Design of WT Braces Spreadsheet

Design of WT Braces Spreadsheet

 

In most commercial buildings, floor and roof diaphragms are used to distribute loads in the horizontal plane of the structure to the lateral load resisting system.

Due to the open nature of most industrial structures, diaphragms are not present, and horizontal bracing is often used to distribute the loads in the horizontal plane. Horizontal bracing is also used in heavily-loaded commercial structures, where a diaphragm is not present, or where the strength or stiffness of the diaphragm is not adequate.

When horizontal bracing is used, the beams at that elevation become members in a horizontal truss system, carrying axial loads in addition to the normal bending and shear gravity loads. Careful attention should be paid to the beam end connections within the truss system because the axial loads transferring through the connections can be large.

Selection of Structural Shapes: The most common shapes used for horizontal bracing are single angles and WT shapes.

Single angles are the most economical shape for resisting small and medium loads, because WT shapes must be split from W shapes and straightened by the fabricator. WT shapes can be used to resist larger loads and where long spans are required.

Calculation Reference
Design of Commercial Buildings

 

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Shear Lug Design Verification Spreadsheet

Shear Lug Design Verification Spreadsheet

 

Design of shear lugs for column base plates. The design is based on the procedure presented in AISC Steel Design Guide 1, Base Plate and Anchor Rod Design, 2nd Edition and AISC Steel Design Guide 7, Industrial Buildings, Roofs to Anchor Rods, 2nd Edition.

Calculation Reference
Building Code Requirements for Structural Concrete, ACI 318-08, (ACI 318)

 

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SemiCircular Tension Fitting Calculation Spreadsheet

SemiCircular Tension Fitting Calculation Spreadsheet

 

  • Purpose of calculation: Calculate stress in a ‘semi circular’ tension fitting (or bath tub fitting).
  • Calculation Reference: UK railway industry method (the British Rail “Brown Book” method).
  • Calculation Validation: Independent verification is required.

 

Calculation Reference
Peterson’s Stress Concentration

 

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Design For Roof Purlins Spreadsheet

Design For Roof Purlins Spreadsheet

 

This spreadsheet is to be used to check the adequacy of roof purlins for a specified combination of loads. The designis based on the maximum yeild strength (Mn = FySx) as stated in the AISC Manual 13th Ed. This spread sheet can only be used for load combinations with two variables. In most cases the worst case scenario is 0.6DL+W, so this should be adequate. Only the values in the highlighted cells need to be changed.

Calculation Reference
Roof Design

 

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Design Of Column Foundation Connections Spreadsheet

Design Of Column Foundation Connections Spreadsheet

 

 

DESIGN OF COLUMN FOUNDATION CONNECTIONS/BASE PLATE
Design Code: B.S. 8110 Part 1

Input Data:

  • Columns Size
  • column width
  • column depth
  • Column Loads
  • Axial Load
  • Column Moment(major axis)
  • projection length
  • dist from plate edge to holding down bolts
  • yeild strength of plate
  • yeild strength of bolts

Calculation Reference
Precast Concrete Design

 

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Steel Beams With Web Openings Calculation Spreadsheet

Steel Beams With Web Openings Calculation Spreadsheet

 

This spreadsheet determines whether a steel beam with known loads, and hence known Moments and Shears, can have web openings added. The first worsheet will determine if an opening can be added at a specific location without reinforcement. The second worksheet goes through the same check as the first and then determines what reinforcing is necessary. The third spreadsheet is the steel data tables as made available by AISC.

Calculation Reference
AISC

 

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