ClipConnTable.xls

(5/9)

Description


"ClipConnTable" is a spreadsheet program written in MS-Excel for the purpose of analysis of steel beam end connections using double clip angles either welded or bolted to the beam web, and bolted to either the column flange, column web, or girder web.  The connections may be subjected to end shear reaction and/or axial load. Specifically, all applicable "limit states" for the end connection analysis pertaining to the clip angles, bolts, beam web, column flange or web, and girder web are checked.  The program is presented in a "tabular" format.

This program is a workbook consisting of four (4) worksheets, described as follows:

Doc - documentation sheet
Conn Table (Welded Clips) - Clip angles welded to beam web and bolted to support
Conn Table (Bolted Clips) - Clip angles bolted to beam web and bolted to support
Conn Table (Welded or Bolted) - Clip angles either welded or bolted to beam web and bolted to support

Program Assumptions and Limitations:

1.  The most critical assumption used in this program is that all beam end connections are basically  "full-depth", utilzing as many vertical rows of bolts as permitted.  See first page of each worksheet for outline of other assumptions used.
2.   This program is basically a "tabular" format version of the "CLIPCONN.xls" program, and is best suited to analyze a large number of beam end connections in a very quick, efficient, and concise  manner. (Note: The individual case worksheets in the "CLIPCONN.xls" program were used as "masters calculations" in the development of this program, and may be referred to for individual detailed calculations.)
3.   Once the user has inserted the required input data in cells starting at A408 through F408 and down for each  of the connections to be analyzed, then the user should copy the row of cells from G62 through the end cell of the particular spreadsheet (either CI408, CV408, or EG408) and "Paste Special" the formulas on down the worksheet to match the total number of connections to be analyzed.
4.   This program follows the procedures and guidelines of the AISC 9th Edition Allowable Stress (ASD) Manual (1989) and the AISC 9th Edition Manual Vol. II - Connections (1992).   
5.   This program uses the database of member dimensions and section properties from the "AISC Shapes Database", Version 3.0 (2001) as well as the AISC 9th Edition (ASD) Manual (1989).
6.   This program assumes that the tension capacity for any "limit state" is reduced by the presence of shear. For allowable bolt tension in the presence of shear, the "interaction" (combined stresses) is handled directly by the AISC Code equations.  For other "limit states" in combined stresses such as bolt bearing, gross and net shear and tension, and block shear and tension tearout, the effect of "interaction" is handled by use of the formula,  P/Ra+(R/Rv)^2=1,  as suggested from the following reference:  
"Combined Shear and Tension Stress" - by Subhash C. Goel, AISC Journal, 3rd Qtr.-1986.
Thus, the reduction factor applied to the tension "limit state" capacity is  =  (1-R/Rv)^2.
where:R = actual shear end reaction; Rv = allowable shear capacity for the particular "limit state" considered
7.  This program contains numerous “comment boxes” which contain a wide variety of information including explanations of input or output items, equations used, data tables, etc.  (Note:  presence of a “comment box” is denoted by a “red triangle” in the upper right-hand corner of a cell.  Merely move the mouse pointer to the desired cell to view the contents of that particular "comment box".)

Calculation Reference
AISC

Calculation Preview

01 May 2013
File Size: 1,374.50 Kb
Downloads: 821
File Version: 1.8
File Author: Alex Tomanovich
File Rating (5/9)

 
Full download access to any calculation is available to users with a paid or awarded subscription (XLC Pro).
Subscriptions are free to contributors to the site, alternatively they can be purchased.
Click here for information on subscriptions.
Comments: 3
atomanovich 11 years ago
It was brought to my attention that in all 3 calculation worksheets of the "ClipConnTable.xls" spreadsheet workbook, the program was giving "FALSE" and "#DIV/0!" error messages when a yield stress of 33 ksi was selected for either the beam and/or the clip angles. These error messages were a result of the fact that the program inadvertently did not include the logic for the ultimate tensile strength, "Fu", when the value of the yield stress was 33 ksi. Otherwise, the worksheets were operating fine for yield stresses of either 36 or 50 ksi. I have made the necessary corrections to all 3 worksheets.
This workbook is now version 1.8.
atomanovich 12 years ago
It was brought to my attention in the "ClipConnTable.xls" spreadsheet workbook, that the program was allowing a minimum fillet weld size to be selected which in some cases could be larger weld size than what was physically possible/acceptable, namely a weld size greater that the clip angle leg thickness - 1/16".
I made the necessary program logic corrections, and also added an additional statement/warning in bold red text within the comment box pertaining to the minimum weld size.
This workbook is now version 1.7.
atomanovich 15 years ago
In 3 of my spreadsheets the same "typo" error was discovered in the table for C-shaped weld coefficients, AISC 9th Edition ASD Table XXIII.
The "C" coefficient value for a=2.40 and k=1.6 should have been 0.874, but was inadvertently shown as 0.847.
This has been corrected as required in all three of the following workbooks:
"WELDGRP.xls" - now version 2.3
"CLIPCONN.xls" - now version 2.1
"ClipConnTable.xls" - now version 1.6
Hey, you can't fault me for not being consistent!!! (LOL)
Web Analytics