Architect Calculator Application - A is an application that can help design reinforced concrete structures with a span of no more than 12 meters. In this application, the material for columns, beams, and floor plates has been determined, namely reinforced concrete. The foundation system is a point foundation and a deep foundation with pile made from prestressed concrete in the form of spun pile and square pile.
Features in this Application:
- Calculate the dimensions of columns and beams based on a grid structure
- Estimating dead load, live load and fixed load per grid structure
- Determine the specifications of the pile (pile) in accordance with the fixed load
- Calculate the dimensions of the pile cap that corresponds to the pile foundation
How to use
1. Enter data:
- Select the building function (to determine the type of living load)
- Fill in the length and width of the grid span (to calculate the dimensions of the columns and beams, as well as the area of the grid)
- Fill in the height grid dimensions (to determine the ceiling height from the floor)
- Fill in the number of floors
- Select material (to determine the dead load type)
- Choose the type of pole (spun pile = cylindrical pole, square pile = beam beam)
- Choose the number of poles (the more the number of poles, the smaller the pole size required)
2. Tap the "CALCULATE" button to get the results
3. Tap the "BACK" button to do another count
4. Tap the "X" button to delete all previous inputs
To get the load results for 1 full building, and multiply the number of grids in the building with the load results in this application.
Don't worry, this application will warn you if
- There are fields and options that are not complete (check again)
- Spans more than 12 meters (reduce the length or width)
- Load is too large (reduce the grid structure or multiply the number of foundation poles)
Terms of Use
This application is only used to design structural schemes only because the calculation used is a practical count (rules of thumb). To calculate the actual structural design, a professional architect needs expert help.
Source
- List of pole specifications http://www.jasajualbalikpapan.com/ jual-pondasi-tiang-pancang-beton-bulat-pontianak.html
- SNI 1727-2013 Minimum load for the design of buildings and other structures
- Indonesian loading regulations for buildings 1983
Count:
1. Beam dimensions a (cm) = average span (cm) / 12
2. Beam dimensions b (cm) = beam dimensions a (cm) / 2
3. Dimension of column (cm) = beam dimension b (cm) + 10
4. Distance between poles (mm) = length of poles (m) * 20 + size of poles (mm) * 2.5
5. Thick pile cap (mm) = pole size (mm) * 2 + 100
6. Length of pile cap (1 pole) = left edge (150 mm) + right edge (150 mm) + pole size
7. Width of pile cap (1 pole) = length of pile cap (1 pole)
8. Length of pile cap (2 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
9. Pile cap width (2 poles) = left edge (150 mm) + right edge (150 mm) + pole size
10. Length of pile cap (3 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
11. Pile cap width (3 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + ((distance between poles) ^ 2- - (distance between poles / 2) ^ 2)) ^ (1/2)
12. Length of pile cap (4 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
13. Width of pile cap (4 poles) = length of pile cap (4 poles)
14. Length of pile cap (5 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 3 + ((distance between poles) ^ 2- - (distance between poles / 2) ^ 2)) ^ (1/2) * 2
15. Pile cap width (5 poles) = left bank (150 mm) + right bank (150 mm) + pole size * 2 + distance between poles
16. Length of pile cap (6 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 3 + distance between poles * 2
17. Pile cap width (6 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
Thank you for downloading the Architect Calculator application - A
Please give a rating and review
Features in this Application:
- Calculate the dimensions of columns and beams based on a grid structure
- Estimating dead load, live load and fixed load per grid structure
- Determine the specifications of the pile (pile) in accordance with the fixed load
- Calculate the dimensions of the pile cap that corresponds to the pile foundation
How to use
1. Enter data:
- Select the building function (to determine the type of living load)
- Fill in the length and width of the grid span (to calculate the dimensions of the columns and beams, as well as the area of the grid)
- Fill in the height grid dimensions (to determine the ceiling height from the floor)
- Fill in the number of floors
- Select material (to determine the dead load type)
- Choose the type of pole (spun pile = cylindrical pole, square pile = beam beam)
- Choose the number of poles (the more the number of poles, the smaller the pole size required)
2. Tap the "CALCULATE" button to get the results
3. Tap the "BACK" button to do another count
4. Tap the "X" button to delete all previous inputs
To get the load results for 1 full building, and multiply the number of grids in the building with the load results in this application.
Don't worry, this application will warn you if
- There are fields and options that are not complete (check again)
- Spans more than 12 meters (reduce the length or width)
- Load is too large (reduce the grid structure or multiply the number of foundation poles)
Terms of Use
This application is only used to design structural schemes only because the calculation used is a practical count (rules of thumb). To calculate the actual structural design, a professional architect needs expert help.
Source
- List of pole specifications http://www.jasajualbalikpapan.com/ jual-pondasi-tiang-pancang-beton-bulat-pontianak.html
- SNI 1727-2013 Minimum load for the design of buildings and other structures
- Indonesian loading regulations for buildings 1983
Count:
1. Beam dimensions a (cm) = average span (cm) / 12
2. Beam dimensions b (cm) = beam dimensions a (cm) / 2
3. Dimension of column (cm) = beam dimension b (cm) + 10
4. Distance between poles (mm) = length of poles (m) * 20 + size of poles (mm) * 2.5
5. Thick pile cap (mm) = pole size (mm) * 2 + 100
6. Length of pile cap (1 pole) = left edge (150 mm) + right edge (150 mm) + pole size
7. Width of pile cap (1 pole) = length of pile cap (1 pole)
8. Length of pile cap (2 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
9. Pile cap width (2 poles) = left edge (150 mm) + right edge (150 mm) + pole size
10. Length of pile cap (3 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
11. Pile cap width (3 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + ((distance between poles) ^ 2- - (distance between poles / 2) ^ 2)) ^ (1/2)
12. Length of pile cap (4 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
13. Width of pile cap (4 poles) = length of pile cap (4 poles)
14. Length of pile cap (5 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 3 + ((distance between poles) ^ 2- - (distance between poles / 2) ^ 2)) ^ (1/2) * 2
15. Pile cap width (5 poles) = left bank (150 mm) + right bank (150 mm) + pole size * 2 + distance between poles
16. Length of pile cap (6 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 3 + distance between poles * 2
17. Pile cap width (6 poles) = left edge (150 mm) + right edge (150 mm) + pole size * 2 + distance between poles
Thank you for downloading the Architect Calculator application - A
Please give a rating and review
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