REPORT OUTLOOK
Market Size | CAGR | Dominating Region |
---|---|---|
USD 376882.7 Million by 2030 | 80% | Asia Pacific |
by Construction method | by End-User |
---|---|
|
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SCOPE OF THE REPORT
Market Overview
The global 3D print construction market is anticipated to grow from USD 3420 Million in 2022 to USD 376882.7 Million by 2030, at a CAGR of 80% during the forecast period.
3D print construction, also known as additive manufacturing in construction, revolutionizes the industry by using automated printers to create buildings and infrastructure. This innovative technology builds structures layer by layer, often using materials like concrete or composite mixtures. It offers numerous advantages, including faster construction times, reduced waste, and intricate designs. Builders can customize structures with greater precision and optimize resource usage. 3D print construction has the potential to lower costs, increase sustainability, and enhance disaster relief efforts. As the technology continues to evolve, it holds promise for addressing housing shortages and creating resilient, efficient buildings for the future.
The 3D print construction market has seen significant growth and innovation in recent years. This emerging sector leverages additive manufacturing technology to revolutionize traditional construction processes. A few benefits of using 3D printing in construction are lower labor costs, quicker construction schedules, and the capacity to produce intricate and environmentally friendly designs. The use of massive 3D printers that can create entire buildings, from homes to commercial structures, is one of the key trends in the 3D print construction market. This technology could help with waste reduction, increase construction efficiency, and alleviate the housing shortage. Furthermore, developments in environmentally friendly concrete and recycled plastics have been made in the industry, which helps to preserve the environment even more. Several pilot projects have already shown that 3D printing construction technologies are feasible, and governments and private businesses throughout the world are investing in research and development to scale up these technologies. As the industry develops, it is anticipated to become more involved in addressing housing and infrastructure issues, which will ultimately transform the construction sector and increase its sustainability.
ATTRIBUTE | DETAILS |
Study period | 2020-2030 |
Base year | 2022 |
Estimated year | 2023 |
Forecasted year | 2023-2030 |
Historical period | 2019-2021 |
Unit | Value (USD Million) (Square meter) |
Segmentation | By Type, Distribution Channel and By Region |
By Construction Method |
|
By End-User | |
By Region
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3D Print Construction Market Segmentation Analysis:
The global 3D print construction market is divided into different segments. By construction method the market is bifurcated into powder bonding and extrusion. By distribution channel the market is bifurcated into infrastructure and building.
Based on type extrusion method segment is dominating in the 3D print construction market. The construction industry is experiencing a notable shift due to the use of 3D printing, as diverse techniques are being implemented to transform the building and structure construction process. The extrusion method is one of the most promising approaches in this developing field. The extrusion method, also known as contour crafting, is a 3D printing technique specifically designed for construction. In order to construct entire structures, building materials must be deposited one layer at a time. This process makes use of a robotic arm or gantry system that has a nozzle for extruding building supplies like cement, concrete, or other composite materials. The extrusion method significantly reduces construction time compared to traditional methods. It enables rapid, continuous printing, making it possible to construct buildings in a fraction of the time. By automating the construction process, labor costs are reduced.
Additionally, it minimizes material waste, contributing to cost savings. The extrusion method allows for intricate and customizable designs. Engineers and architects have no trouble building intricate structures, opening up countless opportunities for creative building. With the option to use recycled or locally sourced materials, many extrusion materials have the potential to be more environmentally friendly than traditional building materials. By lowering the risks involved with manual labor, automation in construction makes work safer for employees. Building houses and other residential structures with it provides quick and inexpensive housing solutions, and its use is growing. Extrusion-based construction offers the advantages of speed and cost-effectiveness for high-rise buildings, offices, and commercial spaces. With the extrusion method, infrastructure projects such as bridges and tunnels can be built quickly and effectively. 3D printed buildings can be quickly erected in disaster-affected areas to offer affected communities’ shelter and relief. More ecologically friendly building techniques can benefit from the extrusion of recyclable and sustainable materials.
