Cementitious 3D Construction Printing Market Report 2025 (Global Edition)

Global Cementitious 3D Construction Printing Market Report 2025 Market Size Split by Construction Method (Extrusion, Power Bonding, Others), by End Use (Building, Infrastructure), by Material Type (Co...

Cementitious 3D Construction Printing Market Report Description

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Cementitious 3D Construction Printing Market Insights Video

Competitive Landscape of Cementitious

The key players are adopting advancements in large-scale additive manufacturing, enabling rapid and cost-effective construction of buildings and structures. Technological innovation, strategic partnerships, and sustainable construction practices are driving competition and shaping the industry's growth trajectory. As demand for efficient and sustainable Cementitious 3D Construction Printing construction solutions rises, these players continue to vie for market leadership through cutting-edge technologies and market expansion efforts. 

November 2020: PERI GmbH builds 3D printed commercial apartment building consisting of 5 apartments and three floors in Wallenhausen, Germany. The approximately 380 square meters of building space was constructed using 10.12. COBOD International A/S's patented 3D construction printer.

(Source:www.stirworld.com/see-features-peri-group-makes-germany-s-first-3d-printed-apartment-building)

Top Companies Market Share in Cementitious 3D Construction Printing Industry: (In no particular order of Rank)

• COBOD International A/S
• Yingchuang Building Technique (Shanghai) Co.Ltd.(Winsun)
• XtreeE
• Apis Co.
• WASP S.r.I
• CyBe Construction
• Sika AG
• MX3D
• Contour Crafting Corporation
• ICON Technology
• Inc.
• Constructions-3D President Translation Service Group International (PTSGI)
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*List of Second Tier Companies, List of Third Tier/ Start-up Companies (Inquire with sales executive) Request Any Company Profile for Preview Purpose OR Data Validation!

If any Company(ies) of your interest has/have not been disclosed in the above list then please let us know the same so that we will check the data availability in our database and provide you the confirmation or include it in the final deliverables.

The Asia-Pacific Region hold the Largest Share of the Cementitious 3D Construction Printing market

According to Cognitive Market Research, Asia-Pacific dominated the market in 2022. It accounted for a share of more than 40% of the global revenue due to substantial investments in research and development and implementation of 3D printing techniques. Rapid urbanization, population growth, and the need for sustainable and cost-effective construction solutions are driving the adoption of 3D Printing in various countries. Government initiatives promoting innovative construction methods further bolster the market. The region's construction industry embraces this technology to address housing shortages and infrastructural demands. Due to the increase of technology providers, construction firms and governmental support, the region is poised for more expansion and reshape the future of the construction sector.

China and Japan Cementitious 3D Construction Printing market Expected to Grow significantly during the Forecast Period

According to Cognitive Market Research, due to rapid urbanization, ambitious infrastructure projects and the government's support for innovative technologies, China and Japan are anticipated to hold a strong position in Asia-Pacific. Both countries see rising collaborations between construction companies and technology providers, leading to advancements in materials and techniques. China emphasizes large-scale projects as the market matures, while Japan emphasizes quality and resilience, shaping their unique trajectories in the global Cementitious 3D Construction Printing arena. 

The Prime Reasons for Cementitious 3D Construction Printing to Witness the Fastest Growth in the North American Region in the Coming Years

The increasing adoption of advanced construction technologies and a demand for sustainable and cost-efficient building solutions are driving market expansion in the North American region. Additionally, governments and private sectors are investing in research and development, fostering innovation, and promoting the adoption of 3D Printing in construction. The region's established infrastructure, skilled workforce, and robust regulatory environment further facilitate market growth. Prominent players in the industry are collaborating with local partners to develop cutting-edge solutions that address housing and infrastructure challenges. With these factors converging, the North American Cementitious 3D Construction Printing market is poised for substantial development in the coming years.

The current report Scope analyzes Cementitious 3D Construction Printing Market on 5 major region Split (In case you wish to acquire a specific region edition (more granular data) or any country Edition data then please write us on info@cognitivemarketresearch.com

• North America (United States, Canada, Mexico)
• Europe (United Kingdom, France, Germany, Italy, Russia, Spain, Sweden, Denmark, Switzerland, Luxembourg, Rest of Europe)
• Asia Pacific (China, Japan, South Korea, India, Australia, Singapore, Taiwan, South East Asia, Rest of APAC)
• Latin America (Brazil, Argentina, Colombia, Peru, Chile, Rest of South America)
• Middle East (Saudi Arabia, Turkey, UAE, Egypt, Qatar, Rest of Middle East)
• Africa (Nigeria, South Africa, Rest of Africa)

The above graph is for illustrative purposes only.

