Geotechnical Engineering Circular No. 9 Design, Analysis, and Testing of Laterally Loaded Deep Foundations that Support Transportation Facilities


Step a Determine nominal flexural resistance by plastic moment



Download 6.03 Mb.
View original pdf
Page128/205
Date29.05.2022
Size6.03 Mb.
#58903
1   ...   124   125   126   127   128   129   130   131   ...   205
hif18031
Soldier Rev B
Step a Determine nominal flexural resistance by plastic moment
The nominal flexural resistance can betaken as follows
𝑀𝑀
π‘šπ‘š
= 𝑀𝑀
𝑝𝑝
= Equation 11-44) Where
𝑀𝑀
π‘šπ‘š
= Nominal flexural resistance (kip-in).
𝑀𝑀
𝑝𝑝
= Plastic moment (kip-in).
𝑍𝑍
𝑦𝑦
= Plastic section modulus about weak axis (in.
𝐹𝐹
𝑦𝑦
= Yield strength of steel (ksi).
Step b Determine nominal flexural resistance by local buckling
Where local buckling will limit the nominal flexural resistance, the following checks apply. If
𝐷𝐷
𝑑𝑑 ≀ 0.31
𝐸𝐸
𝑠𝑠𝑑𝑑
𝐹𝐹
𝑦𝑦
𝑀𝑀
π‘šπ‘š
= οΏ½
0.021 𝐸𝐸
𝑠𝑠𝑑𝑑
𝐷𝐷
𝑑𝑑
+ 𝐹𝐹
𝑦𝑦
οΏ½ Equation 11-45) in which
𝑓𝑓
𝑐𝑐𝑐𝑐
=
0.33 Equation 11-46) Where
𝐷𝐷 = Outside diameter of pipe (in.
𝑑𝑑 = Pipe thickness ins Elastic modulus of steel (ksi).
𝐹𝐹𝑦𝑦 = Yield strength of steel (ksi).
π‘€π‘€π‘šπ‘š = Nominal flexural resistance (kip-in).
𝑆𝑆𝑦𝑦 = Elastic section modulus about weak axis (in.
𝑓𝑓
cr = Elastic local buckling stress (ksi).


169
11.4.6 Combined Flexure and Axial Compression
Combined axial and flexure checks are only applied to pile groups with vertical piles. At this time,
AASHTO (2014) does not have a recommendation to include battered piles. For combined flexure and compression of vertical piles, AASHTO (2014) requires the factored Structural Limit State to satisfy the following Limit State checks. If
𝑃𝑃
𝑒𝑒
𝑃𝑃
𝑐𝑐
< 0.2
𝑃𝑃
𝑒𝑒
2.0 𝑃𝑃
𝑐𝑐
+ οΏ½
𝑀𝑀
𝑒𝑒π‘₯π‘₯
𝑀𝑀
𝑐𝑐π‘₯π‘₯
+
𝑀𝑀
𝑒𝑒𝑦𝑦
𝑀𝑀
𝑐𝑐𝑦𝑦
οΏ½ ≀ 1.0
(Equation 11-47)
𝑃𝑃
𝑒𝑒
𝑃𝑃
𝑐𝑐
+
8.0 9.0
οΏ½
𝑀𝑀
𝑒𝑒π‘₯π‘₯
𝑀𝑀
𝑐𝑐π‘₯π‘₯
+
𝑀𝑀
𝑒𝑒𝑦𝑦
𝑀𝑀
𝑐𝑐𝑦𝑦
οΏ½ ≀ 1.0
(Equation 11-48)
Where:
𝑃𝑃
u
= Factored axial compressive load (kips).
𝑃𝑃
r
= Factored compressive resistance (kips).
M
uπ‘₯π‘₯
= Factored moment about x-axis (kip-ft).
M
r
π‘₯π‘₯
= Factored flexural resistance about x-axis (kip-ft).
M
u
𝑦𝑦
= Factored moment about y-axis (kip-ft).
M
r
𝑦𝑦
= Factored flexural resistance about y-axis (kip-ft).

Download 6.03 Mb.

Share with your friends:
1   ...   124   125   126   127   128   129   130   131   ...   205




The database is protected by copyright ©ininet.org 2024
send message

    Main page