|Market Size in 2022
|Market Forecast in 2030
|CAGR (in %)
|USD 3.5 Billion
|USD 523.3 Billion
3D Printing for Construction Market
The global 3D Printing for Construction market size was worth around USD 3.5 billion in 2022 and is predicted to grow to around USD 523.3 billion by 2030 with a compound annual growth rate (CAGR) of roughly 87% between 2023 and 2030.
A technique called 3D printing construction involves building 3D structures layer by layer using a 3D printer. To demonstrate the approach, researchers have printed whole buildings in clay or concrete off-site as well as polymer, concrete, and metal bridges. The method allows for quicker construction while utilizing fewer resources and paying less for labor. The increased usage of 3D printers in the construction sector for producing exact final goods, developing ideas, and prototyping while reducing production and material costs is what is driving the market. Additional benefits include high precision that boosts productivity, lower labor costs, and quicker printing, all of which support the expansion of the 3D printing construction sector. Additionally, the increased use of green buildings and structures globally is one of the key factors driving market growth.
Growing adoption of BIM drives market growth
A collaborative, technological work approach called Building Information Modelling (BIM) shows a 3D representation of a building project, enabling the architect and engineers to spot possible problems early on. BIM helps experts expedite the work process and avoid conflicts before the actual building activities begin by supplying graphical and non-graphical information about a designed construction project. Construction businesses will increasingly use digital technologies like 3D printing for developing novel buildings as a result of the industry's revolutionary move toward such technical progress. For instance, the German Government's BIM Initiative has mandated that BIM be utilized in all contracts about the development of public infrastructure as of December 2020. A project like this will increase the use of 3D printing in the building industry, which will boost the global 3D printing for construction market.
Structural Integrity and safety act as a major restraining factor to the market growth
The fact that 3D printing is insufficient to make a structure viable has long been an area of concern for the 3D-printed building. Other than the walls and frames, additional components utilized in residential buildings, including the plumbing and electrical parts, have short usage lives. The fact that 3D printing materials like concrete, gypsum, sand, and geopolymer tend to degrade and lose some of their structural integrity over time is also a significant disadvantage of this technique. Such 3D printing problems might compromise the strength of the overall building structure, which could negatively influence its application in the construction industry and hinder the market growth of 3D printing for construction industry.
Increasing investment in commercial construction provides a lucrative opportunity for the market
Due to its speed, affordability, and sustainability compared to traditional construction methods, 3D printing is being employed in the building sector. Since they serve as locations for establishing businesses, commercial properties make up a significant percentage of the built environment in the construction industry. As a result, major industrialized nations have seen a huge surge in expenditure on commercial buildings. For instance, the UK's investment in infrastructure and other commercial projects climbed to US$651.4 million in February 2022, according to the Office of National Statistics. In addition, the US Census Bureau reports that compared to the same month in 2020, when construction spending on healthcare was US$46.7 million, it was US$51.3 million in November 2021, a 9% increase. Growing investments in commercial buildings will increase the usage of 3D printing in the construction industry of developed economies like the US and the UK, which are among the top consumers of the technology. As a result, the market for 3D printing in buildings will increase favorably.
Material limitations pose a major challenge to market growth
The materials used in 3D printing for construction need to possess specific properties, including strength, durability, and weather resistance. Developing suitable construction-grade materials that can be used in additive manufacturing can be challenging and time-consuming. Thus, material limitations are expected to pose a major challenge to the 3D printing for construction market growth over the forecast period.
The global 3D Printing for Construction industry is segmented based on technology, method, material, construction type, end user, and region.
Based on the technology, the global market is bifurcated into robotic arms and gantry systems.
Based on the method, the global market is bifurcated into extrusion, powder bonding, spray, and additive welding. The extrusion segment is expected to dominate the market during the forecast period. One of the most popular 3D printing processes for prototyping, structural modeling, and production use in the on-site building is extrusion 3D printing, also known as fused deposition modeling. Traditional building materials like concrete and geopolymer may be used effectively through the extrusion process without wasting any of the raw components. The extrusion method also has the advantages of requiring little area for unit operation, minimal labor & capital expenditures, and continuous output. Thereby, driving the segment expansion.
