Executive summary

In this report, there is a plan for a single-story house along with the soil report. This plan is required to use for the construction of the single-story house that is about to be constructed. Firstly we need to develop the design for the house that has been in question for the construction. Then we need to prepare for the winding of the dead and live road across the house. This is the final formation of the plan that will be implemented to construct the building. After this, there will be less formation of the strategies. The material that is used in the footing system needs to be decided in the first place for the proper foundation building. Also, the appropriate roofing system is very important for the construction of the two-story building. A suitable wall system and flooring system is also needed to be added to it. Pier and beam flooring is an alternative to the timber flooring system. This has been used in the construction with maintaining all the standards and norms of the construction as per the Building code of Australia. After evacuating to some depth, the soil strata were favorable for the construction of this residential building. The flooring construction is a system and the other form of the system that is needed for the purpose. The required design and drawing for the construction should be displayed to maintain transparency in the construction work (Nie, et al, 2014).

1. Design

The design needs to be simple and sleek for the comfort of the people residing in the structure. The footing system complied with the system of layout that was set by the plan of the site. The footing will shift the load of the building to the foundation. The building was structured in a way to consider the soil type and the footing system type for the construction of the building. The soil was checked and measured to see how much pressure it can withstand without settling down. The house should contain all the basic amenities including the system that has been the need for living. The amenities that are required for the housing and the looping of the system should be well implemented. For this system, the concrete is poured into two separate slabs on the footing slab. This slab adapts to the slopping sites. It contains a simple framework. It needs simple excavation. The dumping problem is addressed by the damp proof course. The building consists of a timber floor and bearer. The used footing types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation. This is the basic design of the two-story building (Intxaurrondo, et al., 2018).

2. Drawings:
3. Wind dead and live road

The house needs to be wind dead and live road. The construction met the damp-proofing and the requirements of the termite barrier. The requirements that are needed for the protection of Pier and beam shaft construction are stated. For this system, the concrete is poured into two separate slabs on the footing slab. This slab adapts to the slopping sites. It contains a simple framework. It needs simple excavation. The dumping problem is addressed by the damp proof course. The building consists of a timber floor and bearer. The used footing types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation. The construction has used a damp-proof course as a barrier that is placed in the building walls so that moisture could not reach the building in the other parts. It fills the gap between the brick and the pier. The building is harmed considerably due to moisture dampness. The damp proof course and the brickwork is also attached to the construction of the residential building to save it from excess moisture getting inside the walls of the building. This construction has used a damp-proof course as a barrier that is placed in the building walls so that moisture could not reach the building in the other parts. It fills the gap between the brick and the pier (Kibert, 2016). This is complete as per the plan and design of the building and as per the set standards of the construction according to the authority. The dumping problem is addressed by the damp proof course. The soil was checked and measured to see how much pressure it can withstand without settling down. Concrete beams and floor were put up in the slab footings.

The stiffened raft slab is used here as it is the most common among all. Most of the construction is considered damp proof as the flooring system is constructed to meet the required standard of the construction and it is as per the design and plan of the building. The flooring system is the most crucial structure of the construction as it needs to meet the standards of the system plan and design. For this system, the concrete is poured into two separate slabs on the footing slab. This slab adapts to the slopping sites. It contains a simple framework. It needs simple excavation. The dumping problem is addressed by the damp proof course. The building consists of a timber floor and bearer.  The building consists of a timber floor and bearer. The damp-proof course and the brickwork are also attached to the construction of the residential building to save it from excess moisture getting inside the walls of the building (Pacheco, 2014).

4. Roofing Material

The wall system that is selected is a brick veneer. It is for medium-sized buildings. Its loading capacity is 6 kPa and the minimum bearing capacity is 50kPa/slab and 100kPa/strip footing. The used footing types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation. Timber concrete and steel are used for the construction. The depth of the pads as per site class S is 400m. The strip footings were gridded on a spacing maximum of 6m in both directions.  A footing excavation will be made at a certain depth below the surface. The layout details that are required in the plan are taken care of. The other detail in the plan was set for the residential building. The building was structured in a way to consider the soil type and the footing system type for the construction of the building. The soil was checked and measured to see how much pressure it can withstand without settling down. Concrete beams and floor were put up in the slab footings. The stiffened raft slab is used here as it is the most common among all. Most of the construction is considered damp proof as the flooring system is constructed to meet the required standard of the construction and it is as per the design and plan of the building. The flooring system is the most crucial structure of the construction as it needs to meet the standards of the system plan and design. For this system, the concrete is poured into two separate slabs on the footing slab. This slab adapts to the slopping sites. It contains a simple framework. It needs simple excavation. The dumping problem is addressed by the damp proof course. The building consists of a timber floor and bearer. The used footing types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation (Allen & Iano).

