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Home My WebLink About06080001.22STRUCTURAL STEEL Detailing, fabrication and erection of structural steel shall be in conformance with the AISC Specification for Structural Steel Buildings, latest edition with amendments, and the AISC Code of Standard Practice for Steel Buildings and Bridges, latest edition with amendments. Rolled shapes shall conform to ASTM A992, Grade 50. Plates shall conform to ASTM A36. Tubing shall conform to ASTM A500, Grade B. Column anchor bolts shall conform to ASTM A36, unless noted otherwise. Rolled shapes and plates shall be shop — painted gray with a rust inhibiting primer, unless directed otherwise by the specification. Touch up all nicks and abrasions after erection is complete. Design connections not shown per the latest edition of the AISC Specification and Manual of Steel Construction. Bolted connections shall be made with 3/4" diameter bolts, conforming to ASTM A325, tightened to the snug tight condition, unless noted otherwise. Bolted connections in wind brace elements shall be tightened using the turn —of —nut method. Connections shall conform to the Specification for Structural Joints Using ASTM A325 or A490 Bolts, approved by the Research Council on Structural Connections of the Engineering Foundation. Welding of structural members shall be in conformance with the American Welding Society's (AWS) Structural Welding Codes for: Steel ANSI /AWS D1.1, Sheet Steel ANSI /AWS D1.3 and Reinforcing Steel ANSI /AWS D1.4. Typical welded connections shall be made with E70XX electrodes. When ASTM A992 steel is used as a base metal, E70XX Low Hydrogen electrodes shall be used. Base material within 2" of any field weld shall be free of materials that would prevent proper welding or produce toxic fumes during welding operations. Splicing of structural steel members is not permitted without prior approval of the Structural Engineer. STEEL DECK Supply and erect steel deck in conformance with the latest edition of the Steel Deck Institute's Specifications and Code of Standard Practice. Deck supplier shall provide all roof deck and accessories required for a complete installation. Such materials shall be shop painted with a rust inhibiting primer. Roof deck attachment shall be as directed on plan. Welding operations shall comply with the latest edition of the American Welding Society's Structural Welding Code —Sheet Steel ANSI /AWS D1.3. STEEL JOISTS Steel bar joists shall be designed, fabricated and installed in conformance with the requirements of the latest Steel Joist Institute (SJI) specifications. Steel bar joists shall be shop painted with a rust — inhibiting primer. Steel joists shall be designed and fabricated per loading information shown on plan. Live load deflection shall be limited to the following: L /360 of the joist span Where connections for steel joists are not shown or noted, provide connections as required by the SJI specifications. Horizontal and diagonal bridging for steel joists shall be located and designed per the SJI specifications. Bridging angles shall be welded to joist top and bottom chords and shall be positively attached at ends of joist bays as detailed on plan. Support all mechanical, electrical, plumbing and sprinkler systems at panel points only. Otherwise reinforce chord members per plan details. Point loads greater than 200 pounds must be reviewed by the Structural Engineer. If a column is not framed in at least two directions with steel beams, then the joist nearest the column shall be bolted to supporting members during erection. STEEL JOIST GIRDERS Steel joist girders shall be designed, fabricated and installed in conformance with the requirements of the latest Steel Joist Institute (SJI) specifications. Joist girders shall be designed and fabricated per loading information shown on plan (self weight not included). When a girder is designated with VG instead of G, joists must bear only at vertical Joist Girder web members. Live load deflection shall be limited to the following: L/360 of the joist span Provide stabilizer plates on columns between the joist girder bottom chord members as required by Steel Joist Institute (SJI) specifications. Where end connections for joist girders are not shown or noted, provide connections as required by the Steel Joist Institute (SJI) specifications. Joist Girder bracing shall be as indicated by the manufacturer and as required by the Steel Joist Institute (SJI) specifications. DESIGN DATA The structure was designed per the Indiana Building Code. FLOOR LOADS LLS N Z Live Load 80 psf Dead Loads 75 psf Partitions 20 psf ROOF LOADS O W O., D Live Load 25 psf Dead Loads 15 psf ROOFING I PER ARCF METAL ROOF DECK S�IVI` 1 !\l v Li 1 L 0AJX I / -t r U" YYCLUCU r l\NmC DECK SUPPLIER ROOF DRAIN BACKINI SUPPORT DETAIL :NERS BM. SPA. PER PLAN ROOF BM. PER PLAN rFULL WELDED FRAME 1 L4x4x1 /4 ( i L ROOF OPENING TYPICAL ROOF OPENING DETAIL. NO SCALE 6" CR 18 GA. METAL STUD (TOP & BOT.) 6" CSJ 18 GA. METAL STUD BEAM TO COLUMN- MOMENT CONNECTION AT FLANGE. SCALE: NONE IF 'MIC` MLICAICIMI IC \I/lDC TUAKI A" ADI WEI (FL C01 HARDWOOE 12" D.0 CURBS (B` STEEL JOIST REINFORCING AT ROOF TOP UNIT CURBS NO SCALE 36/5 PATTERN \_5 8" D{A. PUDDLE NOTES: LD (TYP.) 1) SIDELAP FASTENERS TO CONSIST OF 2 — #10 TEK SCREWS PER SPAN 2) ALL ROOF DECK TO BE 22 GAGE TYPE B (WIDE RIB) METAL DECK 3) SUPPLY IN SHEETS LENGTHS TO PROVIDE A MINIMUM 3 —SPAN CONDITION TYPICAL ROOF DECK- ATTACHMENT PATTERN Z J n. W O_ 0 PROVIDE DECK —' CLOSURE AS READ. Fill 3" F COPE ANGLE TO SET ON TOP OF SUPPORT "*'-- PROVIDE L4x4x1 /4 FRAME NOTE: DECK NOT SHOWN FOR CLARITY, NOT (4 SIDES) READ. FOR OPENINGS < 10" SQUARE. SLAB OPENING SUPPORT DETAIL. METAL STUDS PER ARCH. L6x6x3/8 CONT. W/ 1/40 TEK SCREWS C� 12" O.C. IN 1" VERT. SLOTTED HOLES N SECTION t s�_i to B /ANGLE EL PER ARCH. (3) — 6" CSJ 18 GA METAL STUDS @ JAK urTw 1 c"n t!l MI IAILIrM T STUD EL. PER ARCH. :TAL STUDS PER ARCH. T/STL. EL. PER PLAN =TAL STUDS PER ARCH. T /SLAB EL. PER PLAN 3) - 6" CSJ 18 GA. IETAL STUDS @ JAMB ETAL STUDS PER ARCH. =TAL STUD RUNNER TYPICAL WALL FRAMING @ 8' HIGH x 12' -8" WIDE WINDOWS. 7 U Z LLS N Z V Z6OD `= 12 Z U V Z Z i�o��- Z 3:_ LCU C U1 �n 00a O W O., D y� L L u ✓- D uI t- Q0_9 � <ZQ— ILt° - c N LL H ZU<0Zu.CD u 0 �tz UWOt -= Ce m t7 ui OU-W'Q_jLU2 Z Y H < LU 2 0ZQ'Z HU? < U8 W 0 U V N J1, �N ■ W N V t- 0) ? 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