The extrusion method has a bright future in 3D print construction. We should anticipate seeing even more cutting-edge materials and applications as technology develops. The construction industry might experience a change in the way structures are designed and constructed if it becomes possible to 3D print entire buildings.
The construction industry could undergo a significant transformation thanks to the innovative 3D print construction technique known as extrusion. Its affordability, speed, adaptability in design, and sustainability make it a strong option for a variety of building projects. With ongoing advancements and investment in this field, we can anticipate a future where 3D printed buildings are a common sight, offering numerous benefits to the construction sector and society as a whole.
Based on end-user building segment is dominating in the 3D print construction market. The 3D printing technology has revolutionized various industries, and the construction sector is no exception.
Cost effectiveness is among 3D printing’s most important benefits in the building industry. Traditional building techniques can be costly because they frequently call for a large amount of labor. On the other hand, labor costs can be greatly reduced and substantial labor savings can be achieved through 3D printing. It also minimizes material wastage, as the printer precisely deposits material layer by layer, reducing the overall project cost. Another important factor influencing 3D printing’s uptake in the construction industry is speed. Conventional building projects may take several months or even years to finish. In contrast, 3D printing technology can significantly reduce construction timelines. For example, a basic house or building structure can be printed within a matter of days or weeks, which is a remarkable time-saving advantage. Design flexibility is a notable feature of 3D printing in construction. Architects and builders can experiment with intricate and unique designs that would be challenging to achieve with traditional construction methods.
3D printers can create complex and organic shapes with precision, allowing for creative and innovative building designs. This flexibility can lead to more visually appealing and architecturally distinct structures. Sustainability is a growing concern in the construction industry. 3D printing can contribute to a more sustainable approach to building. By using sustainable and recyclable materials, such as concrete, 3D printers can reduce the environmental impact of construction projects. Additionally, the precise material placement minimizes waste, further decreasing the ecological footprint of construction activities. 3D printing also offers potential benefits in terms of disaster relief and affordable housing. In areas affected by natural disasters, rapid construction of emergency shelters and infrastructure is critical. 3D printers can quickly produce modular and durable structures to provide shelter and support. Additionally, in regions facing housing shortages, 3D printing can produce affordable housing options at a lower cost, helping to address the global housing crisis. Despite the numerous advantages, there are some challenges and limitations to the use of 3D printing in the construction market’s building segment. It can be difficult to scale up technology for bigger, more complicated projects, and safety and regulatory issues need to be taken into consideration. Furthermore, the 3D printers need to be operated and maintained by skilled personnel, which can be a barrier in some areas.
3D printing technology is making significant inroads into the construction market’s building segment. It has many benefits, such as speed, cost-effectiveness, flexibility in design, and sustainability. Because of these benefits, 3D printing is becoming a popular choice for a range of construction projects, including both residential and commercial buildings. To realize its full potential in the construction sector, the technology must overcome obstacles like scalability and regulatory concerns. We may anticipate more developments and breakthroughs in 3D printing in the building industry as technology advances, completely changing the way we construct our houses and other structures.
3D Print Construction Market Trends
- Large-scale 3D printers capable of constructing entire buildings or structural components were becoming more widely used. This trend was driven by the desire to reduce construction time and costs while increasing design flexibility.
- 3D printing was seen as a more sustainable construction method due to reduced material waste and the potential for using eco-friendly materials. Additionally, some companies were exploring the use of recycled materials in 3D printing construction processes.
- New 3D printing materials and composites with improved strength, durability, and insulating qualities were being developed by researchers and businesses. These substances were being utilized to enhance the functionality and caliber of 3D-printed constructions.
- 3D printing allowed for greater design freedom and customization in construction. Architects and designers were increasingly exploring complex and innovative designs that were challenging or impossible to achieve with traditional construction methods.
- 3D printing was used both on-site and off-site. On-site printing involved constructing structures directly at the building location, while off-site printing referred to the production of prefabricated components in a controlled environment and their later assembly on-site.
