{"id":7939,"date":"2025-03-17T13:51:27","date_gmt":"2025-03-17T12:51:27","guid":{"rendered":"https:\/\/ingenius.ecoledesponts.fr\/?p=7939"},"modified":"2025-03-17T13:55:05","modified_gmt":"2025-03-17T12:55:05","slug":"buildin-a-regional-platform-for-off-site-and-digital-construction","status":"publish","type":"post","link":"https:\/\/ingenius.ecoledesponts.fr\/en\/articles\/buildin-a-regional-platform-for-off-site-and-digital-construction\/","title":{"rendered":"Build\u2019in, a regional platform for off-site and digital construction"},"content":{"rendered":"\n\n\n
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Negative view of a printed formwork (Credit: Stefano Borghi, \u00c9cole nationale des ponts et chauss\u00e9es)<\/figcaption><\/figure>\n\n\n\n

The platform enables large-scale testing and experimentation involving these technologies. In addition to traditional mechanical testing, Build\u2019in features robotic fabrication systems (3 robots with a payload of 150 kg including one with a 9 m axis, bridge crane, truck bay, machining, pick-and-place, 3D concrete printing with XtreeE technology and large-scale thermoplastic 3D printing, tracker, scanner, makerspace, etc.) and expertise provided by researchers, engineers and technicians dedicated to its operation. The mission of this facility is to build a bridge between research and business applications via a variety of industrial collaborations. Dedicated courses, such as the Specialized Master\u2019s\u00ae in Design Building Design, or BIM, Integrated design and building and infrastructural life cycle, also rely on this new platform. Romain Mesnil<\/a>, Dr.Ing.ENPC, is the project manager and described it to us in a few words:<\/p>\n\n\n\n

\u201cVia our projects and research, we quickly identified the high potential of off-site construction to tackle construction challenges. It naturally became one of the key focuses of development.\u00a0 Combined with new shape optimization tools and more virtuous materials, the precision of industrial robotics enables the fabrication of construction systems and new shapes, which are more economical in terms of resources. With this in mind, we are working on the construction of optimized reinforced concrete structures. A partnership with ISC (Ing\u00e9nierie des Structures et des Chantiers, Structural and Building Site Engineering), a Vinci subsidiary, resulted in the design of reinforced beams with the same strength as standard beams, but with reduced mass of between 20% and 50%.<\/em> The fabrication of these beams requires construction of very complex formworks, which is particularly difficult to imagine in a traditional construction context. 3D printing<\/a>, the flexibility and<\/em> precision of industrial robots enables their fabrication at a reasonable cost. Several beams have been used, particularly for one of the Grand Paris Express stations.<\/em><\/p>\n\n\n\n

In line with these concepts, we are also leading action funded by the CFHF (Construire au Futur, Habiter le Futur, Building the Future, Living in the Future) project, which aims to eliminate more general bottlenecks specific to off-site robotized construction taking the construction of the aforementioned beams as the working hypothesis. The complexity of constructional components requires the integration of several processes in a modular production system. It\u2019s now a matter of adapting the plant to the specifics of the world of building and no longer reducing construction to repetition of identical modules. New technical developments are ongoing with our partners, such as printing mortars reinforced with long fibers with XtreeE<\/a>, and others will soon be used: automatic calibration, processing of data from sensors and creation of digital twins of plants and buildings with Hal-Robotics, fabrication of demonstrators closer to application. In collaboration with CSTB (Centre Scientifique et Technique du B\u00e2timent, Scientific and Technical Center for Building), we are also addressing quality control and standardization aspects. These generic tools that enable custom industrial fabrication also have the potential to accelerate the building energy renovation and provide actual performance guarantees and measurements\u201d\u00a0<\/em><\/a><\/p>\n\n\n\n

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Article from the trend report Construction Hors-site 4.0. l’industrialisation, acc\u00e9l\u00e9rateur de transitions.<\/a><\/em><\/p>\n<\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

The platform enables large-scale testing and experimentation involving these technologies. In addition to traditional mechanical testing, Build\u2019in features robotic fabrication […]<\/p>\n","protected":false},"author":9,"featured_media":7756,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_related_content_post":[],"_related_content_subject":[936],"_related_content_author":[4709,4701],"_related_content_category":[1716],"_related_content_folder":[],"_excerpt":"In 2017, ENPC (member of CFHF - Construire au Futur Habiter le Futur<\/em>,\u00a0 Build in the Future, Live in the Future) created Build\u2019in<\/a>, a co-innovation technological platform dedicated to robotics in construction. This platform supported by the Ile-de-France region relies on the expertise of ENPC research laboratories, and particularly the Navier laboratory<\/a>, which is specialized in mechanics for civil engineering.

