REPORT OUTLOOK
Market Size | CAGR | Dominating Region |
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USD 6.85 Billion by 2030 | CAGR of 26 % | North America |
by Type | by Application | by Region |
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SCOPE OF THE REPORT
3D Print Raw Materials Market Overview
The global 3D Print Raw Materials market is anticipated to grow from USD 1.36 Billion in 2023 to USD 6.85 Billion by 2030, at a CAGR of 26 % during the forecast period.
Additive manufacturing, or 3D printing, is a cutting-edge technology that makes it possible to construct three-dimensional objects layer by layer from digital models. The raw materials used in 3D printing, also known as filaments or 3D print raw materials, are essential to defining the features and attributes of the finished printed products. These materials are available in a variety of formats, each designed to accommodate different printing processes and application needs.
Thermoplastics are among the most popular kinds of raw materials for 3D printing. These materials are perfect for layer-by-layer deposition in 3D printing because they harden after cooling and become pliable when heated. Polylactic acid (PLA), acrylonitrile butadiene styrene (ABS), and polyethylene terephthalate glycol (PETG) are a few types of thermoplastics. The performance, quality, and viability of the printed products are all greatly impacted by the choice of raw materials used in 3D printing. Thermoplastics, such polylactic acid (PLA) and acrylic butadiene styrene (ABS), are among the most widely used materials in 3D printing. These materials are prized for being inexpensive, adaptable, and simple to use. For example, PLA is an environmentally beneficial material because it is made from renewable resources like cornstarch. In addition to thermoplastics, a vast range of specialty materials are available for a variety of uses. Engineering-grade plastics, such as nylon and polycarbonate, are attractive alternatives for industrial applications because of their improved strength, durability, and resilience to high temperatures. Apart from polymers, metals have been increasingly popular in 3D printing, especially in the area of additive manufacturing called additive metal manufacturing or metal 3D printing. It is feasible to create strong metal parts with complex designs using materials like titanium, aluminum, and stainless steel that would be difficult or impossible to create with conventional manufacturing techniques. This has made metal 3D printing essential for use in aerospace and medical industries by opening up new opportunities for producing strong, lightweight parts.
Additionally, the development of composite materials—which mix the qualities of many materials for improved performance—has been facilitated by developments in 3D printing technology. For example, items with outstanding structural integrity that are lightweight and strong can be made using carbon fiber-reinforced filaments. The mechanical characteristics of the printed object are not the only reason why choosing the correct raw material is crucial. Aspects like chemical resistance, biocompatibility, and color selection are also important, particularly in consumer goods and medical 3D printing applications. Selecting from a wide variety printing materials enables producers and designers to customize prints to meet particular needs, be it production, prototype, or creative projects. In conclusion, the selection of raw materials for 3D printing is a complex process that affects the finished products’ success, usefulness, and look. New and inventive materials will probably be developed as the 3D printing market develops, which will increase the technology’s potential and range of uses.
ATTRIBUTE | DETAILS |
Study period | 2020-2030 |
Base year | 2022 |
Estimated year | 2023 |
Forecasted year | 2023-2030 |
Historical period | 2019-2021 |
Unit | Value (USD Billion) Volume (Kilotons) |
Segmentation | By Type, Product Type ,Application and Region |
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3D Print Raw Materials Market Segmentation Analysis
The global 3D Print Raw Materials market is divided into three segments, type, application and region. By type the market is divided into Plastic, ABS, PLA, PETG Metals, Titanium, Stainless steel, Aluminum Ceramics, Alumina, Zirconia, Other materials. Plastic segment is dominating the market.
The most popular materials for 3D printing are plastics because of their affordability, simplicity of use, and adaptability. Functional prototypes and end-use parts can benefit from ABS (Acrylonitrile Butadiene Styrene) due to its durability and impact resistance. Owing to its environmentally beneficial qualities, PLA (Polylactic Acid) is a bio-based plastic made from renewable resources. The combination of strength and flexibility found in PETG (polyethylene terephthalate glycol) makes it appropriate for a wide range of uses. Robust and durable component businesses have been revolutionized by 3D printing of metal. Because of its great strength-to-weight ratio, resistance to corrosion, and biocompatibility, titanium is highly valued and is used in both aerospace and medical applications.