- Governments and regulatory bodies were working on establishing safety standards and regulations for 3D print construction to ensure the quality and safety of structures.
- 3D printing technology was explored for its potential to quickly construct emergency shelters and housing in disaster-stricken areas and remote regions, where traditional construction methods might be impractical.
- There was ongoing research and development in the field, with companies and academic institutions collaborating to advance 3D print construction technology and overcome technical challenges.
- The ability of 3D print construction to lower labor and material costs, resulting in more reasonably priced housing and infrastructure solutions, was one of the main factors driving its adoption. Another important element in the development of 3D printing technology was its scalability.
- A growing number of technology companies, investors, and construction companies were expressing interest in 3D print construction, which resulted in more funding and collaborations in the sector.
Competitive Landscape
The competitive landscape of the 3D Print Construction market is diverse and includes various players, from multinational corporations to artisanal and specialty brands.
- Apis Cor
- ICON
- COBOD
- WinSun
- CyBe Construction
- New Story
- Mighty Buildings
- WASP (World’s Advanced Saving Project)
- 3D Printhuset
- XtreeE
- Total Kustom
- Cazza Construction
- Contour Crafting
- SQ4D
- S-Squared
- BetAbram
- Miris 3D
- Printhuset
- D-Shape Enterprises
- RedBuilt
Recent Development
On 8 November 2022, A Joint Venture (JV) was created by COBOD International A/S and PT Modula Sustainable development Indonesia, a division of Brothers Tbk and PT Bakrie, with the express purpose of growing the 3D construction printing industry in Indonesia.
On 11 March 2022, For manufacturing forged flanges and fittings for the gas, oil, and energy industries in Japan, Shimoda Iron Works Co., Ltd., companies that have contributed fittings and forgings in that country, chose MX3D’s Wire Arc Advanced producing technology.
Regional Analysis
Asia Pacific accounted for the largest market in the 3D print construction market. Asia pacific accounted for the 41 % market share of the global market value. The 3D printing technology has been revolutionizing various industries worldwide, and the Asia-Pacific region is no exception. In recent years, the 3D print construction market in Asia-Pacific has shown substantial growth and is poised to play a pivotal role in the region’s construction industry.
The Asia-Pacific region has witnessed remarkable growth in the 3D print construction market, driven by several factors. The adoption of 3D printing technology in construction has gained momentum due to its ability to streamline the building process, reduce labor costs, and minimize waste. The region’s growing population and urbanization have increased the demand for affordable and sustainable housing, making 3D printing an attractive solution.
3D printing can significantly reduce construction time and labor costs. By eliminating the need for many traditional construction materials and processes, it allows for faster, more cost-effective building solutions. As sustainability becomes a priority, 3D printing in construction offers the advantage of reducing material waste and emissions. This is in line with the area’s growing emphasis on environmentally friendly construction methods. Rapid urbanization has resulted in a housing shortage in many Asia-Pacific countries. 3D printing can help address this issue by enabling the rapid construction of affordable housing units.
Several governments in the Asia-Pacific region have been supportive of 3D print construction initiatives, offering incentives and funding to drive its adoption.
3D printing allows for the creation of highly customized and intricate architectural designs, opening new possibilities for creative and functional buildings. In addition to housing, 3D printing can be utilized to build infrastructure, bridges, and other public spaces, which will increase market share. Research and development in 3D printing technology and materials customized to the specific climate and environmental conditions of the Asia-Pacific region is an opportunity. If 3D print construction is successfully implemented in the Asia-Pacific region, chances to export technology and expertise to other regions may arise.
The 3D print construction market in the Asia-Pacific region is experiencing significant growth and transformation. While there are challenges to overcome, the opportunities for cost-effective, sustainable, and customized construction solutions are immense. With continued government support, technological innovation, and industry collaboration, the 3D print construction market is poised to shape the future of construction in the Asia-Pacific region, addressing pressing housing needs and promoting sustainable development.
