETE ENCASEMENTS 6″ TO LESS THAN 8″ THICK |
| 266 | FIGURE 2.5.1.3 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 8″ TO LESS THAN 10″ TABLE 2.5.1.3 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 8″ TO LESS THAN 10″ |
| 267 | TABLE 2.5.1.3âcontinued STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 8″ TO LESS THAN 10″ |
| 268 | FIGURE 2.5.1.4 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 10″ TO LESS THAN 12″ TABLE 2.5.1.4 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 269 | TABLE 2.5.1.4âcontinued STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 270 | TABLE 2.5.1.4âcontinued STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 271 | TABLE 2.5.1.4âcontinued STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 272 | FIGURE 2.5.1.5 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 12″ TO LESS THAN 14″ TABLE 2.5.1.5 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 12″ TO LESS THAN 14″ |
| 273 | TABLE 2.5.1.5âcontinued STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 12″ TO LESS THAN 14″ |
| 274 | FIGURE 2.5.1.6 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 14″ TO LESS THAN 16″ TABLE 2.5.1.6 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 14″ TO LESS THAN 16″ |
| 275 | TABLE 2.5.1.6âcontinued STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 14″ TO LESS THAN 16″ |
| 276 | TABLE 2.5.1.7 STEEL COLUMNSâCONCRETE ENCASEMENTS MINIMUM DIMENSION 16″ TO LESS THAN 18″ TABLE 2.5.2.1 STEEL COLUMNSâBRICK AND BLOCK ENCASEMENTS MINIMUM DIMENSION 10″ TO LESS THAN 12″ |
| 277 | TABLE 2.5.2.2 STEEL COLUMNSâBRICK AND BLOCK ENCASEMENTS MINIMUM DIMENSION 12″ TO LESS THAN 14″ TABLE 2.5.2.3 STEEL COLUMNSâBRICK AND BLOCK ENCASEMENTS MINIMUM DIMENSION 14″ TO LESS THAN 16″ |
| 278 | TABLE 2.5.3.1 STEEL COLUMNSâPLASTER ENCASEMENTS MINIMUM DIMENSION 6″ TO LESS THAN 8″ TABLE 2.5.3.2 STEEL COLUMNSâPLASTER ENCASEMENTS MINIMUM DIMENSION 8″ TO LESS THAN 10″ TABLE 2.5.4.1 STEEL COLUMNSâMISCELLANEOUS ENCASEMENTS MINIMUM DIMENSION 6″ TO LESS THAN 8″ |
| 279 | TABLE 2.5.4.2 STEEL COLUMNSâMISCELLANEOUS ENCASEMENTS MINIMUM DIMENSION 8″ TO LESS THAN 10″ TABLE 2.5.4.3 STEEL COLUMNSâMISCELLANEOUS ENCASEMENTS MINIMUM DIMENSION 10″ TO LESS THAN 12″ TABLE 2.5.4.4 STEEL COLUMNSâMISCELLANEOUS ENCASEMENTS MINIMUM DIMENSION 12″ TO LESS THAN 14″ |
| 280 | SECTION III FLOOR/CEILING ASSEMBLIES FIGURE 3.1 FLOOR/CEILING ASSEMBLIESâREINFORCED CONCRETE TABLE 3.1 FLOOR/CEILING ASSEMBLIESâREINFORCED CONCRETE |
| 281 | TABLE 3.1âcontinued FLOOR/CEILING ASSEMBLIESâREINFORCED CONCRETE |
| 282 | TABLE 3.1âcontinued FLOOR/CEILING ASSEMBLIESâREINFORCED CONCRETE |
| 283 | TABLE 3.1âcontinued FLOOR/CEILING ASSEMBLIESâREINFORCED CONCRETE |