The automotive and healthcare industries use stainless steel extensively due to its resistance to corrosion. VNAs also give very precise and comprehensive electrical performance data. They provide the capacity to analyses both the magnitude (amplitude) and phase of signals, allowing engineers and technicians to acquire a thorough knowledge of the behaviours of a component or network. This degree of accuracy is critical in applications like RF and microwave circuit design, where even little performance changes can have a substantial impact. Due to its lightweight nature, aluminum is preferred for use in automotive and aerospace components. Alumina and zirconia are among the materials used in ceramic 3D printing. Because of its great hardness and resistance to wear, alumina, also known as aluminum oxide, is a good choice for applications that need to be durable. Because of its exceptional strength and resilience to heat and corrosion, zirconia is used in the medical and dentistry industries to make prosthesis and implants. More materials beyond just ceramics, metals, and polymers can be printed with 3D printing. Specialty filaments, elastomers, and composite materials fall under this category. For increased strength, composite materials frequently mix polymers with fibers like carbon or glass.
By application aerospace segment in dominating the market. Selecting the right raw materials for 3D printing is essential for manufacturing strong, lightweight components in the aerospace and defense sectors. Due to their exceptional strength-to-weight ratio, resistance to corrosion, and capacity to tolerate high temperatures, titanium and aluminum are frequently utilized. These materials are especially well-suited for creating intricate and complex pieces, including parts for rocket engines and airplanes. Furthermore, the use of composite materials—such as carbon fiber-reinforced polymers—improves structural integrity and lowers total weight, which improves performance and fuel efficiency.
Materials for 3D printing are essential in the automotive industry for prototyping, customizing parts, and even producing end-use components. Because they are affordable and simple to use, engineering-grade thermoplastics like ABS and nylon are frequently utilized for prototyping. High-performance materials, such polypropylene and polycarbonate, are used for functional parts that need to be strong and resistant to chemicals and heat. In the automobile sector, metal 3D printing is also becoming more popular. Lightweight and strong components made of titanium and aluminum enhance vehicle performance and fuel economy. Materials for 3D printing in the healthcare industry are varied and designed for certain medicinal uses. Orthopedic implants, prosthetic limbs, and surgical models can all be printed using biocompatible materials such as medical-grade polymers (PLA). Photopolymer resins and other resin-based materials are frequently used in the manufacture of dental implants and models. Metal 3D printing is used to create patient-specific implants, like knee and hip replacements, utilizing materials like titanium. Better patient outcomes and more cost-effective healthcare solutions are made possible by the capacity to customize medical devices through 3D printing. A variety of 3D printing materials are advantageous for consumer goods, allowing for the creation of personalized and visually appealing products. Because PLA is environmentally benign, it is a thermoplastic that degrades naturally and can be made from renewable resources. It is frequently used to make consumer goods. The particular needs of the final components are taken into consideration when selecting 3D printing materials for industrial applications. Because of their superior chemical stability and heat resistance, high-performance thermoplastics like polyether ether ketone (PEEK) and polyetherimide (ULTEM) are preferred for use in the production of parts in harsh industrial settings. High strength and long-lasting fixtures, jigs, and tooling are produced using metal 3D printing with materials like Inconel and stainless steel.
3D Print Raw Materials Market  Competitive Landscape
The competitive landscape of the 3D Print Raw Materials market was dynamic, with several prominent companies competing to provide innovative and advanced 3D Print Raw Materials solutions.
- Stratasys Ltd.
- 3D Systems Corporation
- Materialise NV
- Arkema SA
- Evonik Industries AG
- BASF SE
- DowDuPont Inc.
- Solvay SA
- Royal DSM NV
- EOS GmbH Electro Optical Systems
- HP Inc.
- EnvisionTEC
- Ultimaker BV
- Formlabs Inc.
- Markforged
- ExOne
- Renishaw plc
- Taulman 3D
- Proto Labs, Inc.
- ColorFabb
- Optamec
Recent Developments:
- July 31, 2023 : Optomec announced its vision to drive digital transformation throughout the company to deliver modern capabilities and efficiencies to customers.The core focus will be a commitment to developing synergies between hardware and software to enable a modern approach to digital automation and digital manufacturing across its product portfolio. This will provide customers a cost-effective method of managing workloads and equipment, analyzing data and output, resulting in enhanced manufacturing process quality and efficiency.
