3D Printing and Future of Architecture



3D Printing代写 3D printing was an emerging technology.In the architectural industry, 3D printing was used to model the concepts and create visualizations.

Table of Content

Abstract ———————————————————————————3

3D Printing and Future of Architecture ———————————————————————————4

      Introduction ———————————————————————————4

      3D Printing ———————————————————————————5

             Definition ———————————————————————————5

             Advantages of 3D Printing in Architecture ———————————————————————————5

Future of 3D Printing ———————————————————————————7

Building the Houses of the Future ———————————————————————————7

Conclusion ———————————————————————————8

Abstract 3D Printing代写

The modern technology revolutionized how architecture looks and developed. 3D printing was an emerging technology with various applications ranging from constructions, health, manufacturing, and other industrial applications. In the architectural industry, 3D printing was used to model the concepts and create visualizations. Architectural visualization was used to communicate the structural idea to the prospective clients and investors. Structural visualization offers the depth, dimension, and texture of the design.

Moreover, people were more inclined to look at physical impression rather than the pictorial representation. The report explored the role of 3D printing and the future of the architectural industry. In essence, the report presented the advantages accruing to the architecture in the use of 3D printing tools. It was found that 3D printing has reduced the time taken to produce a visual model of the structure. The 3D technology is fast and less time is need to print the part or the whole of the project. It was also predicted that the digital fabrication will transform how the modern structures will be constructed.

3D Printing代写
3D Printing代写

3D Printing and Future of Architecture 3D Printing代写


The art in architecture transformed over time, and a lot changed ranging from consumer preferences, technology, and building materials. The architecture industry therefore, became highly competitive requiring every player to adopt with the new changes. There was a constant competition for every project architecture an architect is given. As a result of competition, architectural consumers had variety of choices which geared the architecture to the extreme preformation orientation and innovation. Thus, it became a necessity to have an incentive to make their work stand out and be chosen by the client. In these regards, the architect turned to the Additive Manufacturing for help in making the best impression for their products (Cummins, 2010). The advent of the 3D Printing was the start of the revolutionary architectural production and combined with other modern technologies; its future could only be imagined.3D Printing代写 **范文

The 3D printing was applied in architecture mainly for conceptual modeling and to offer the client or the investor a visual perspective of the design. 3D printing and modeling had become a complementary tool in rendering images and computer models in architectural structures (Fox, 2017). The Future of Advanced Manufacturing: Design for 3D Printing and Implementation of Digital Factories. The basic tenet of the architectural 3D modeling was to create real communication of the concepts regarding depth, dimension, and texture. Thus, individuals and companies used it as the way to stand out in the midst of competition as it offered various differentiation aspects.

As such, the report presented the advantages that accrued to the use and application of 3D printing and modeling in architecture. Further, the report covered the prospects of the architecture vested on the growing potential of 3D printing technologies.

3D Printing 3D Printing代写


3D printing is a type of manufacturing process that additively and rapidly develop 3D parts in layers for the Computer Aided Design (Excell, 2013). The technology had the capability to produce the part of any shape and design from the digital model data in a 3D model. There were various 3D technologies used in the printing process (Statista, 2018).

Advantages of 3D Printing in Architecture

Cost: Traditionally, making a model by the use of freehand is time-consuming and tedious. Time and size notwithstanding, creating a model using cardboards, woods or foam is hard work. A 3D printing, on the other hand, saves on the time taken in the production of the model or the prototype. In essence, the technology cuts the cost of producing a 3D model by more than 75 percent(Lansard, 2018). This was a milestone in the process of the modeling process as it saved time and the budget too. The technology was low cost with high-quality output and could be used to produce various parts of the project at the same price it will have to take to create one part of the plan by hand.3D Printing代写 **范文

The 3D modeling made it possible to create the test for models faster for identification of changes and improvements needed to produce a perfect model feasible for the client attention. The technology also lowered the cost of mistakes on the design. Moreover, the technology allowed the artist to work with various materials and machines with the freedom to make printing priorities in design and printing. As such, those who wanted to keep the cost to the minimum, there was an option for cheaper materials as well as 3D printers.


Speed: Speed was vital when the engineers wanted to solve the problem of modeling. Traditional methods of modeling were time-consuming and exhausting. The processes involved putting up things together which took days to complete. After the introduction of 3D printing, the artists could model their work in a span of hours or days depending on the complexity of the project, a thing that was not a reality in hand modeling(Whitwam, 2017).3D Printing代写 **范文

Furthermore, it also became more accessible to change the design by the customer specifications through remodeling and printing. Also, modifications could be made with ease and at the lower price, and specific design which were out of the ordinary could still be produced through specialist printers. Such projects used the help of the specialists who offered advice on the most efficient and effective way to carry out the concept modeling.


