Difference between revisions of "Second Class Meeting - Timothy Felix Vickary"
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Traditional house, House on stilts, is represented on the picture above. To get an easier picture to solve the problem we can disassemble the unity of the house to only the blue rectangular (concrete foundation) in a separated analysis.</p> | Traditional house, House on stilts, is represented on the picture above. To get an easier picture to solve the problem we can disassemble the unity of the house to only the blue rectangular (concrete foundation) in a separated analysis.</p> | ||
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| + | [[File:Foundation assignment timothy.png|thumb|center|upright=0.6|alt=Housing Foundation|Housing Foundation]] | ||
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<p align="justify">'''2. Preliminary Analysis'''</p> | <p align="justify">'''2. Preliminary Analysis'''</p> | ||
| − | <p align="justify">From the given problem, we could assume: | + | <p align="justify">From the given problem, we could assume:</p> |
| − | + | #There is no buckling as the concrete is not a long bar. | |
| − | + | #The concrete seen from upside is square. | |
| − | + | #No torsion, bending, shear stress acting upon the foundation. | |
| − | + | #Only axial loading is imposed. | |
| − | + | #Each foundation (4 foundations supporting a single house) holds 1000 N. | |
| − | + | #Foundation material is homogeneous concrete. | |
| − | + | #Top surface length assumed ‘a’ while bottom surface length assumed ‘b’. | |
| − | + | #Based on ACI code, for normal-weight concrete the modulus of elasticity is Ec=4700√f'c MPa, by assuming the concrete strength (f’c) is 20 we get Ec = 21 x 109 Pa. | |
| − | Below picture describes a more specific of variables required in analysing strain displacement. | + | Below picture describes a more specific of variables required in analysing strain displacement. |
Revision as of 20:39, 22 March 2019
RESUME
What we sense with electric pulse in our neural system is associated with all memorized data. One who use perception is the one who think. The act of thinking is the work of comprehending from heart to brain and action. Man who uses his sense is reminded that God's power is infinity. Human is limited with its profanity, therefore we could only use our sense. Mr DAI continues that by having equipped with our knowledge we are being wiser, think before action and consider any consequences. So, we need to study more not for God's purpose as He is the peak of entity but for ourselves.
That relates to, for instance, foundation material of housing. To engineer the foundation we need not only to consider the strength and firmness, but also the age and economic aspects. Engineering Computation is widely utilized to solved such problem and finding the best result integratedly. Although software assist engineers in simulating the system under ideal or near conditional system, engineer decision still comes in the final. Therefore, brainware should dominates, concurrently having collaboration with software to produce optimum result, ultimately a win-win solution for all. Engineers task could be simplify the complicated model to enable software calculate and simulate the model with its limited ability, which help the processing time.
ASSIGNMENT
Introduction
In the second class of engineering computation, Lecturer mentioned on how modelling works as it has wide appliance in accelerating problem solving which required “computer” help in mathematical processing. Before applying equation, students need a framework from the very beginning after receiving problems until the end of working progress. It is well described in the below flow chart.
The method will then be utilized by student in a given problem which will be carry out and explore further by elaborating equations and performed simulation using EES software in this paper in the form of an assignment to be submitted.
Limitation
All variables used are liberated to be assumed, such as stress, tension, weight, material properties and soon.
Method
1. Define Problem
Traditional house, House on stilts, is represented on the picture above. To get an easier picture to solve the problem we can disassemble the unity of the house to only the blue rectangular (concrete foundation) in a separated analysis.
F is the force acting on the foundation. Force pushing the foundation toward the ground which act as static wall, meaning it gives reaction, hence foundation remain stable.
2. Preliminary Analysis
From the given problem, we could assume:
- There is no buckling as the concrete is not a long bar.
- The concrete seen from upside is square.
- No torsion, bending, shear stress acting upon the foundation.
- Only axial loading is imposed.
- Each foundation (4 foundations supporting a single house) holds 1000 N.
- Foundation material is homogeneous concrete.
- Top surface length assumed ‘a’ while bottom surface length assumed ‘b’.
- Based on ACI code, for normal-weight concrete the modulus of elasticity is Ec=4700√f'c MPa, by assuming the concrete strength (f’c) is 20 we get Ec = 21 x 109 Pa.
Below picture describes a more specific of variables required in analysing strain displacement.