- November 07, 2023: The world’s leading additive manufacturing event, HP Inc. (Booth D41, Hall 12.1) announced a strategic partnership with INDO-MIM (Indo-MIM Private Limited), one of the world largest players in the Metal Injection Molding (MIM) industry and an emerging player in the additive manufacturing powder industry. This collaboration marks a significant step toward advancing metal additive manufacturing technology and expanding its applications in various industries. INDO-MIM has initially invested in three cutting-edge HP Metal Jet S100 printers as part of this collaboration, strengthening their commitment to advancing additive manufacturing globally.
3D Print Raw Materials Market Dynamics
Driver
Ongoing advancements in 3D printing technologies, including new printing methods and materials, contribute to the expansion of the market.
This technology, created by businesses like as Carbon, uses a liquid resin that is light-cured selectively to enable faster and more effective 3D printing. CLIP makes it possible to produce high-quality parts quickly. Multiple materials or colors can now be used simultaneously in a single print job thanks to advancements in 3D printing technology. This feature increases 3D printing’s adaptability for a range of uses. Metal components may now be printed thanks to methods like Direct Metal Laser Sintering (DMLS) and Selective Laser Melting (SLM), which creates new opportunities for the aerospace, automotive, and healthcare sectors. Bioprinting is a new technology in the medical profession that makes it possible to create biological tissues and organs. This has important ramifications for drug testing, medical research, and eventually personalized medicine. Bioinks derived from living cells and supporting biomaterials are constantly being developed for bioprinting applications in order to achieve more precise and useful tissue printing. Composite materials are made by combining various materials, such as metals, polymers, or ceramics, to improve the overall characteristics of printed items. This can result in objects that are stronger, more flexible, or more appropriate for particular uses. In an effort to promote sustainability initiatives and lessen the environmental impact of additive manufacturing, researchers are investigating recyclable, ecologically friendly materials for 3D printing. More complex and detailed things may now be created thanks to increases in print resolution and precision brought about by advancements in technology and software. This is very helpful for custom manufacturing and prototyping applications.
Restraint
Achieving consistent material quality is crucial for manufacturing reliable and durable products.
Whether they are polymers, metals, ceramics, or composites, the composition of materials used in 3D printing needs to be carefully regulated. The strength, flexibility, and other qualities of the finished product can be significantly altered by even little changes in the material composition. During the material production process, manufacturers of 3D printing materials need to put strong quality control procedures in place. This entails making certain that the raw components are pure, that the formulation is exact, and that the tolerances are followed. Measures for quality control reduce variances from batch to batch. Strict certification and testing procedures are necessary to confirm the performance and uniformity of the material. To make that the material satisfies industry standards and specifications, this entails doing mechanical testing, thermal analysis, and other evaluations. A constant filament diameter is essential for Fused Deposition Modeling (FDM) and Fused Filament Fabrication (FFF), processes that use filament as the printing material. Changes in diameter can have an impact on layer adhesion and extrusion rates, which can affect the print quality overall. Powder bed fusion techniques are used in technologies like Selective Laser Sintering (SLS) and Direct Metal Laser Sintering (DMLS). It is crucial to guarantee the quality and consistency of the powder in order to attain consistent material properties in the printed components. Certain materials are moisture-sensitive, particularly polymers. It is essential to regulate and preserve the right amount of moisture in the printing medium in order to avoid problems like bubbling, delamination, or inadequate layer adhesion when printing.
Opportunities
With the growing demand for 3D-printed medical devices and implants, there’s an opportunity to develop biocompatible materials suitable for medical applications.
Create materials that satisfy the unique mechanical and chemical requirements for medical applications while remaining in harmony with the human body. Materials appropriate for surgical guides, prosthesis, implants, and other medical devices fall under this category. Customize biocompatible materials to meet the needs of individual patients. Surgery success rates are raised and patient outcomes are enhanced by the capacity to design personalized implants depending on the anatomy of the patient. Recognize and abide by medical device regulatory regulations. For biocompatible materials to be safe and effective in medical applications, they have to adhere to stringent requirements established by regulatory agencies. Investigate the creation of composite materials that incorporate reinforcing components such as fibers or nanoparticles with biocompatible polymers. By doing this, the materials’ mechanical qualities may be improved and they may become more appropriate for a larger variety of medicinal uses. Make investments in the creation of bioresorbable materials for transient implants. There is no longer a need for a second procedure to remove the implant because these materials slowly degrade in the body over time. For biocompatible materials, think about adding antibacterial qualities to lower the possibility of infections related to medical implants. This is crucial for long-term implanted devices in particular. Collaborate closely with medical researchers and surgeons among other healthcare experts to comprehend their unique requirements and difficulties. Working together can result in the creation of resources that deal with actual medical problems. Enhance 3D printing procedures to ensure repeatability, accuracy, and precision for use in medical applications. The printing process must be consistent, especially when it comes to implants that have to fit particular patient anatomy.