Cementitious 3D Construction Printing Market Analysis

Construction Method Segment Analysis

According to Cognitive Market Research, extrusion is one of the most prominent methods utilized in the market for Cementitious 3D Construction Printing. It is due to the high demand for concrete materials used in various industries. This method involves the controlled deposition of construction materials layer by layer to create intricate structures. Typically, a specialized nozzle extrudes a mixture of construction materials, such as concrete or cement, combined with additives to enhance strength and workability. This method offers high precision and allows for the creation of complex geometries with minimal material waste. It is widely adopted for constructing walls, partitions, and entire buildings.

Power bonding, also known as power-based 3D Printing, is the second-most used construction method. This technique involves the selective binding powdered construction materials using adhesives, binders, or other chemical reactions. Layers of powder are selectively bonded together to form a solid structure. Additionally, it allows for using a diverse range of construction materials, including cement, gypsum, and even recycled materials. It helps in reducing construction time and creates intricate designs. 

• Extrusion
• Power Bonding
• Others

The above Chart is for representative purposes and does not depict actual sale statistics. Access/Request the quantitative data to understand the trends and dominating segment of Cementitious 3D Construction Printing Industry. Request a Free Sample PDF!

End-Use Segment Analysis

According to Cognitive Market Research, the building segment encompasses the construction of residential, commercial, and industrial structures using 3D printing technology. This segment has gained significant traction due to its ability to expedite construction processes, reduce material wastage, and offer innovative design possibilities. In the residential sector, Cementitious 3D Construction Printing has enabled the creation of affordable housing solutions, especially in regions with housing shortages. Furthermore, the building segment benefits from reduced labor costs and increased safety on construction sites, as automated machines undertake many construction tasks.

The Cementitious 3D Construction Printing for infrastructure segment focuses on large-scale projects such as bridges, roads, highways, and other public utilities. Cementitious 3D Construction Printing's potential to revolutionize infrastructure development lies in its ability to create durable and structurally sound components. Moreover, the technology's rapid construction capabilities are invaluable for addressing urgent infrastructure needs in disaster-stricken areas, where quick rehabilitation is crucial.

• Building
• Infrastructure

The above Graph is for representation purposes only. This chart does not depict actual Market share.

Cementitious 3D Construction Printing Material Type Segment Analysis

Concrete is the Cementitious 3D Construction Printing market's most popular material. Its versatility, affordability, and ease of use make it an attractive choice for various applications. With the ability to create composite geometries and structures, concrete-based 3D Printing has paved the way for innovative architectural designs and even entire houses. Special concrete mixes and additives enhance its properties, such as tensile strength and flexibility, further expanding its potential applications.

According to Cognitive Market Research, metal-based is the second-most popular material. Metal-based 3D Printing offers unparalleled strength and durability. Construction companies can use materials like steel and aluminum to produce robust components for infrastructure projects, such as bridges and industrial structures. Metal 3D printing also enables the creation of intricate and customized parts, reducing the need for assembly and welding, thereby enhancing efficiency.

• Concrete
• Metal
• Composite
• Others

Cementitious 3D Construction Printing Concrete Type Segment Analysis

• Shotcrete
• Precast
• High-Density
• Ready-Mix
• Others

Cementitious 3D Construction Printing Printing Type Segment Analysis

Printing Type Segment Analysis

In the realm of 3D construction printing, gantry systems and robotic arms represent two prominent methodologies, each offering distinct advantages tailored to specific project requirements. Gantry systems operate on a fixed-frame structure, moving along three linear axes (X, Y, Z), making them ideal for large-scale, repetitive construction projects. Their design ensures high precision and stability, allowing for the efficient production of uniform structures such as walls and entire buildings. The scalability of gantry systems enables the printing of extensive structures in a single setup, reducing construction time and costs. However, their rigidity limits design flexibility, making them less suitable for intricate architectural elements.
On the other hand, robotic arms offer multi-axis movement, providing unparalleled design freedom. Their ability to maneuver in five or six axes allows for the creation of complex geometries, including curves and overhangs, without the need for support structures. This flexibility makes robotic arms ideal for projects requiring intricate designs, such as architectural facades and custom furniture. Additionally, their compact and portable nature allows for easy relocation between sites. However, robotic arms typically have a limited reach and are better suited for small to medium-scale projects.
In summary, the choice between gantry systems and robotic arms in 3D construction printing hinges on project-specific needs: gantry systems excel in large-scale, repetitive builds with high precision, while robotic arms offer superior flexibility for complex, design-intensive projects.
References:  https://www.vertico.com/wiki/robotic-arms-vs-gantry-systems-3d-concrete-printing
https://www.xometry.com/resources/3d-printing/3d-printer-robotic-arm/
 

• Gantry System
• Robotic Arm

Author's Detail

Swasti Dharmadhikari

Research associate at Cognitive Market Research

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Swasti Dharmadhikari, an agile and achievement-focused market researcher with an innate ardor for deciphering the intricacies of the Service & Software sector. Backed by a profound insight into technology trends and consumer dynamics, she has committed herself to meticulously navigating the ever-evolving terrain of digital Services and software solutions.

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