Target Audience for 3D Print Construction Market
- Architects and Designers
- Construction Companies and Contractors
- Real Estate Developers
- Government Agencies and Municipalities
- Educational Institutions and Research Organizations
- Housing and Urban Development Authorities
- Civil Engineers and Construction Consultants
- Environmental and Sustainability Organizations
Import & Export Data for 3D Print Construction Market
Exactitude consultancy provides import and export data for the recent years. It also offers insights on production and consumption volume of the product. Understanding the import and export data is pivotal for any player in the 3D print construction market. This knowledge equips businesses with strategic advantages, such as:
- Identifying emerging markets with untapped potential.
- Adapting supply chain strategies to optimize cost-efficiency and market responsiveness.
- Navigating competition by assessing major players’ trade dynamics.
Key insights
- Trade volume trends: our report dissects import and export data spanning the last five years to reveal crucial trends and growth patterns within the global 3D print construction Market. This data-driven exploration empowers readers with a deep understanding of the market’s trajectory.
- Market players: gain insights into the leading players driving the Surgical Drill trade. From established giants to emerging contenders, our analysis highlights the key contributors to the import and export landscape.
- Geographical dynamics: delve into the geographical distribution of trade activities. Uncover which regions dominate exports and which ones hold the reins on imports, painting a comprehensive picture of the industry’s global footprint.
- Product breakdown: by segmenting data based on Surgical Drill types –– we provide a granular view of trade preferences and shifts, enabling businesses to align strategies with the evolving technological landscape.
Import and export data is crucial in reports as it offers insights into global market trends, identifies emerging opportunities, and informs supply chain management. By analyzing trade flows, businesses can make informed decisions, manage risks, and tailor strategies to changing demand. This data aids governments in policy formulation and trade negotiations, while investors use it to assess market potential. Moreover, import and export data contributes to economic indicators, influences product innovation, and promotes transparency in international trade, making it an essential Storage Capacity for comprehensive and informed analyses.
Segments Covered in the 3D Print Construction Market Report
3D Print Construction Market by Construction method 2020-2030, USD Million, (Square meter)
- Powder Bonding
- Extrusion
3D Print Construction Market by End-User, 2020-2030, USD Million, (Square meter)
- Infrastructure
- Building
3D Print Construction Market by Region 2020-2030, USD Million, (Square meter)
- North America
- Europe
- Asia Pacific
- South America
- Middle East and Africa
Key Question Answered
- What is the expected growth rate of the 3D print construction market over the next 7 years?
- Who are the major players in the 3D print construction market and what is their market share?
- What are the end-user industries driving market demand and what is their outlook?
- What are the opportunities for growth in emerging markets such as Asia-pacific, the middle east, and Africa?
- How is the economic environment affecting the 3D print construction market, including factors such as interest rates, inflation, and exchange rates?
- What is the expected impact of government policies and regulations on the 3D print construction market?
- What is the current and forecasted size and growth rate of the 3D print construction market?
- What are the key drivers of growth in the 3D print construction market?
- Who are the major players in the market and what is their market share?
- What are the distribution channels and supply chain dynamics in the 3D print construction market?
- What are the technological advancements and innovations in the 3D print construction market and their impact on product development and growth?
- What are the regulatory considerations and their impact on the market?
- What are the challenges faced by players in the 3D print construction market and how are they addressing these challenges?
- What are the opportunities for growth and expansion in the 3D print construction market?
- What are the product products and specifications of leading players in the market?