3D Print Raw Materials Market Trends
- Ongoing investigation and creation of cutting-edge materials, such as metal alloys, composites, ceramics, and high-performance polymers, to satisfy the particular needs of various sectors. Materials with improved strength, flexibility, and heat resistance fall under this category.
- An increasing amount of attention is being paid to environmentally friendly and recyclable 3D printing materials. Businesses are looking into ways to use recycled materials or create easily recyclable materials in order to lessen the environmental impact of 3D printing.
- Metal alloys that can be 3D printed are becoming more and more innovative, especially for use in aerospace and medical fields. A noteworthy trend is the creation of novel metal powders and alloys with enhanced qualities including corrosion resistance and biocompatibility.
- Growing need for biocompatible materials appropriate for 3D printing in the medical field to be used in surgical guides, prosthesis, and implants. The necessity for materials that are compatible with the human body is being driven by the healthcare industry’s adoption of 3D printing.
- Increasing need for bespoke and customized filaments made for particular industries and applications. Filaments having special qualities like conductivity, magnetic responsiveness, or aesthetically pleasing color fluctuations are part of this trend.
- Greater incorporation of material simulation and optimization software technologies. This helps with material selection and process optimization by enabling users to model how various materials will react in the printing process and in the finished output.
- Partnerships to develop complete solutions amongst material producers, 3D printer makers, and end users. Collaborations enable the creation of materials that are especially tailored for particular 3D printing applications and technology.
- Persistent efforts to lower the cost and increase the accessibility of 3D printing materials, encouraging a broader industry usage. This involves creating content for less expensive 3D printers that are utilized by small enterprises and educational institutions.
- Creation of consumer- and hobbyist-friendly 3D printing materials. This includes user-friendly filaments that come in a variety of colors and qualities, opening up 3D printing to a wider spectrum of people.
3D Print Raw Materials Market Regional Analysis
North America accounted for the largest market in the 3D Print Raw Materials market. North America accounted for 38% of the worldwide market value. Due to the growing use of 3D printing technology in a variety of industries, the market for 3D print raw materials in North America has grown significantly in recent years. The region is known for its thriving manufacturing industry, cutting-edge technology, and strong emphasis on innovation, all of which support the market growth for 3D print raw materials. The rising need for sophisticated and customized products in sectors like consumer goods, healthcare, automotive, and aerospace is one of the main factors driving the market in North America. 3D printing has emerged as a game-changing technology in various industries thanks to its exceptional precision in producing complex designs and prototypes.
The market has also been driven by the existence of significant companies and a developed ecosystem for 3D printing technologies in North America. To improve the caliber and variety of raw materials for 3D printing, such as polymers, metals, ceramics, and composites, businesses in the area are devoting resources to research and development. The development of the North American market for 3D print raw materials has also been greatly aided by government programs and financial assistance for additive manufacturing technologies. These programs seek to sustain the region’s competitive advantage in the global economy, foster innovation, and generate employment. The high price of sophisticated 3D printing materials and the requirement for industry standardization are two obstacles facing the market. Notwithstanding these obstacles, the market for 3D print raw materials in North America is expected to expand going forward due to the growing incorporation of 3D printing into conventional production procedures and the continuous creation of new materials to satisfy a variety of industry demands. In summary, North America is a major player in the global market for 3D print raw materials, with the industry’s expansion fueled by a robust ecosystem, cutting-edge research, and a benevolent regulatory framework. It is anticipated that further R&D and strategic partnerships among industry players would strengthen the region’s standing in the rapidly changing field of 3D printing technologies.
