dassouki
Civil/Environmental
- Aug 19, 2011
- 18
Hey All, I've been doing traffic and transportation engineering for the last 6 years. I love it and all, but I'm finding more and more that my passion and interests are with structural.
I'm not a total ignoramus in structural but at the same time, I'm no guru either. If it matters I live in Canada.
I used to work as a building designer (Architecturally) for a few years and still do it part time but was never involved with the structure.
This is a building I designed a few years ago (again just building layout and NOT structurally), that I'm trying to design the structures for it as a learning experience. For now, I'll be ignoring seismic loads until I get a better handle of the other analysis. It's a 6 story building, with a main and typical 5 on top. I'll be ignoring the sloped roof for this analysis as well. I divided the structural grid into a grid as shown in the drawings. Building Plans and one Elevation
Going through the code, here is what I calculated or found:
Roof live load: 1.0 kPa
Living space live load: 2.4 kPa
Balconies and Cantilevers: 4.8 kPa
Exists and main lobby: 4.8 kPa
Where tributary areas are greater than 20 m2, the live load becomes LL = LL * (0.3 + sqrt(9.8/b)) where b is the tributary area
For dead Loads, I'm using the self weight of the material as 25 Kn/m2, which is then evenly distributed over the columns below. For initial calculations i'm assuming 200 mm concrete exterior walls and balconies, and 150mm slab. I'm also assuming studded interior walls (wood + gypsum)All columns except for the F3, are 600 x 200 mm, Column F3 is 300 x 300 mm.
I'm adding a lateral load of 0.5 kPa on the sheer walls which I assume will be the elevator and stair cases.
For snow Load, I have calculated it to be about 3.8 kPa
For the windloads, I have found that on the corner : -2.4 kPA, the edge -1.9 kPa, and the field (-1.3 kPa)
As I said previously, my first go at it, I'm ignoring Seismic Loads.
Using Ultimate states, I will have 5 load-combination cases as outlined by the code. For now, I’ll assume 1.25 Dead Load + 1.5 Live Load as a principal load with a 0.5 Snow load or 0.4 Wind load as a companion load.
Questions:
-----------
1. Loads: Now that I have my loadings, what is the proper way to distribute them across the structure? Also, from recalling structures and concrete class from 8 years ago, it seems that i probably am missing some more lateral loads. With loads, I'm also struggling to find out which ones of my nodes are fixed or roller based.
2. Frame analysis: Currently, I'm trying to understand which frames to analyze first. Should I analyze the X/Y frames first or Y/Z frames?
Here is the X/Y Frame section at E. . Is this an accurate representation at that plane? Drawing the BMD for that section, i'm assuming that I would have a vertical uniform going across every member consisting of the load combination, and a point load where the walls are. The lateral loads would be the wind loads applied to all exterior nodes of the building. Also after the BMD, I should calculate the Reactions, R and V, and moments and the distance at shear for every member.
3. Moving on: If with your help I get an answer for 1 and 2, I'm assuming here is the following procedure that I need to do:
3.1 Design for flexure: Design all beams for flexure
3.2 if applicable design for development and splices
3.3 Design for shear and tortion
3.4 Design of slabs
3.5 Design for deflection
3.6 Design of foundation.
4. Feel free to critique and help me with this exercise. As I said before, I've been involved with traffic for so many years, that my memory on a lot of the structural stuff is a bit vague. I would like to learn and get back into structural, bu
Note, I'm sorry if this has been a long winded post, but I'd like to learn and get back into structural for a personal level for now, and perhaps if a job posting comes up for a structural I would at least have some knowledge and information to be able to apply to it with some beginner degree of confidence.
I'm not a total ignoramus in structural but at the same time, I'm no guru either. If it matters I live in Canada.
I used to work as a building designer (Architecturally) for a few years and still do it part time but was never involved with the structure.
This is a building I designed a few years ago (again just building layout and NOT structurally), that I'm trying to design the structures for it as a learning experience. For now, I'll be ignoring seismic loads until I get a better handle of the other analysis. It's a 6 story building, with a main and typical 5 on top. I'll be ignoring the sloped roof for this analysis as well. I divided the structural grid into a grid as shown in the drawings. Building Plans and one Elevation
Going through the code, here is what I calculated or found:
Roof live load: 1.0 kPa
Living space live load: 2.4 kPa
Balconies and Cantilevers: 4.8 kPa
Exists and main lobby: 4.8 kPa
Where tributary areas are greater than 20 m2, the live load becomes LL = LL * (0.3 + sqrt(9.8/b)) where b is the tributary area
For dead Loads, I'm using the self weight of the material as 25 Kn/m2, which is then evenly distributed over the columns below. For initial calculations i'm assuming 200 mm concrete exterior walls and balconies, and 150mm slab. I'm also assuming studded interior walls (wood + gypsum)All columns except for the F3, are 600 x 200 mm, Column F3 is 300 x 300 mm.
I'm adding a lateral load of 0.5 kPa on the sheer walls which I assume will be the elevator and stair cases.
For snow Load, I have calculated it to be about 3.8 kPa
For the windloads, I have found that on the corner : -2.4 kPA, the edge -1.9 kPa, and the field (-1.3 kPa)
As I said previously, my first go at it, I'm ignoring Seismic Loads.
Using Ultimate states, I will have 5 load-combination cases as outlined by the code. For now, I’ll assume 1.25 Dead Load + 1.5 Live Load as a principal load with a 0.5 Snow load or 0.4 Wind load as a companion load.
Questions:
-----------
1. Loads: Now that I have my loadings, what is the proper way to distribute them across the structure? Also, from recalling structures and concrete class from 8 years ago, it seems that i probably am missing some more lateral loads. With loads, I'm also struggling to find out which ones of my nodes are fixed or roller based.
2. Frame analysis: Currently, I'm trying to understand which frames to analyze first. Should I analyze the X/Y frames first or Y/Z frames?
Here is the X/Y Frame section at E. . Is this an accurate representation at that plane? Drawing the BMD for that section, i'm assuming that I would have a vertical uniform going across every member consisting of the load combination, and a point load where the walls are. The lateral loads would be the wind loads applied to all exterior nodes of the building. Also after the BMD, I should calculate the Reactions, R and V, and moments and the distance at shear for every member.
3. Moving on: If with your help I get an answer for 1 and 2, I'm assuming here is the following procedure that I need to do:
3.1 Design for flexure: Design all beams for flexure
3.2 if applicable design for development and splices
3.3 Design for shear and tortion
3.4 Design of slabs
3.5 Design for deflection
3.6 Design of foundation.
4. Feel free to critique and help me with this exercise. As I said before, I've been involved with traffic for so many years, that my memory on a lot of the structural stuff is a bit vague. I would like to learn and get back into structural, bu
Note, I'm sorry if this has been a long winded post, but I'd like to learn and get back into structural for a personal level for now, and perhaps if a job posting comes up for a structural I would at least have some knowledge and information to be able to apply to it with some beginner degree of confidence.