Table of Content
- INTRODUCTION
- MARKET DEFINITION
- MARKET SEGMENTATION
- RESEARCH TIMELINES
- ASSUMPTIONS AND LIMITATIONS
- RESEARCH METHODOLOGY
- DATA MINING
- SECONDARY RESEARCH
- PRIMARY RESEARCH
- SUBJECT-MATTER EXPERTS’ ADVICE
- QUALITY CHECKS
- FINAL REVIEW
- DATA TRIANGULATION
- BOTTOM-UP APPROACH
- TOP-DOWN APPROACH
- RESEARCH FLOW
- DATA SOURCES
- DATA MINING
- EXECUTIVE SUMMARY
- MARKET OVERVIEW
- 3D PRINT CONSTRUCTION MARKET OUTLOOK
- MARKET DRIVERS
- MARKET RESTRAINTS
- MARKET OPPORTUNITIES
- IMPACT OF COVID-19 ON 3D PRINT CONSTRUCTION MARKET
- PORTER’S FIVE FORCES MODEL
- THREAT FROM NEW ENTRANTS
- THREAT FROM SUBSTITUTES
- BARGAINING POWER OF SUPPLIERS
- BARGAINING POWER OF CUSTOMERS
- DEGREE OF COMPETITION
- INDUSTRY VALUE CHAIN ANALYSIS
- 3D PRINT CONSTRUCTION MARKET OUTLOOK
- GLOBAL 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD, 2020-2030, (USD MILLION) (SQUARE METER)
- POWDER
- LIQUID
- GLOBAL 3D PRINT CONSTRUCTION MARKET BY END-USER, 2020-2030, (USD MILLION) (SQUARE METER)
- FOOD AND BEVERAGE INDUSTRY
- PHARMACEUTICAL INDUSTRY
- COSMETIC AND PERSONAL CARE PRODUCTS
- BIOTECHNOLOGY AND RESEARCH
- GLOBAL 3D PRINT CONSTRUCTION MARKET BY REGION, 2020-2030, (USD MILLION) (SQUARE METER)
- NORTH AMERICA
- US
- CANADA
- MEXICO
- SOUTH AMERICA
- BRAZIL
- ARGENTINA
- COLOMBIA
- REST OF SOUTH AMERICA
- EUROPE
- GERMANY
- UK
- FRANCE
- ITALY
- SPAIN
- RUSSIA
- REST OF EUROPE
- ASIA PACIFIC
- INDIA
- CHINA
- JAPAN
- SOUTH KOREA
- AUSTRALIA
- SOUTH-EAST ASIA
- REST OF ASIA PACIFIC
- MIDDLE EAST AND AFRICA
- UAE
- SAUDI ARABIA
- SOUTH AFRICA
- REST OF MIDDLE EAST AND AFRICA
- NORTH AMERICA
- COMPANY PROFILES*
(BUSINESS OVERVIEW, COMPANY SNAPSHOT, PRODUCTS OFFERED, RECENT DEVELOPMENTS)
- APIS COR
- ICON
- COBOD
- WINSUN
- CYBE CONSTRUCTION
- NEW STORY
- MIGHTY BUILDINGS
- WASP (WORLD’S ADVANCED SAVING PROJECT)
- 3D PRINTHUSET
- XTREEE
- TOTAL KUSTOM
- CAZZA CONSTRUCTION
- CONTOUR CRAFTING
- SQ4D
- S-SQUARED
- BETABRAM
- MIRIS 3D
- PRINTHUSET
- D-SHAPE ENTERPRISES
- REDBUILTÂ Â Â *THE COMPANY LIST IS INDICATIVE
LIST OF TABLES
TABLE 1 GLOBAL 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 2 GLOBAL 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 3 GLOBAL 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 4 GLOBAL 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 5 GLOBAL 3D PRINT CONSTRUCTION MARKET BY REGION (USD MILLION) 2020-2030
TABLE 6 GLOBAL 3D PRINT CONSTRUCTION MARKET BY REGION (SQUARE METER) 2020-2030
TABLE 7 NORTH AMERICA 3D PRINT CONSTRUCTION MARKET BY COUNTRY (USD MILLION)
2020-2030
TABLE 8 NORTH AMERICA 3D PRINT CONSTRUCTION MARKET BY COUNTRY (SQUARE METER)
2020-2030
TABLE 9 NORTH AMERICA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 10 NORTH AMERICA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 11 NORTH AMERICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 12 NORTH AMERICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 13 US 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 14 US 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 15 US 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 16 US 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 17 CANADA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 18 CANADA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 19 CANADA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 20 CANADA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 21 MEXICO 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 22 MEXICO 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 23 MEXICO 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 24 MEXICO 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 25 SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 26 SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY COUNTRY (SQUARE METER) 2020-2030
TABLE 27 SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 28 SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 29 SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 30 SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 31 BRAZIL 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 32 BRAZIL 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 33 BRAZIL 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 34 BRAZIL 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 35 ARGENTINA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 36 ARGENTINA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 37 ARGENTINA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 38 ARGENTINA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 39 COLOMBIA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 40 COLOMBIA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 41 COLOMBIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 42 COLOMBIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 43 REST OF SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 44 REST OF SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 45 REST OF SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 46 REST OF SOUTH AMERICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 47 ASIA-PACIFIC 3D PRINT CONSTRUCTION MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 48 ASIA-PACIFIC 3D PRINT CONSTRUCTION MARKET BY COUNTRY (SQUARE METER) 2020-2030