Target Audience for 3D Print Raw Materials Market
- Manufacturers of 3D printers
- Suppliers of raw materials for 3D printing
- Research and development teams in material science
- Aerospace industry
- Healthcare industry
- Automotive industry
- Consumer electronics industry
- Educational institutions and research centers
- Prototyping and design firms
- Additive manufacturing service providers
- Government and regulatory bodies
- Investors and venture capitalists
- Startups in the 3D printing industry
- Architects and construction companies
- Electronics and electrical industries
- Industrial manufacturing companies
- Packaging industry
Import & Export Data for 3D Print Raw Materials 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 Raw Materials 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 Raw Materials 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 3D Print Raw Materials 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 3D Print Raw Materials 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 government 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 component for comprehensive and informed analyses.
Segments Covered in the 3D Print Raw Materials Market Report
3D Print Raw Materials Market by Type
- Plastic
- ABS
- PLA
- PETG Metals
- Titanium
- Stainless steel
- Aluminum Ceramics
- Alumina
- Zirconia
3D Print Raw Materials Market by Application
- Aerospace and defense
- Automotive
- Healthcare
- Consumer goods
- Industrial
3D Print Raw Materials Market by Region
- North America
- Europe
- Asia Pacific
- South America
- Middle East and Africa
Key Question Answered
- What is the expected growth rate of the 3D Print Raw Materials market over the next 7 years?
- Who are the major players in the 3D Print Raw Materials 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 Raw Materials 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 Raw Materials market?
- What is the current and forecasted size and growth rate of the global 3D Print Raw Materials market?
- What are the key drivers of growth in the 3D Print Raw Materials 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 Raw Materials market?
- What are the technological advancements and innovations in the 3D Print Raw Materials 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 Raw Materials market and how are they addressing these challenges?
- What are the opportunities for growth and expansion in the 3D Print Raw Materials market?
- What are the product offerings 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
- GLOBAL CRAWLER DOZERS MARKET OUTLOOK
- MARKET DRIVERS
- MARKET RESTRAINTS
- MARKET OPPORTUNITIES
- IMPACT OF COVID-19 ON 3D PRINT RAW MATERIALS 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
- GLOBAL CRAWLER DOZERS MARKET OUTLOOK
- GLOBAL 3D PRINT RAW MATERIALS MARKET BY TYPE, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- PLASTIC
- ABS
- PLA
- PETG METALS
- TITANIUM
- STAINLESS STEEL
- ALUMINUM CERAMICS
- ALUMINA
- ZIRCONIA
- GLOBAL 3D PRINT RAW MATERIALS MARKET BY APPLICATION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- AEROSPACE AND DEFENSE
- AUTOMOTIVE
- HEALTHCARE
- CONSUMER GOODS
- INDUSTRIAL
- GLOBAL 3D PRINT RAW MATERIALS MARKET BY REGION, 2020-2030, (USD BILLION) (THOUSAND UNITS)
- 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, PRODUCT OFFERED, RECENT DEVELOPMENTS)
- STRATASYS LTD.
- 3D SYSTEMS CORPORATION
- MATERIALISE NV
- ARKEMA SA
- EVONIK INDUSTRIES AG
- BASF SE
- DOWDUPONT INC.
- SOLVAY SA
- ROYAL DSM NV
- EOS GMBH ELECTRO OPTICAL SYSTEM
- HP INC.
- ENVISIONTEC
- ULTIMAKER BV
- FORMLABS INC.
- MARKFORGED
- EXONE
- RENISHAW PLC
- TAULMAN 3D
- PROTO LABS, INC.