5. Appropriate roofing system

The structural integrity of the roofing was assessed by the size and weight of the building that was constructed over it. The roofing used is for medium-sized buildings with a load capacity 6kPa. The roofing can transfer the load of the building to the foundation. Concrete beams and floor were put up in the slab walls. The used wall types are strip slabs and stamp pads. The stump pad walls are mostly used for transferring the load of the building vertically to the foundation. The stiffened raft slab is used here as it is the most common among all. It is made of a 100mm slab, internal beams, and edge beams of steel enforcement. The integrity of the structural roofing was assessed so that it should be as per the standard slab and wall of the building and structure. The soil was checked and measured to see how much pressure it can withstand without settling down. Concrete beams and floor were put up in the slab footings. The stiffened raft slab is used here as it is the most common among all. Most of the construction is considered damp proof as the flooring system is constructed to meet the required standard of the construction and it is as per the design and plan of the building.

The flooring system is the most crucial structure of the construction as it needs to meet the standards of the system plan and design. For this system, the concrete is poured into two separate slabs on the footing slab. This slab adapts to the slopping sites. It contains a simple framework. It needs simple excavation. The dumping problem is addressed by the damp proof course. The building consists of a timber floor and bearer. This goes as per the design and plan of the construction. The plan provided details and depth of the footings along with the slabs. The stiffened beams and the reinforcement of the steel position are all mentioned in the plan of the footing system of the site. This goes as per the design and plan of the construction. The plan provided details and depth of the footings along with the slabs. The stiffened beams and the reinforcement of the steel position are all mentioned in the plan of the footing system of the site. The footing can transfer the load of the building to the foundation. Concrete beams and floor were put up in the slab footings. The stiffened raft slab is used here as it is the most common among all. Hence all the requirements and standards were met while constructing the building (McKay, 2015).

6. Appropriate wall system

The wall system was as per the Building code of Australia standard. The slab is also supported by several strip footings. The concrete is poured into two separate slabs on the footing slab. This slab adapts to the slopping sites. It contains a simple framework. It needs simple excavation. The soil was checked and measured to see how much pressure it can withstand without settling down. Concrete beams and floor were put up in the slab footings. The stiffened raft slab is used here as it is the most common among all. Most of the construction is considered damp proof as the flooring system is constructed to meet the required standard of the construction and it is as per the design and plan of the building. The flooring system is the most crucial structure of the construction as it needs to meet the standards of the system plan and design. For this system, the concrete is poured into two separate slabs on the footing slab. This slab adapts to the slopping sites. It contains a simple framework.

It needs simple excavation. The dumping problem is addressed by the damp proof course. The building consists of a timber floor and bearer (Afsari & Eastman, 2016). The stump pad footings are mostly used for transferring the load of the building vertically to the foundation. Timber concrete and steel are used for the construction. The used wall types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation. A footing excavation will be made at a certain depth below the surface. The waffled shaft that is used is different from other shafts. The ribs of the shafts are formed on the top of the ground where the waffle shaft is used. The wall system needs to be appropriate to the initials that have been formed. The used footing types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation. The used footing types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation (McMullan, 2017).

7. Flooring system

Pier and beam flooring is an alternative to the timber flooring system which has been used. This has been used in the construction with maintaining all the standards and norms of the construction as per the Building code of Australia. This is used because no good soil strata were available within 1.5m of the construction of the building. The problem was with the top layer of the soil only. After evacuating to some depth, the soil strata were favorable for the construction of this residential building. This is used because no good soil strata were available within 1.5m of the construction of the building. The problem was with the top layer of the soil only. After evacuating to some depth, the soil strata were favorable for the construction of this residential building. The flooring system that was laid down and chosen alternative to the timber was meeting the requirements of the construction of the building. The bulk pier and the beam footing are the most commonly used footings that fulfill the standards of the construction of the building. The bored piers are relatively short than the other piers.

This is the footing that is used in place of timber footing often in construction. Even in this building, this is considered to be a unit for construction. The flooring system that was laid down and chosen alternative to the timber was meeting the requirements of the construction of the building. The bulk pier and the beam footing are the most commonly used footings that fulfill the standards of the construction of the building. The flooring is appropriately built considering the soil type and the footing system of the construction. This is a residential building on the second floor. The used footing types are strip slabs and stamp pads. The stump pad footings are mostly used for transferring the load of the building vertically to the foundation. The flooring system is wisely selected for the construction to make it damp-proof. Most of the construction is considered damp proof as the flooring system is constructed to meet the required standard of the construction and it is as per the design and plan of the building (Grubeša, et al., 2016).