TABLE 49 ASIA-PACIFIC 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 50 ASIA-PACIFIC 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 51 ASIA-PACIFIC 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 52 ASIA-PACIFIC 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 53 INDIA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 54 INDIA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 55 INDIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 56 INDIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 57 CHINA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 58 CHINA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 59 CHINA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 60 CHINA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 61 JAPAN 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 62 JAPAN 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 63 JAPAN 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 64 JAPAN 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 65 SOUTH KOREA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 66 SOUTH KOREA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 67 SOUTH KOREA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 68 SOUTH KOREA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 69 AUSTRALIA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 70 AUSTRALIA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 71 AUSTRALIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 72 AUSTRALIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 73 SOUTH-EAST ASIA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 74 SOUTH-EAST ASIA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 75 SOUTH-EAST ASIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 76 SOUTH-EAST ASIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 77 REST OF ASIA PACIFIC 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 78 REST OF ASIA PACIFIC 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 79 REST OF ASIA PACIFIC 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 80 REST OF ASIA PACIFIC 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 81 EUROPE 3D PRINT CONSTRUCTION MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 82 EUROPE 3D PRINT CONSTRUCTION MARKET BY COUNTRY (SQUARE METER) 2020-2030
TABLE 83 EUROPE 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 84 EUROPE 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 85 EUROPE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 86 EUROPE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 87 GERMANY 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 88 GERMANY 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 89 GERMANY 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 90 GERMANY 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 91 UK 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 92 UK 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 93 UK 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 94 UK 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 95 FRANCE 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 96 FRANCE 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 97 FRANCE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 98 FRANCE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 99 ITALY 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 100 ITALY 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 101 ITALY 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 102 ITALY 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 103 SPAIN 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 104 SPAIN 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 105 SPAIN 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 106 SPAIN 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 107 RUSSIA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 108 RUSSIA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 109 RUSSIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 110 RUSSIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 111 REST OF EUROPE 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 112 REST OF EUROPE 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 113 REST OF EUROPE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 114 REST OF EUROPE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 115 MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY COUNTRY (USD MILLION) 2020-2030