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\"Negative
Negative view of a printed formwork (Credit: Stefano Borghi, \u00c9cole nationale des ponts et chauss\u00e9es)<\/figcaption><\/figure>\n","innerContent":["\n
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Negative view of a printed formwork (Credit: Stefano Borghi, \u00c9cole nationale des ponts et chauss\u00e9es)<\/figcaption><\/figure>\n"],"rendered":"\n
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The platform enables large-scale testing and experimentation involving these technologies. In addition to traditional mechanical testing, Build\u2019in features robotic fabrication systems (3 robots with a payload of 150 kg including one with a 9 m axis, bridge crane, truck bay, machining, pick-and-place, 3D concrete printing with XtreeE technology and large-scale thermoplastic 3D printing, tracker, scanner, makerspace, etc.) and expertise provided by researchers, engineers and technicians dedicated to its operation. The mission of this facility is to build a bridge between research and business applications via a variety of industrial collaborations. Dedicated courses, such as the Specialized Master\u2019s\u00ae in Design Building Design, or BIM, Integrated design and building and infrastructural life cycle, also rely on this new platform. Romain Mesnil<\/a>, Dr.Ing.ENPC, is the project manager and described it to us in a few words:<\/p>\n","innerContent":["\n

The platform enables large-scale testing and experimentation involving these technologies. In addition to traditional mechanical testing, Build\u2019in features robotic fabrication systems (3 robots with a payload of 150 kg including one with a 9 m axis, bridge crane, truck bay, machining, pick-and-place, 3D concrete printing with XtreeE technology and large-scale thermoplastic 3D printing, tracker, scanner, makerspace, etc.) and expertise provided by researchers, engineers and technicians dedicated to its operation. The mission of this facility is to build a bridge between research and business applications via a variety of industrial collaborations. Dedicated courses, such as the Specialized Master\u2019s\u00ae in Design Building Design, or BIM, Integrated design and building and infrastructural life cycle, also rely on this new platform. Romain Mesnil<\/a>, Dr.Ing.ENPC, is the project manager and described it to us in a few words:<\/p>\n"],"rendered":"\n

The platform enables large-scale testing and experimentation involving these technologies. In addition to traditional mechanical testing, Build\u2019in features robotic fabrication systems (3 robots with a payload of 150 kg including one with a 9 m axis, bridge crane, truck bay, machining, pick-and-place, 3D concrete printing with XtreeE technology and large-scale thermoplastic 3D printing, tracker, scanner, makerspace, etc.) and expertise provided by researchers, engineers and technicians dedicated to its operation. The mission of this facility is to build a bridge between research and business applications via a variety of industrial collaborations. Dedicated courses, such as the Specialized Master\u2019s\u00ae in Design Building Design, or BIM, Integrated design and building and infrastructural life cycle, also rely on this new platform. Romain Mesnil<\/a>, Dr.Ing.ENPC, is the project manager and described it to us in a few words:<\/p>\n"},{"blockName":"core\/paragraph","attrs":{"align":"","content":"\u201cVia our projects and research, we quickly identified the high potential of off-site construction to tackle construction challenges. It naturally became one of the key focuses of development.\u00a0 Combined with new shape optimization tools and more virtuous materials, the precision of industrial robotics enables the fabrication of construction systems and new shapes, which are more economical in terms of resources. With this in mind, we are working on the construction of optimized reinforced concrete structures. A partnership with ISC (Ing\u00e9nierie des Structures et des Chantiers, Structural and Building Site Engineering), a Vinci subsidiary, resulted in the design of reinforced beams with the same strength as standard beams, but with reduced mass of between 20% and 50%. The fabrication of these beams requires construction of very complex formworks, which is particularly difficult to imagine in a traditional construction context. 3D printing, the flexibility and precision of industrial robots enables their fabrication at a reasonable cost. Several beams have been used, particularly for one of the Grand Paris Express stations.","dropCap":false,"placeholder":"","direction":"","lock":[],"metadata":[],"className":"","style":"","backgroundColor":"","textColor":"","gradient":"","fontSize":"","fontFamily":"","borderColor":"","anchor":""},"innerBlocks":[],"innerHTML":"\n