Quality: Quality of the visual model was vital in the production of the 3D architectural visual concepts. The traditional models were prone to weaknesses and flaws, and they were impossible to model complicated structures compared to 3D printing. Therefore, the use of 3D printing enabled the creation of stronger models that were complex and withstand the weight. In 3D modeling, the artist had the freedom to use the full range of designs which were detailed without limits of complexity(Whitwam, 2017).3D Printing代写 **范文

As such, the artists were also free to a user a wide variety of materials and finishes to their models. The artist, therefore, could print architectural structures vividly and accurately with high resolution. With the wide range of materials to choose from, the artists could print high resolution structures. These materials also have properties that make the models be of high quality. With 3D printing, the coloring of the structures is also possible.

Additionally, the technology also made it possible to develop sophisticated models like domes and arches, which were not possible with the use of traditional methods


Concept Communication: 3D printing became a medium of communication through visualization. Architectures were able to communicate their designs to the clients and investors using visual models which are not possible before the invention of 3D printing(Labelle, 2016). The visual models become interactive with customers.3D Printing代写 **范文

A 3D printing makes it possible for the developer to communicate the progress of the project by displaying it at different stages.

Moreover, the quality models give the impression to the property developers which enable them to work with a guide to the impact they needed to achieve.

Future of 3D Printing 

3D printing technology is undergoing innovations and reinventions each day. Therefore, its future is an unstoppable force. A few years ago, 3D printing was only used for rapid prototyping, today due to the advancement in technologies and computing speed, and additive modeling was made possible. With the development of 3D to the full scale, it will mean more application, faster printing, complexity in modeling.

Building the Houses of the Future 3D Printing代写

Human ambitions were beings stretched to the limits due to curiosity and need to explore. There was a team of architectures in London and Amsterdam working on the production of the first habitable printed structure through technologies which could transform the houses of the future. The innovation driven by developing a model, method, materials, and approaches in 3D printing and modeling (Chalcraft, 2013). They were looking forward to unveiling a new thing that has never been tried before, and if successful, it will transform how technology is used to develop structures.

Moreover, the 3D printing technology was also being developed to print the whole city. Developers in the United States were contemplating how to create a big printing machine which will use sand and other building materials and chemicals to print buildings in the city (Chalcraft, 2013). The digital fabrication is, therefore, ushering in the third era of construction technology.3D Printing代写 **范文

3D Printing代写
3D Printing代写


The 3D modeling and visualization is the technology of the future in the architecture. Since its development, much had changed in the production of visual structures which were not possible before with traditional hand modeling. As such, 3D printing made the architectural modeling quick, cheap, communicative, and of high quality. As the technologies were advancing, so does the 3D printing is transforming digital fabrication. It was therefore predicted that 3D model and visualization hold a brighter future of the architectural industry.

References 3D Printing代写

Cummins, K. (2010). The rise of additive manufacturing | The Engineer. Retrieved from https://www.theengineer.co.uk/issues/24-may-2010/the-rise-of-additive-manufacturing/

Chalcraft, E. (2013). How 3D printing will change architecture and construction. Retrieved from https://www.dezeen.com/2013/05/21/3d-printing-architecture-print-shift/

Fox, S. (2017). The Future of Advanced Manufacturing: Design for 3D Printing and Implementation of Digital Factories. Retrieved from https://www.industryweek.com/emerging-technologies/future-advanced-manufacturing-design-3d-printing-and-implementation-digital

Labelle, C. (2016). How Multi-Colour 3D Printing Helps Communicate Ideas. Retrieved from https://3dprinting.com/3d-printing-use-cases/how-multi-colour-3d-printing-helps-communicate-ideas/

Lansard, M. (2018). 3D printing for architecture guide – 3D printing and the architecture industry. Retrieved from https://www.aniwaa.com/3d-printing-for-architecture/

Statistic. (2018). Most used 3D printing technologies 2017-2018. Statista. Retrieved from https://www.statista.com/statistics/560304/worldwide-survey-3d-printing-top-technologies/

Whitwam, R. (2017). MIT Boosts Speed of 3D Printing by 10 Times – ExtremeTech. Retrieved from https://www.extremetech.com/extreme/259661-mit-boosts-speed-3d-printing-10-times


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