TABLE 116 MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY COUNTRY (SQUARE METER) 2020-2030
TABLE 117 MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 118 MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 119 MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 120 MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 121 UAE 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 122 UAE 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 123 UAE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 124 UAE 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 125 SAUDI ARABIA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 126 SAUDI ARABIA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 127 SAUDI ARABIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 128 SAUDI ARABIA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 129 SOUTH AFRICA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 130 SOUTH AFRICA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 131 SOUTH AFRICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 132 SOUTH AFRICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
TABLE 133 REST OF MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY END-USER (USD MILLION) 2020-2030
TABLE 134 REST OF MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY END-USER (SQUARE METER) 2020-2030
TABLE 135 REST OF MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (USD MILLION) 2020-2030
TABLE 136 REST OF MIDDLE EAST AND AFRICA 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD (SQUARE METER) 2020-2030
LIST OF FIGURES
FIGURE 1 MARKET DYNAMICS
FIGURE 2 MARKET SEGMENTATION
FIGURE 3 REPORT TIMELINES: YEARS CONSIDERED
FIGURE 4 DATA TRIANGULATION
FIGURE 5 BOTTOM-UP APPROACH
FIGURE 6 TOP-DOWN APPROACH
FIGURE 7 RESEARCH FLOW
FIGURE 8 GLOBAL 3D PRINT CONSTRUCTION MARKET BY END-USER USD MILLION, 2020-2030
FIGURE 9 GLOBAL 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD, USD MILLION, 2020-2030
FIGURE 10 GLOBAL 3D PRINT CONSTRUCTION MARKET BY REGION, USD MILLION, 2020-2030
FIGURE 11 PORTER’S FIVE FORCES MODEL
FIGURE 12 GLOBAL 3D PRINT CONSTRUCTION MARKET BY END-USER, USD MILLION 2022
FIGURE 13 GLOBAL 3D PRINT CONSTRUCTION MARKET BY CONSTRUCTION METHOD, USD MILLION 2022
FIGURE 14 GLOBAL 3D PRINT CONSTRUCTION MARKET BY REGION, USD MILLION 2022
FIGURE 15 MARKET SHARE ANALYSIS
FIGURE 16 APIS COR: COMPANY SNAPSHOT
FIGURE 17 ICON: COMPANY SNAPSHOT
FIGURE 18 COBOD: COMPANY SNAPSHOT
FIGURE 19 WINSUN: COMPANY SNAPSHOT
FIGURE 20 CYBE CONSTRUCTION: COMPANY SNAPSHOT
FIGURE 21 NEW STORY: COMPANY SNAPSHOT
FIGURE 22 MIGHTY BUILDINGS: COMPANY SNAPSHOT
FIGURE 23 WASP (WORLD’S ADVANCED SAVING PROJECT: COMPANY SNAPSHOT
FIGURE 24 3D PRINTHUSET: COMPANY SNAPSHOT
FIGURE 25 XTREEE: COMPANY SNAPSHOT
FIGURE 26 TOTAL KUSTOM: COMPANY SNAPSHOT
FIGURE 27 CAZZA CONSTRUCTION: COMPANY SNAPSHOT
FIGURE 28 CONTOUR CRAFTING: COMPANY SNAPSHOT
FIGURE 29 SQ4D: COMPANY SNAPSHOT
FIGURE 30 S-SQUARED: COMPANY SNAPSHOT
FIGURE 31 BETABRAM: COMPANY SNAPSHOT
FIGURE 32 MIRIS 3D: COMPANY SNAPSHOT
FIGURE 33 PRINTHUSET: COMPANY SNAPSHOT
FIGURE 34 D-SHAPE ENTERPRISES: COMPANY SNAPSHOT
FIGURE 35 REDBUILT: COMPANY SNAPSHOT
FAQ
The global 3D print construction market is anticipated to grow from USD 3420 Million in 2022 to USD 376882.7 Million by 2030, at a CAGR of 80% during the forecast period.
Asia pacific accounted for the largest market in the Hot Cocoa Mix market. Asia pacific accounted for the 41 % percent market share of the global market value.
Apis Cor, ICON, COBOD, WinSun, CyBe Construction, New Story, Mighty Buildings, WASP (World’s Advanced Saving Project, 3D Printhuset, XtreeE, Total Kustom, Cazza Construction, Contour Crafting, SQ4D, S-Squared, BetAbram, Miris 3D, Printhuset, D-Shape Enterprises, RedBuilt are major key players in the 3D print construction market.
The 3D print construction market presents significant opportunities for innovation and cost efficiency in the construction industry. By using additive manufacturing techniques, it enables the rapid construction of complex and customized structures, reducing labor costs and material waste. This technology is particularly promising for building affordable housing, infrastructure in remote areas, and disaster relief shelters. Additionally, it promotes sustainability by utilizing recycled materials and reducing carbon emissions. As the technology matures, there are ample opportunities for companies to enter this emerging market, develop new construction methods, and collaborate with architects and engineers to shape the future of construction.
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