\u201cVia our projects and research, we quickly identified the high potential of off-site construction to tackle construction challenges. It naturally became one of the key focuses of development.\u00a0 Combined with new shape optimization tools and more virtuous materials, the precision of industrial robotics enables the fabrication of construction systems and new shapes, which are more economical in terms of resources. With this in mind, we are working on the construction of optimized reinforced concrete structures. A partnership with ISC (Ing\u00e9nierie des Structures et des Chantiers, Structural and Building Site Engineering), a Vinci subsidiary, resulted in the design of reinforced beams with the same strength as standard beams, but with reduced mass of between 20% and 50%.<\/em> The fabrication of these beams requires construction of very complex formworks, which is particularly difficult to imagine in a traditional construction context. 3D printing<\/a>, the flexibility and<\/em> precision of industrial robots enables their fabrication at a reasonable cost. Several beams have been used, particularly for one of the Grand Paris Express stations.<\/em><\/p>\n","innerContent":["\n

\u201cVia our projects and research, we quickly identified the high potential of off-site construction to tackle construction challenges. It naturally became one of the key focuses of development.\u00a0 Combined with new shape optimization tools and more virtuous materials, the precision of industrial robotics enables the fabrication of construction systems and new shapes, which are more economical in terms of resources. With this in mind, we are working on the construction of optimized reinforced concrete structures. A partnership with ISC (Ing\u00e9nierie des Structures et des Chantiers, Structural and Building Site Engineering), a Vinci subsidiary, resulted in the design of reinforced beams with the same strength as standard beams, but with reduced mass of between 20% and 50%.<\/em> The fabrication of these beams requires construction of very complex formworks, which is particularly difficult to imagine in a traditional construction context. 3D printing<\/a>, the flexibility and<\/em> precision of industrial robots enables their fabrication at a reasonable cost. Several beams have been used, particularly for one of the Grand Paris Express stations.<\/em><\/p>\n"],"rendered":"\n

\u201cVia our projects and research, we quickly identified the high potential of off-site construction to tackle construction challenges. It naturally became one of the key focuses of development.\u00a0 Combined with new shape optimization tools and more virtuous materials, the precision of industrial robotics enables the fabrication of construction systems and new shapes, which are more economical in terms of resources. With this in mind, we are working on the construction of optimized reinforced concrete structures. A partnership with ISC (Ing\u00e9nierie des Structures et des Chantiers, Structural and Building Site Engineering), a Vinci subsidiary, resulted in the design of reinforced beams with the same strength as standard beams, but with reduced mass of between 20% and 50%.<\/em> The fabrication of these beams requires construction of very complex formworks, which is particularly difficult to imagine in a traditional construction context. 3D printing<\/a>, the flexibility and<\/em> precision of industrial robots enables their fabrication at a reasonable cost. Several beams have been used, particularly for one of the Grand Paris Express stations.<\/em><\/p>\n"},{"blockName":"core\/paragraph","attrs":{"align":"","content":"In line with these concepts, we are also leading action funded by the CFHF (Construire au Futur, Habiter le Futur, Building the Future, Living in the Future) project, which aims to eliminate more general bottlenecks specific to off-site robotized construction taking the construction of the aforementioned beams as the working hypothesis. The complexity of constructional components requires the integration of several processes in a modular production system. It\u2019s now a matter of adapting the plant to the specifics of the world of building and no longer reducing construction to repetition of identical modules. New technical developments are ongoing with our partners, such as printing mortars reinforced with long fibers with XtreeE, and others will soon be used: automatic calibration, processing of data from sensors and creation of digital twins of plants and buildings with Hal-Robotics, fabrication of demonstrators closer to application. In collaboration with CSTB (Centre Scientifique et Technique du B\u00e2timent, Scientific and Technical Center for Building), we are also addressing quality control and standardization aspects. These generic tools that enable custom industrial fabrication also have the potential to accelerate the building energy renovation and provide actual performance guarantees and measurements\u201d\u00a0","dropCap":false,"placeholder":"","direction":"","lock":[],"metadata":[],"className":"","style":"","backgroundColor":"","textColor":"","gradient":"","fontSize":"","fontFamily":"","borderColor":"","anchor":""},"innerBlocks":[],"innerHTML":"\n

In line with these concepts, we are also leading action funded by the CFHF (Construire au Futur, Habiter le Futur, Building the Future, Living in the Future) project, which aims to eliminate more general bottlenecks specific to off-site robotized construction taking the construction of the aforementioned beams as the working hypothesis. The complexity of constructional components requires the integration of several processes in a modular production system. It\u2019s now a matter of adapting the plant to the specifics of the world of building and no longer reducing construction to repetition of identical modules. New technical developments are ongoing with our partners, such as printing mortars reinforced with long fibers with XtreeE<\/a>, and others will soon be used: automatic calibration, processing of data from sensors and creation of digital twins of plants and buildings with Hal-Robotics, fabrication of demonstrators closer to application. In collaboration with CSTB (Centre Scientifique et Technique du B\u00e2timent, Scientific and Technical Center for Building), we are also addressing quality control and standardization aspects. These generic tools that enable custom industrial fabrication also have the potential to accelerate the building energy renovation and provide actual performance guarantees and measurements\u201d\u00a0<\/em><\/a><\/p>\n","innerContent":["\n