- COLORFABB
- OPTAMEC
*THE COMPANY LIST IS INDICATIVE
LIST OF TABLES
TABLE 1Â Â Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 2Â Â Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 3Â Â Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 4Â Â Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 5Â Â Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY REGION (USD BILLION) 2020-2030
TABLE 6Â Â Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY REGION (THOUSAND UNITS) 2020-2030
TABLE 7Â Â Â Â Â NORTH AMERICA 3D PRINT RAW MATERIALS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 8Â Â Â Â Â NORTH AMERICA 3D PRINT RAW MATERIALS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 9Â Â Â Â Â NORTH AMERICA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 10Â Â Â NORTH AMERICA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 11Â Â Â NORTH AMERICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 12Â Â Â NORTH AMERICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 13Â Â Â US 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 14Â Â Â US 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 15Â Â Â US 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 16Â Â Â US 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 17Â Â Â CANADA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 18Â Â Â CANADA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 19Â Â Â CANADA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 20Â Â Â CANADA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 21Â Â Â MEXICO 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 22Â Â Â MEXICO 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 23Â Â Â MEXICO 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 24Â Â Â MEXICO 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 25Â Â Â SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 26Â Â Â SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 27Â Â Â SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 28Â Â Â SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 29Â Â Â SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 30Â Â Â SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 31Â Â Â BRAZIL 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 32Â Â Â BRAZIL 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 33Â Â Â BRAZIL 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 34Â Â Â BRAZIL 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 35Â Â Â ARGENTINA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 36Â Â Â ARGENTINA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 37Â Â Â ARGENTINA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 38Â Â Â ARGENTINA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 39Â Â Â COLOMBIA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 40Â Â Â COLOMBIA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 41Â Â Â COLOMBIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 42Â Â Â COLOMBIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 43Â Â Â REST OF SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 44Â Â Â REST OF SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 45Â Â Â REST OF SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 46Â Â Â REST OF SOUTH AMERICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 47Â Â Â ASIA-PACIFIC 3D PRINT RAW MATERIALS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 48Â Â Â ASIA-PACIFIC 3D PRINT RAW MATERIALS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 49Â Â Â ASIA-PACIFIC 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 50Â Â Â ASIA-PACIFIC 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 51Â Â Â ASIA-PACIFIC 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 52Â Â Â ASIA-PACIFIC 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 53Â Â Â INDIA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 54Â Â Â INDIA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 55Â Â Â INDIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 56Â Â Â INDIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 57Â Â Â CHINA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 58Â Â Â CHINA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 59Â Â Â CHINA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 60Â Â Â CHINA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 61Â Â Â JAPAN 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 62Â Â Â JAPAN 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 63Â Â Â JAPAN 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 64Â Â Â JAPAN 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 65Â Â Â SOUTH KOREA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 66Â Â Â SOUTH KOREA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 67Â Â Â SOUTH KOREA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 68Â Â Â SOUTH KOREA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 69Â Â Â AUSTRALIA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 70Â Â Â AUSTRALIA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 71Â Â Â AUSTRALIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 72Â Â Â AUSTRALIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 73Â Â Â SOUTH-EAST ASIA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 74Â Â Â SOUTH-EAST ASIA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 75Â Â Â SOUTH-EAST ASIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 76Â Â Â SOUTH-EAST ASIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 77Â Â Â REST OF ASIA PACIFIC 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 78Â Â Â REST OF ASIA PACIFIC 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 79Â Â Â REST OF ASIA PACIFIC 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 80Â Â Â REST OF ASIA PACIFIC 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 81Â Â Â EUROPE 3D PRINT RAW MATERIALS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 82Â Â Â EUROPE 3D PRINT RAW MATERIALS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 83Â Â Â EUROPE 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 84Â Â Â EUROPE 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 85Â Â Â EUROPE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 86Â Â Â EUROPE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 