1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD...
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Transcript of 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD...
![Page 1: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/1.jpg)
1
1Oct 2012IEEE 605 Structural
Structural Task Force
• Main areas for investigation
• Promote LRFD design methodology
• Develop load factors and load combinations for bus and insulator analysis (ASCE 113 covers load factors and combinations for structures and foundations)
• Use Aluminum Association Design Manual 2005 for LRFD aluminum bus design
• Develop load factors and load combinations for bus and insulator analysis (ASCE 113 covers load factors and combinations for structures and foundations)
![Page 2: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/2.jpg)
2
2Oct 2012IEEE 605 Structural
Structural Task Force
• Main areas for investigation
• Determine consistent load reduction factors for insulators
• Possibly address polymer insulators for bus support use
• Possible copper bus LRFD criteria
• Minor clean up issues
• The remaining slides are based on particular chapter sections
![Page 3: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/3.jpg)
3
3Oct 2012IEEE 605 Structural
Structural Task Force
• Chapter 10 Overview of mechanical design of bus structures
• 10.2 General mechanical design procedure
– Load factors and combinations hinted at but no guidance
– LRFD vs. ASD
• 10.2.1 Note 4 states that wet snow load guidance will be considered in next revision
• 10.3.3 notes that a civil, structural or mechanical engineer is required for even simplified bus calculations
![Page 4: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/4.jpg)
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4Oct 2012IEEE 605 Structural
Structural Task Force
• Chapter 11 Loads on bus structure
– If wet snow loads are to be presented they should be in chapter 11
– This chapter is otherwise up to date
![Page 5: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/5.jpg)
5
5Oct 2012IEEE 605 Structural
Structural Task Force
• Chapter 12 Dimensional, strength, and other design considerations
– 12.1.1, 12.1.2 and 12.1.3 are correct formulations for deflection of a single span (very rare real world configuration)
– 12.1.4 gives verbal guidance for continuous bus span deflection; the equations from 1998 have been removed but the note that refers to the equations is still there.
![Page 6: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/6.jpg)
6
6Oct 2012IEEE 605 Structural
Structural Task Force
• Chapter 12 Dimensional, strength, and other design considerations
– 12.2 equation 78 is only true for circular bus cross sections, not angle, bar or integral web sections
– 12.2.1 12.2.2 and 12.2.3 are correct formulations for bending stress of a single span (again, very rare real world configuration)
– 12.2.4 correctly cautions that continuous bus is more complex and requires detailed analysis. The table from 1998 has been removed.
![Page 7: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/7.jpg)
7
7Oct 2012IEEE 605 Structural
Structural Task Force
• Chapter 12 Dimensional, strength, and other design considerations
– 12.3 cantilever forces on insulators
» Table 18 (was table 5 in 1998) has some ambiguity in boundary condition definitions. Pinned support condition on any insulator is questionable.
» Remainder of 12.3 is OK
– 12.4 Strength of porcelain insulators
» 12.4.1 Treats torsional and bending stress separately while acknowledging that they act concurrently
![Page 8: 1 1 Oct 2012 IEEE 605 Structural Structural Task Force Main areas for investigation Promote LRFD design methodology Develop load factors and load combinations.](https://reader036.fdocuments.net/reader036/viewer/2022083007/56649e155503460f94aff2ac/html5/thumbnails/8.jpg)
8
8Oct 2012IEEE 605 Structural
Structural Task Force
• Chapter 12 Dimensional, strength, and other design considerations
– 12.4 Strength of porcelain insulators
» 12.4.2 Proposes strength reduction factors for insulators (the inverse of K factors in previous editions) based on load type and stress type. 1998 edition was based on load type (as is RUS 1724E-300 2001) Insulator manufacturers and ANSI C29.7 base factors on stress type.