In line with these concepts, we are also leading action funded by the CFHF (Construire au Futur, Habiter le Futur, Building the Future, Living in the Future) project, which aims to eliminate more general bottlenecks specific to off-site robotized construction taking the construction of the aforementioned beams as the working hypothesis. The complexity of constructional components requires the integration of several processes in a modular production system. It\u2019s now a matter of adapting the plant to the specifics of the world of building and no longer reducing construction to repetition of identical modules. New technical developments are ongoing with our partners, such as printing mortars reinforced with long fibers with XtreeE<\/a>, and others will soon be used: automatic calibration, processing of data from sensors and creation of digital twins of plants and buildings with Hal-Robotics, fabrication of demonstrators closer to application. In collaboration with CSTB (Centre Scientifique et Technique du B\u00e2timent, Scientific and Technical Center for Building), we are also addressing quality control and standardization aspects. These generic tools that enable custom industrial fabrication also have the potential to accelerate the building energy renovation and provide actual performance guarantees and measurements\u201d\u00a0<\/em><\/a><\/p>\n"],"rendered":"\n

In line with these concepts, we are also leading action funded by the CFHF (Construire au Futur, Habiter le Futur, Building the Future, Living in the Future) project, which aims to eliminate more general bottlenecks specific to off-site robotized construction taking the construction of the aforementioned beams as the working hypothesis. The complexity of constructional components requires the integration of several processes in a modular production system. It\u2019s now a matter of adapting the plant to the specifics of the world of building and no longer reducing construction to repetition of identical modules. New technical developments are ongoing with our partners, such as printing mortars reinforced with long fibers with XtreeE<\/a>, and others will soon be used: automatic calibration, processing of data from sensors and creation of digital twins of plants and buildings with Hal-Robotics, fabrication of demonstrators closer to application. In collaboration with CSTB (Centre Scientifique et Technique du B\u00e2timent, Scientific and Technical Center for Building), we are also addressing quality control and standardization aspects. These generic tools that enable custom industrial fabrication also have the potential to accelerate the building energy renovation and provide actual performance guarantees and measurements\u201d\u00a0<\/em><\/a><\/p>\n"},{"blockName":"core\/columns","attrs":{"verticalAlignment":"","isStackedOnMobile":true,"templateLock":null,"lock":[],"metadata":[],"align":"","className":"wp-block-columns","style":"","backgroundColor":"","textColor":"","gradient":"","fontSize":"","fontFamily":"","borderColor":"","layout":[],"anchor":""},"innerBlocks":[{"blockName":"core\/column","attrs":{"width":"100%","verticalAlignment":"","templateLock":null,"lock":[],"metadata":[],"className":"wp-block-column","style":"flex-basis:100%","backgroundColor":"","textColor":"","gradient":"","fontSize":"","fontFamily":"","borderColor":"","layout":[],"anchor":""},"innerBlocks":[{"blockName":"core\/image","attrs":{"id":7749,"width":"165px","height":"auto","sizeSlug":"full","linkDestination":"none","align":"left","blob":"","url":"https:\/\/ingenius.ecoledesponts.fr\/wp-content\/uploads\/2025\/03\/2025_couv_note-tendance.png","alt":"","caption":"","lightbox":[],"title":"","href":"","rel":"","linkClass":"","aspectRatio":"","scale":"","linkTarget":"","lock":[],"metadata":[],"className":"wp-block-image alignleft size-full is-resized","style":"","borderColor":"","anchor":""},"innerBlocks":[],"innerHTML":"\n

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Article from the trend report Construction Hors-site 4.0. l'industrialisation, acc\u00e9l\u00e9rateur de transitions.<\/a><\/em><\/p>\n","innerContent":["\n

Article from the trend report Construction Hors-site 4.0. l'industrialisation, acc\u00e9l\u00e9rateur de transitions.<\/a><\/em><\/p>\n"],"rendered":"\n

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Article from the trend report Construction Hors-site 4.0. l'industrialisation, acc\u00e9l\u00e9rateur de transitions.<\/a><\/em><\/p>\n<\/div>\n"}],"innerHTML":"\n

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