Element Consideration
Name
Institution
Introduction
A table refers to the flat top furniture built with one or more legs depending on the usage. In the design industry, there exist different types of tables with a fair similarity in the construction. The flat top of the table receives the supporting factor from trestles, pillars, or legs. The top can be made from several components including metal, stone, wood, or plastic. Moreover, the tables can be divided by identifying whether it’s a mechanical or a fixed table. Tables can be subdivided considering the purpose of the material, the type of material, and the style and form they take depending on the construction technique (Mashdurohatun et al., 2017). This paper seeks to analyze the photo of the table below and describe the major material components of the table and further, reverse engineer the material component, provide the necessary rationale, and explain the manufacturing process validating the aesthetics and function requirement s of the table.
Sketch of the table
Describe and identify the main material components of the table
The sketch above displays a dining table that represents the simple form of furniture in the household. The table parts are made up of the top, apron, legs, and a side stretcher. First, the top surfaces of the table which people place things and dine on vary in the shapes designed. Thus, the surface is made of wood and contains a rectangular shape to fight the design of the dining room area. Secondly, the apron designed on the table serves as a structural component that secures the top and the legs together in the dining table. Thirdly, the sketch shows a simple square, straight legs which highly fit the design of the dining table. Therefore, the wood used in the formation of the table is a hardwood obtained from deciduous trees which bring out durability and beauty in the floor space of your dining house. Moreover, the wood is known as ash which allows the development of the furniture with flexibility as it can be easily bent to develop a shape desired by the owner (Pettersen, 1984).
Reverse engineering of the material component
The dining table with a rectangular glass in rose gold and a trestle base represents a chic style of decoration with the simplicity and sleekness of the table. The design exhibits a glass top in a rectangular form that still fits the choice of a dining table with the supporting features exhibiting a golden trestle base. The spacious rectangular table receives support from robust stainless steel in an open manner which develops plenty of room for the comfortable movement of legs when having a dining experience (CHIARI et al., 2018). The sophisticated nature of this table gives a classic and modern look to your house with a clique of a rusty look hence allowing the lux finishes gives the comfort desired by any owner of this type of table.
The rationale for the material choice
First, the glass material for the top compartment of the dining table shows an elegant look with the use of modern glass. Therefore, the ownership of a glass table in the house displays modernism and this ensures that the trends in the industry remain updated in the system of operation. Moreover, the glass table requires less form of maintenance. Therefore, when cleaning the table less exceptional chemicals are used in the cleanup process. Therefore, the cleanup process for the glass material glasses is easy by the use of a wet cloth saving effort and time on the dining floor. Furthermore, the glass material glorifies and beautifies the dining room. The beauty in the house provided by the dining table might drive anyone to purchase glass tables and materials for the entire room. Finally, the glass tables come in various sizes and designs which provide a standard exploration system of the market availability. The plenty of colors available provides the variety in which it fits well in the dining room space.
Explain why the manufacturing process makes sense for the part of the product in terms of functional and aesthetic requirements of the product
The manufacturing process of the glass dining room table with the base of a stainless steel component begins as soon as the design and the drawings of the specialist on the floor are approved. The process involves the creation of the drawing of the glass table and the 3D model and the production and preparation of the required table equipment. Moreover, the process entails modeling and assembling the glass components to meet the stainless steel base. The manufacturing process is essential in the provision of products that contains a customized level and a price fixation that fits the product. The uniqueness and specialty in the products produced focuses on innovation and great partnerships with the customers for the products for a long period. The manufacturing process ensures that the glass displays all the defects and hence the need to polish the glass edges to attain the high standard in the industry to attain a transparent finishing of the product (Barwich, 2017).
Conclusion
In conclusion, it is necessary to identify the type of material that matches the preference of the owner to ensure that the table design selected fits the outlook one anticipated to be. Furthermore, the choice of the table should fit the purpose intended for during the usage experience. The owner should, therefore, understand the necessity for material choice and the impact of design chosen with the different types of supporting system. By understanding the various components of a dining table one can easily choose wisely and maintain the modernism and chic look in the house. Finally, the manufacturing process plays an important role in the identification of the aesthetic and functional requirements of the table used in the dining room.
References
Barwich, A. S. (2017). Up the nose of the beholder? Aesthetic perception in olfaction as a decision-making process. New Ideas in Psychology, 47, 157-165.
CHIARI, V., & MORENO JUNIOR, A. L. (2018). Factory Price 201 304 304L 316 316L 441 444 436 439 420j1 410s 430 Stainless Steel Sheet with Surface 2b Ba No. 4 Hl Checked Anti-Slip Tread. Revista IBRACON de Estruturas e Materiais, 11(6), 1326-1353.
Mashdurohatun, A., & Mansyur, A. (2017). Product capabilities dynamic on industrial design carved wood in Small and Medium Enterprises (SMEs) Jepara furniture in promoting the protection of intellectual property rights. International Journal of Applied Engineering Research, 12(19), 8217-8226.
Pettersen, R. C. (1984). The chemical composition of wood. The chemistry of solid wood, 207, 57-126.