A second-floor framing system of a three-story warehouse is provided as shown. The columns, girders, and beams are made of structural steel and the flooring is a 150-mm thick normal weight reinforced concrete slab. The intermediate beams spaced at s = 2.5 m supports the slab. The floor beams are supported by the girders, which in turn are supported by the columns. Use L = 15 m as spacing of columns in the N-S direction. The height of each column is H = 4.2 m. 4 equal spaces of s N T L H L A Frame GHIJ Н THI F H B E C -4s- -4s- X Y Z -4s- D Activate Windo Go to Settings to act Only gravity loads, both dead and live floor loads, are supported by the slab. In addition to the weight of the structure, the following are the loads to be accounted for: Dead Loads: Construction Load Floor Slab Weight = 0.95 kPa To be computed Member Self-weight = To be computed Live Loads: Partition Load Occupancy Load 0.95 kPa 6.0 kPa Serviceability (NSCP C101-15 Table 424.2.2) The maximum live load deflection must not exceed 1/360 of the span length. The governing total deflection is induced by the dead load, live load, and the partition load. Applicable Load Combinations: U U 1.4D 1.2D + 1.6L == All the intermediate beams are W14 × 90. All the girders are W16 × 40, and all the columns are W12 × 58. Use A992 steel (Fy = 345 MPa and Fu- 450 MPa) for the beams, girders, columns, and steel-headed stud connectors. Assume the slab (unit weight - 23.6 kN/m³ and concrete strength fe'- 28 MPa) provides continuous lateral support of the intermediate floor beams. Use LRFD and apply NSCP 2015.
A second-floor framing system of a three-story warehouse is provided as shown. The columns, girders, and beams are made of structural steel and the flooring is a 150-mm thick normal weight reinforced concrete slab. The intermediate beams spaced at s = 2.5 m supports the slab. The floor beams are supported by the girders, which in turn are supported by the columns. Use L = 15 m as spacing of columns in the N-S direction. The height of each column is H = 4.2 m. 4 equal spaces of s N T L H L A Frame GHIJ Н THI F H B E C -4s- -4s- X Y Z -4s- D Activate Windo Go to Settings to act Only gravity loads, both dead and live floor loads, are supported by the slab. In addition to the weight of the structure, the following are the loads to be accounted for: Dead Loads: Construction Load Floor Slab Weight = 0.95 kPa To be computed Member Self-weight = To be computed Live Loads: Partition Load Occupancy Load 0.95 kPa 6.0 kPa Serviceability (NSCP C101-15 Table 424.2.2) The maximum live load deflection must not exceed 1/360 of the span length. The governing total deflection is induced by the dead load, live load, and the partition load. Applicable Load Combinations: U U 1.4D 1.2D + 1.6L == All the intermediate beams are W14 × 90. All the girders are W16 × 40, and all the columns are W12 × 58. Use A992 steel (Fy = 345 MPa and Fu- 450 MPa) for the beams, girders, columns, and steel-headed stud connectors. Assume the slab (unit weight - 23.6 kN/m³ and concrete strength fe'- 28 MPa) provides continuous lateral support of the intermediate floor beams. Use LRFD and apply NSCP 2015.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
1. Compute the internal moment (kN-m) at joint H. Use three-moment equation applying on continuous girder GHIJ. Assume all girder-column joints to be pin connections.
2. Compute the vertical internal reaction (kN) at joint H. Consider the self-weight of the intermediate beam connected to the columns.
3. Compute the required spacing s (mm) of the 12-mm-diameter by 50 mm long steel-headed stud anchors. Use two studs per section. No metal form deck is included. Sketch the layout of the shear studs.
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