The first prefabricated house printed entirely in 3D is in Holland, in the city of Eindhoven. This house was inhabited for the first time in April 2021 and is part of a construction project called Project Milestone, carried out by the Eindhoven University of Technology, the municipality of Eindhoven and the companies Van Wijnen, Saint-Gobain Weber Beamix, Vesteda"), and Witteveen + Bos"), whose objective is to build five houses like the one mentioned above. The construction process lasted 120 hours. First a base was built on the ground and later the roof along with various details that gave shape to the construction. The cement was applied using a large robotic arm that worked following the architect's instructions. The house has an area of ​​95 square meters and is made up of 24 pieces of concrete. The following Milestone Project homes are planned to be more architecturally complex and have multiple floors.[10]​[11]​.

American company Mighty Buildings, Inc. aims to build the first net-zero energy community using 3D printing on a two-hectare area in Rancho Mirage, California. This Oakland-based company "Oakland (California)") grew during the Covid-19 pandemic due to the ever-increasing demand for single-family homes[12]​ and plans to build 15 houses equipped with solar panels that are energy self-sufficient. The project will be carried out with the help of Californian real estate developer Basil Starr, CEO of Palari, and has a budget of $15 million. Each home will cost about $100,000 and will have three bedrooms, two bathrooms and backyards. In addition, other configurations will be available that have a secondary residence and other facilities such as electric vehicle charging ports. The price of these commissioned homes will vary between $559,000 and $950,000.[11]​.

Currently, academic literature indicates that, although 3D printing can reduce time and material in the deposition phase, overall competitiveness compared to conventional methods remains case-dependent. Challenges persist in quality control, reinforcement integration, regulatory compliance/standardization and, especially, in subsequent work items such as installations and finishes, which concentrate time and cost when only the envelope is printed.[13]​.

Likewise, adoption studies in emerging markets and in public procurement point to institutional and market barriers, initial costs of equipment and R&D, lack of specialized training, bidding frameworks and still immature sustainability criteria, which condition the diffusion of the technology at scale.[14]​.

Based on these limitations, in the 2020s a "second generation" of solutions has taken shape that seeks to automate more tasks in the construction cycle: robotic platforms capable of printing and, in addition, carrying out complementary operations by changing tools and sensor/AI integration, with the aim of improving the efficiency of the process and the return on investment.[13]​.

As an example of this second approach, Evocons develops a multifunctional robotic platform that integrates 3D concrete printing with other automated operations aimed at accelerating the process and finishes by automating up to 60% of the construction process. Technical and general media have collected recent demonstrations and projects in Gran Canaria with certification in accordance with Spanish regulations. This development is associated with a patented technology (patent EP3733354B1).[4][5]​.

In October 2024, the Agüimes City Council published the tender "La Goleta Training Center - Building proposal executed in 3D printing" (file 2024/8177N).[15]​[16]​ According to the municipal communication collected by the press, it was presented as the first initiative promoted by a public administration in Europe to execute a municipal building using this technology; The document also stipulated a minimum degree of automation, framing the tender as a step of institutional trust towards the deployment of new generation automated construction solutions.[16]​[15]​.

The first prefabricated house printed entirely in 3D is in Holland, in the city of Eindhoven. This house was inhabited for the first time in April 2021 and is part of a construction project called Project Milestone, carried out by the Eindhoven University of Technology, the municipality of Eindhoven and the companies Van Wijnen, Saint-Gobain Weber Beamix, Vesteda"), and Witteveen + Bos"), whose objective is to build five houses like the one mentioned above. The construction process lasted 120 hours. First a base was built on the ground and later the roof along with various details that gave shape to the construction. The cement was applied using a large robotic arm that worked following the architect's instructions. The house has an area of ​​95 square meters and is made up of 24 pieces of concrete. The following Milestone Project homes are planned to be more architecturally complex and have multiple floors.[10]​[11]​.

American company Mighty Buildings, Inc. aims to build the first net-zero energy community using 3D printing on a two-hectare area in Rancho Mirage, California. This Oakland-based company "Oakland (California)") grew during the Covid-19 pandemic due to the ever-increasing demand for single-family homes[12]​ and plans to build 15 houses equipped with solar panels that are energy self-sufficient. The project will be carried out with the help of Californian real estate developer Basil Starr, CEO of Palari, and has a budget of $15 million. Each home will cost about $100,000 and will have three bedrooms, two bathrooms and backyards. In addition, other configurations will be available that have a secondary residence and other facilities such as electric vehicle charging ports. The price of these commissioned homes will vary between $559,000 and $950,000.[11]​.

Currently, academic literature indicates that, although 3D printing can reduce time and material in the deposition phase, overall competitiveness compared to conventional methods remains case-dependent. Challenges persist in quality control, reinforcement integration, regulatory compliance/standardization and, especially, in subsequent work items such as installations and finishes, which concentrate time and cost when only the envelope is printed.[13]​.

Likewise, adoption studies in emerging markets and in public procurement point to institutional and market barriers, initial costs of equipment and R&D, lack of specialized training, bidding frameworks and still immature sustainability criteria, which condition the diffusion of the technology at scale.[14]​.

Based on these limitations, in the 2020s a "second generation" of solutions has taken shape that seeks to automate more tasks in the construction cycle: robotic platforms capable of printing and, in addition, carrying out complementary operations by changing tools and sensor/AI integration, with the aim of improving the efficiency of the process and the return on investment.[13]​.

As an example of this second approach, Evocons develops a multifunctional robotic platform that integrates 3D concrete printing with other automated operations aimed at accelerating the process and finishes by automating up to 60% of the construction process. Technical and general media have collected recent demonstrations and projects in Gran Canaria with certification in accordance with Spanish regulations. This development is associated with a patented technology (patent EP3733354B1).[4][5]​.

In October 2024, the Agüimes City Council published the tender "La Goleta Training Center - Building proposal executed in 3D printing" (file 2024/8177N).[15]​[16]​ According to the municipal communication collected by the press, it was presented as the first initiative promoted by a public administration in Europe to execute a municipal building using this technology; The document also stipulated a minimum degree of automation, framing the tender as a step of institutional trust towards the deployment of new generation automated construction solutions.[16]​[15]​.