| 284 | TABLE 3.1âcontinued FLOOR/CEILING ASSEMBLIESâREINFORCED CONCRETE |
| 285 | TABLE 3.1âcontinued FLOOR/CEILING ASSEMBLIESâREINFORCED CONCRETE |
| 286 | FIGURE 3.2 FLOOR/CEILING ASSEMBLIESâSTEEL STRUCTURAL ELEMENTS TABLE 3.2 FLOOR/CEILING ASSEMBLIESâSTEEL STRUCTURAL ELEMENTS |
| 287 | TABLE 3.2âcontinued FLOOR/CEILING ASSEMBLIESâSTEEL STRUCTURAL ELEMENTS |
| 288 | TABLE 3.2âcontinued FLOOR/CEILING ASSEMBLIESâSTEEL STRUCTURAL ELEMENTS |
| 289 | TABLE 3.2âcontinued FLOOR/CEILING ASSEMBLIESâSTEEL STRUCTURAL ELEMENTS |
| 290 | TABLE 3.2âcontinued FLOOR/CEILING ASSEMBLIESâSTEEL STRUCTURAL ELEMENTS |
| 291 | TABLE 3.2âcontinued FLOOR/CEILING ASSEMBLIESâSTEEL STRUCTURAL ELEMENTS |
| 292 | FIGURE 3.3 FLOOR/CEILING ASSEMBLIESâWOOD JOIST TABLE 3.3 FLOOR/CEILING ASSEMBLIESâWOOD JOIST |
| 293 | TABLE 3.3âcontinued FLOOR/CEILING ASSEMBLIESâWOOD JOIST |
| 294 | TABLE 3.3âcontinued FLOOR/CEILING ASSEMBLIESâWOOD JOIST |
| 295 | TABLE 3.3âcontinued FLOOR/CEILING ASSEMBLIESâWOOD JOIST |
| 296 | FIGURE 3.4 FLOOR/CEILING ASSEMBLIESâHOLLOW CLAY TILE WITH REINFORCED CONCRETE TABLE 3.4 FLOOR/CEILING ASSEMBLIESâHOLLOW CLAY TILE WITH REINFORCED CONCRETE |
| 297 | TABLE 3.4âcontinued FLOOR/CEILING ASSEMBLIESâHOLLOW CLAY TILE WITH REINFORCED CONCRETE |
| 298 | TABLE 3.4âcontinued FLOOR/CEILING ASSEMBLIES-HOLLOW CLAY TILE WITH REINFORCED CONCRETE |
| 299 | SECTION IV BEAMS TABLE 4.1.1 REINFORCED CONCRETE BEAMS DEPTH 10″ TO LESS THAN 12″ |
| 300 | TABLE 4.1.1âcontinued REINFORCED CONCRETE BEAMS DEPTH 10″ TO LESS THAN 12″ |
| 301 | TABLE 4.1.1âcontinued REINFORCED CONCRETE BEAMS DEPTH 10″ TO LESS THAN 12″ |
| 302 | TABLE 4.1.2 REINFORCED CONCRETE BEAMS DEPTH 12″ TO LESS THAN 14″ |
| 303 | TABLE 4.1.2âcontinued REINFORCED CONCRETE BEAMS DEPTH 12″ TO LESS THAN 14″ |
| 304 | TABLE 4.1.3 REINFORCED CONCRETE BEAMS DEPTH 14″ TO LESS THAN 16″ |
| 305 | TABLE 4.2.1 REINFORCED CONCRETE BEAMSâUNPROTECTED DEPTH 10″ TO LESS THAN 12″ TABLE 4.2.2 STEEL BEAMSâCONCRETE PROTECTION DEPTH 10″ TO LESS THAN 12″ |
| 306 | SECTION V DOORS FIGURE 5.1 RESISTANCE OF DOORS TO FIRE EXPOSURE TABLE 5.1 RESISTANCE OF DOORS TO FIRE EXPOSURE |
| 307 | TABLE 5.1âcontinued RESISTANCE OF DOORS TO FIRE EXPOSURE |
| 308 | TABLE 5.1âcontinued RESISTANCE OF DOORS TO FIRE EXPOSURE |
| 309 | BIBLIOGRAPHY |
| 316 | INDEX |
| 320 | HELPFUL TOOLS FOR YOUR EXISTING BUILDING CODE |
| 321 | ICC DIGITAL CODES LIBRARY |
| 322 | ICC MEMBERSHIP |
| 323 | ICC ASSESSMENT CENTER |
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NY StateExistingBuildingCode 2020 TEMP
Existing Building Code of New York State Published By Publication Date Number of Pages NYâŚ
