Vertebrae Staircase Components Samples †MyAssignmenthelp.com

Question: Discsuss about the Vertebrae Staircase Components. Answer: Vertebrae Staircase / Andrew McConnell The staircase is one of the interesting components of a house. From the uses, the staircase has turned to be a key element, which designers must pay close attention to. The design changes to suit different aspects keep on happening on different parts of the construction industry. The staircase is not an option and this has witnessed different designs being presented and done. One of the interesting staircase which I enjoy designing is the Vertebrae staircase, which is represented on the article by Karissa Rosenfield. Andrew McConnell first did the design of this staircase. It is known that the design of the staircase was inspired by whale spine, where the stair is able to represent the organic form of the animal (Rosenfield, 2013 and Rust, 2005). This article will represent to major key parts of the staircase, which include the landing and the guardrail components. In details, the paper will talk about the design aspects and the intended aesthetic factors of the parts. Lastly, this p aper will look at the different materials, which are used, and their intention in the staircase. The landing is a key component of the staircase since it is able to bear the completely moving weight. During the design of the staircase, this part must be strong enough to be able to bear the load and withstand the forces, which are applied. Floor plates are used in this type if staircase as the main landings. The landings, which are the floor plates are only attached on one area, which connects to the guardrail. This is done to bring out the aesthetic part of a whale spine. The lack of double support on both ends makes the staircase interesting and worth enjoyable in designing (BD L (Firm), 2011). Moreover, the beat part of every design design relies on the structural capability to be able to carry the design load. This is well taken care of since different materials with different strength are used to ensure that the staircase does not fail under the load. The design uses steel in order to take care of the structural capability to carry the design load. Steel firing are used in the staircase in order to the required strength capability (Rosenfield, 2013). Different connections are made inform of structural spirals, which are able to run through the vertebra and the handrail. In addition, structural foam and the network of the steel connections are used in the design to attain the required strength of the staircase (Caswell Recorded Books, Inc., 2012). The different parts are unified by the vertebra section and therefore increasing the aesthetic part of the staircase. The interlocking of the parts is rigid and self-supporting to ensure that the staircase is able to meet the different aspects of design. In terms of materials used, the staircase utilizes the durable layer of fiber materials, which is able to enhance the appearance and aesthetic of the staircase. The design of the landings is done to ensure that the landing will not fail under loss (Rosenfield, 2013). The connection s of steel to the vertebra and structural spiral are well connected to ensure that the design parameters are met. components making the landing The networks of steel rods are able to enhance the structural requirements and enhance its ability to withstand forces. Steel plates are connected and modified well at the floor. This ensures that the staircase is well anchored to the floor and provides required stability (Rosenfield, 2013). The loads on the staircase are directly transfered to the floor section. The modifications of the vertebrae staircase are done in such a way where there are no hidden supports. The connections are done well to ensure that they transfer the loading and do not fail under them. In addition, the plates are design to resist the twisting and rotational forces which can be resulting from the cantilevered spiral or the steps (Hirato et al, 2017b). The steps arrangement is done to ensure that additional weight is not applied on specific steps. The handrail is designed to ensure that the safety measures are closed looked at. The staircase is able to provide the handrail on one side. The design is able to represent the whale vertebra part and thus increasing the aesthetic look of the staircase. The composite material is used to enhance the aesthetic factors of this part. This creates a much admirable look of the staircase from different perspective. The handrail must have the design capability to resist different forces, which are available when exerted (Masubuchi, 2010). The arrangement if the staircase landings and handrail are able to enhance design and appearance conditions. The major layout of the staircase starts from the floor arrangement. The spiral arrangement of the staircase is able to enhance the aesthetic factor of the staircase (Rosenfield, 2013). The arrangement is able to follow the spine of the staircase and therefore enhancing the appearance. The different material used in the design and construction of thi s staircase is able to enhance the structural and aesthetic factor of the staircase. The stell and other hard components are placed inward to enhance the structural design capability of the staircase to carry the loadings (Hirato et al, 2017a). Additionally, the use of the composite on the outerwards enhances the aesthetic factor. The composite use is appealing in nature and therefore able to to enhance the attraction. Spiral nature of the handrail In conclusion, different designs of staircases are able to emerge to meet the aesthetic factors. The Vertebrae Staircase is one of the staircase, which is gaining fame and designed a lot nowadays. With the representation of a whale spine representation is able to enhance the key design feature of the staircase. The material used, that is the steel and composite materials are able to take care of the structural capacity and the aesthetic factors respectively. The spiral nature of the staircase is able to enhance the stability nature of the staircase. The anchoring to the floor is done to enhance the stability and transfer to loading from the staircase to the floor. The design intentions are to create a unique staircase design, which beats the norm of design. Using connections enhances the stability and load transfer. References BD L (Firm). (2011). The Big book of small house designs: 75 award-winning plans for houses 1,250 square feet or less. New York: Black Dog Leventhal Publishers. Caswell, J., Recorded Books, Inc. (2012). The eon staircase. Place of publication not identified: Whiskey Creek Press. Hirato, R., Sugita, S., Selland, E., Pourian, P., Bogden, K., Ugly Duckling Presse,, McNaughton Gunn,. (2017a). Spiral staircase. Hirato, R., Sugita, S., Selland, E., Pourian, P., Bogden, K., Ugly Duckling Presse,, McNaughton Gunn,. (2017b). Spiral staircase: Collected poems of Hirato Renkichi. Masubuchi, M. (2010). Staircase as a lightweight structure: Architectural and structural analysis and design. Place of publication not identified: Vdm Verlag. Rosenfield K. (February, 2013). Vertebrae Staircase / Andrew McConnell. https://www.archdaily.com/330589/vertebrae-staircase-andrew-mcconnell Rust, G. (2005). Revisiting the painted house: More than 100 new designs for mural and trompe l'oeil decoration. New York: Bulfinch Press.