87Â Â Â GERMANY 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 88Â Â Â GERMANY 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 89Â Â Â GERMANY 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 90Â Â Â GERMANY 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 91Â Â Â UK 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 92Â Â Â UK 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 93Â Â Â UK 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 94Â Â Â UK 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 95Â Â Â FRANCE 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 96Â Â Â FRANCE 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 97Â Â Â FRANCE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 98Â Â Â FRANCE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 99Â Â Â ITALY 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 100Â ITALY 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 101Â ITALY 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 102Â ITALY 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 103Â SPAIN 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 104Â SPAIN 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 105Â SPAIN 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 106Â SPAIN 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 107Â RUSSIA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 108Â RUSSIA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 109Â RUSSIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 110Â RUSSIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 111Â REST OF EUROPE 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 112Â REST OF EUROPE 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 113Â REST OF EUROPE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 114Â REST OF EUROPE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 115Â MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY COUNTRY (USD BILLION) 2020-2030
TABLE 116Â MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY COUNTRY (THOUSAND UNITS) 2020-2030
TABLE 117Â MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 118Â MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 119Â MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 120Â MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 121Â UAE 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 122Â UAE 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 123Â UAE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 124Â UAE 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 125Â SAUDI ARABIA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 126Â SAUDI ARABIA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 127Â SAUDI ARABIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 128Â SAUDI ARABIA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 129Â SOUTH AFRICA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 130Â SOUTH AFRICA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 131Â SOUTH AFRICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 132Â SOUTH AFRICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
TABLE 133Â REST OF MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
TABLE 134Â REST OF MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY TYPE (THOUSAND UNITS) 2020-2030
TABLE 135Â REST OF MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
TABLE 136Â REST OF MIDDLE EAST AND AFRICA 3D PRINT RAW MATERIALS MARKET BY APPLICATION (THOUSAND UNITS) 2020-2030
LIST OF FIGURES
FIGURE 1Â Â Â MARKET DYNAMICS
FIGURE 2Â Â Â MARKET SEGMENTATION
FIGURE 3Â Â Â REPORT TIMELINES: YEARS CONSIDERED
FIGURE 4Â Â Â DATA TRIANGULATION
FIGURE 5Â Â Â BOTTOM-UP APPROACH
FIGURE 6Â Â Â TOP-DOWN APPROACH
FIGURE 7Â Â Â RESEARCH FLOW
FIGURE 8Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2020-2030
FIGURE 9Â Â Â GLOBAL 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2020-2030
FIGURE 11 GLOBAL 3D PRINT RAW MATERIALS MARKET BY REGION (USD BILLION) 2020-2030
FIGURE 12 PORTER’S FIVE FORCES MODEL
FIGURE 13 GLOBAL 3D PRINT RAW MATERIALS MARKET BY TYPE (USD BILLION) 2022
FIGURE 14 GLOBAL 3D PRINT RAW MATERIALS MARKET BY APPLICATION (USD BILLION) 2022
FIGURE 16 GLOBAL 3D PRINT RAW MATERIALS MARKET BY REGION (USD BILLION) 2022
FIGURE 17 MARKET SHARE ANALYSIS
FIGURE 18 STRATASYS LTD.: COMPANY SNAPSHOT
FIGURE 19 3D SYSTEMS CORPORATION: COMPANY SNAPSHOT
FIGURE 20 MATERIALISE NV: COMPANY SNAPSHOT
FIGURE 21 ARKEMA SA: COMPANY SNAPSHOT
FIGURE 22 EVONIK INDUSTRIES AG: COMPANY SNAPSHOT
FIGURE 23 BASF SE: COMPANY SNAPSHOT
FIGURE 24 DOWDUPONT INC.: COMPANY SNAPSHOT
FIGURE 25 SOLVAY SA: COMPANY SNAPSHOT
FIGURE 26 ROYAL DSM NV: COMPANY SNAPSHOT
FIGURE 27 EOS GMBH ELECTRO OPTICAL SYSTEM: COMPANY SNAPSHOT
FIGURE 28 HP INC.: COMPANY SNAPSHOT
FIGURE 29 ENVISIONTEC: COMPANY SNAPSHOT
FIGURE 30 ULTIMAKER BV: COMPANY SNAPSHOT
FIGURE 31 FORMLABS INC.: COMPANY SNAPSHOT
FIGURE 32 MARKFORGED: COMPANY SNAPSHOT
FIGURE 33 EXONE: COMPANY SNAPSHOT
FIGURE 34 RENISHAW PLC: COMPANY SNAPSHOT
FIGURE 35 TAULMAN 3D: COMPANY SNAPSHOT
FIGURE 36 PROTO LABS, INC.: COMPANY SNAPSHOT
FIGURE 37 COLORFABB: COMPANY SNAPSHOT
FIGURE 38 OPTAMEC: COMPANY SNAPSHOT
FAQ
The global 3D Print Raw Materials market is anticipated to grow from USD 1.36 Billion in 2023 to USD 6.85 Billion by 2030, at a CAGR of 26 % during the forecast period.
North America accounted for the largest market in the 3D Print Raw Materials market. North America accounted for 38 % market share of the global market value.
Arkema SA, Evonik Industries AG, BASF SE, DowDuPont, Solvay SA, Royal DSM NV, EOS GmbH Electro Optical Systems, HP Inc., EnvisionTEC, Ultimaker BV, Formlabs Inc., Markforged, ExOne, Renishaw plc, Taulman 3D
The Partnerships to develop complete solutions amongst material producers, 3D printer makers, and end users. Collaborations enable the creation of materials that are especially tailored for particular 3D printing applications and technology. Persistent efforts to lower the cost and increase the accessibility of 3D printing materials, encouraging a broader industry usage. This involves creating content for less expensive 3D printers that are utilized by small enterprises and educational institutions.
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