Based on the material, the 3D printing for construction industry is bifurcated into concrete, sand, fiber, geo polymer, and additives.
Based on the construction type, the global 3D printing for construction market is bifurcated into full building and modular construction.
Based on the end user, the global market is bifurcated into residential, commercial, industrial, and infrastructural. The commercial segment is expected to capture the largest market share during the forecast period. Commercial structures including multi-story office buildings, hotels, and educational facilities can be built more quickly, more precisely, and with less labor expense through 3D printing. Additionally, because commercial building involves extensive planning during the designing stage, the cutting-edge technologies offered by 3D printing make structural modification relatively simple.
Additionally, it enables the creation of novel shapes through the effective use of materials like gypsum, geopolymer, and concrete. The use of 3D printing in commercial construction will rise as a result of these positive 3D printing properties, as well as rising investments in commercial construction and the adoption of cost-effective technologies for on-time project completion. Thus, driving the segment growth over the forecast period.
|3D Printing for Construction Market
|Market Size in 2022
|USD 3.5 Billion
|Market Forecast in 2030
|USD 523.3 Billion
|CAGR of 87%
|Number of Pages
|Key Companies Covered
|Apis Cor, COBOD International A/S, XtreeE, Yingchuang Building Technique (Shanghai) Co. Ltd.(Winsun), CyBe Construction, Sika AG, WASP S.r.I, MX3D, Contour Crafting Corp., ICON Technology Inc., Constructions-3D, and others.
|By Technology, By Method, By Material, By Construction Type, By End User, and By Region
|North America, Europe, Asia Pacific (APAC), Latin America, Middle East, and Africa (MEA)
|2017 to 2021
|2023 - 2030
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Asia Pacific is expected to hold the largest market share over the forecast period
The Asia Pacific is expected to hold the largest global 3D printing for construction market share over the forecast period. The area is becoming a center for manufacturing on a worldwide scale, which bodes well for the development of technology. Emerging technologies like 3D printing provide a wide range of prospects in developed economies like China, India, South Korea, and Japan. Such economies' thriving building industries will fuel a need for 3D printing in the area.
For instance, in 2019, China's National Development and Reform Commission authorized 26 infrastructure projects with completion dates of 2023. The Ministry of Land, Infrastructure, Transport, and Tourism of Japan also reports that in June 2021, building orders for new homes climbed by 32.3%, compared to a 13.4% decline in the same month in 2020. Thus, this is expected to drive the market growth over the forecast period.
The global 3D Printing for Construction market is dominated by players like:
By Construction Type
By End User
A technique called 3D printing construction involves building 3D structures layer by layer using a 3D printer. To demonstrate the approach, researchers have printed whole buildings in clay or concrete off-site as well as polymer, concrete, and metal bridges. The method allows for quicker construction while utilizing fewer resources and paying less for labor.
The increased usage of 3D printers in the construction sector for producing exact final goods, developing ideas, and prototyping while reducing production and material costs is what is driving the 3D printing for construction market.
According to the report, the global 3D printing for construction market size was worth around USD 3.5 billion in 2022 and is predicted to grow to around USD 523.3 billion by 2030.
The global 3D Printing for Construction market is expected to grow at a CAGR of 87% during the forecast period.
The global 3D Printing for Construction market growth is expected to be driven by the Asia Pacific. It is currently the world’s highest revenue-generating market due to the growing investment in infrastructural areas.
The global 3D Printing for Construction market is dominated by players like Apis Cor, COBOD International A/S, XtreeE, Yingchuang Building Technique (Shanghai) Co. Ltd. (Winsun), CyBe Construction, Sika AG, WASP S.r.I, MX3D, Contour Crafting Corp., ICON Technology, Inc., and Constructions-3D, among others.
The 3D Printing for Construction market report covers the geographical market along with a comprehensive competitive landscape analysis. It also includes cash flow analysis, profit ratio analysis, market basket analysis, market attractiveness analysis, sentiment analysis, PESTLE analysis, trend analysis, SWOT analysis, trade area analysis, demand & supply analysis, Porter’s five forces analysis, and value chain analysis.