8. Drawing:

References

Afsari, K., & Eastman, C. M. (2016, April). A comparison of construction classification systems used for classifying building product models. In 52nd ASC annual international conference proceedings (Vol. 10). https://d1wqtxts1xzle7.cloudfront.net/45916594/CPRT198002016-with-cover-page-v2.pdf?Expires=1661945390&Signature=WJ4XDndL9dri4GQWsLnijuCSGDz~4l8RQZvFrOtVQqDd0PfayCPEOh1c8WIrcOe5-0SRsRLXFCW~U3sNYTI3sRuvgr9teRHmTEYaqaQoLc-7NBC157huQmmJ5ZmSWdSlPHBfcQnUwt6zEM-hHGVwxaE-cXM5VQ0NX5Dyqvdhsk~85bd2GwtL-4rH9-~I~qYDlGo5pMyZsRKFse3hn1A1RVi3~CEnoki9j4GsvG0mAZ5uxrxDMEhX5xkEa93am2eTw4Z6o9RdL4~F7jgYMlPvwU6LhxChsV6Y4Ps9fsT0cLLIRpkcWrLlLMZZZuS4~JlT55svB7vcFqUVStNIRbfr6g__&Key-Pair-Id=APKAJLOHF5GGSLRBV4ZA

Allen, E., & Iano, J. (2019). Fundamentals of building construction: materials and methods. John Wiley & Sons. https://books.google.co.in/books?hl=en&lr=&id=2HGqDwAAQBAJ&oi=fnd&pg=PR11&dq=construction+of+building&ots=oqYQ9ZxroY&sig=lUJjnGrHvGk1kq6KQ65p7bFeG7Q&redir_esc=y#v=onepage&q=construction%20of%20building&f=false

Grubeša, I. N., Barisic, I., Fucic, A., & Bansode, S. S. (2016). Characteristics and uses of steel slag in building construction. Woodhead Publishing. https://books.google.co.in/books?hl=en&lr=&id=pqiaCgAAQBAJ&oi=fnd&pg=PP1&dq=construction+of+building&ots=fCuJVARGCI&sig=7X7T-JrNDB-MAbiPFzIw6BP7byI&redir_esc=y#v=onepage&q=construction%20of%20building&f=false

Intxaurrondo, A., de la Torre, J. C., Rodríguez Betanco, H., Marimon, M., Lopez-Martin, J. A., Gonzalez-Agirre, A., … & Krallinger, M. (2018). Resources, guidelines, and annotations for the recognition, definition resolution, and concept normalization of Spanish clinical abbreviations: the BARR2 corpus. In Proceedings of SEPLN (pp. 1-9). https://temu.bsc.es/BARR2/downloads/corpus-BARR2.pdf

Kibert, C. J. (2016). Sustainable construction: green building design and delivery. John Wiley & Sons. https://books.google.co.in/books?hl=en&lr=&id=2xgWCgAAQBAJ&oi=fnd&pg=PR15&dq=construction+of+building&ots=G9Zn5Ke5vx&sig=AEOfPOW3XpTYA13B7YqHaDrHcKg&redir_esc=y#v=onepage&q=construction%20of%20building&f=false

McKay, W. B. (2015). McKay’s building construction. Routledge. https://books.google.co.in/books?hl=en&lr=&id=VO8vCgAAQBAJ&oi=fnd&pg=PP1&dq=construction+of+building&ots=BCsslaEO68&sig=HH9ieQHzxrBCtjwDniko-Fjc5cA&redir_esc=y#v=onepage&q=construction%20of%20building&f=false

McMullan, R. (2017). Environmental science in the building. Bloomsbury Publishing. https://books.google.co.in/books?hl=en&lr=&id=2RxHEAAAQBAJ&oi=fnd&pg=PR1&dq=construction+of+building&ots=c0dhjbLXHY&sig=CQifxqx7ZMHCycO9hzBT7cOHYvg&redir_esc=y#v=onepage&q=construction%20of%20building&f=false

Nie, L., Akbari, M., Li, T., & Chua, T. S. (2014, January). A joint local-global approach for medical terminology assignment. In MedIR@ SIGIR. http://ceur-ws.org/Vol-1276/MedIR-SIGIR2014-06.pdf

Pacheco-Torgal, F., Cabeza, L. F., Labrincha, J., & De Magalhaes, A. G. (2014). Eco-efficient construction and building materials: life cycle assessment (LCA), eco-labeling and case studies. Woodhead Publishing. https://books.google.co.in/books?hl=en&lr=&id=XjLDDwAAQBAJ&oi=fnd&pg=PA1&dq=construction+of+building&ots=J94kOYuDs8&sig=eayope2q0Hp5FJHmilU5YmNm6zw&redir_esc=y#v=onepage&q=construction%20of%20building&f=false