Photopolymerization Process 3D Printing Market Size | Mordor Intelligence (2025)

Photopolymerization Process 3D Printing Market Report is Segmented by Technology (Stereolithography (SLA), Direct Light Processing ( DLP), and Continuous Liquid Interface Production (CLIP)), Material (Oligomers, Resin (Standard Resins, Tough Resins, Flexible Resins, Biocompatible Resins, and Other Types)), Application (Surgical Models, Wearable Biosensors, Implants (Cardiovascular Implant, Orthopedic Implant, Dental Implant), Customized Prosthetic, Exoskeleton, Hearing Aids, and Others), and Geography (North America, Europe, Asia-Pacific, Latin America, Middle East and Africa). The Market Sizes and Forecasts are Provided in Terms of Value (USD) for all the Above Segments.

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Photopolymerization Process 3D Printing Market Size

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Study Period 2019 - 2029
Market Size (2024) USD 5.16 Billion
Market Size (2029) USD 9.15 Billion
CAGR (2024 - 2029) 12.15 %
Fastest Growing Market Asia Pacific
Largest Market North America
Market Concentration Low

Major Players

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*Disclaimer: Major Players sorted in no particular order

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Photopolymerization Process 3D Printing Market Analysis

The Photopolymerization Process 3D Printing Market size is estimated at USD 5.16 billion in 2024, and is expected to reach USD 9.15 billion by 2029, at a CAGR of 12.15% during the forecast period (2024-2029).

  • Customization and personalization in the healthcare industry drive the studied market's growth. The capability of 3D printing to create tailored solutions allows for the design of medical devices, dental implants, and orthodontic appliances specifically for individual patients. This personalization enhances patient comfort and effectiveness, as products can be made to fit unique anatomical structures. Furthermore, producing patient-specific anatomical models through photopolymerization is crucial in pre-surgical planning. Surgeons can better visualize complex cases, leading to more informed decision-making and improved surgical outcomes. This level of customization is increasingly becoming a standard expectation among patients and healthcare providers alike.
  • Rapid prototyping significantly drives the photopolymerization process. In the healthcare sector, the swift production capabilities of 3D printing are crucial, as timely innovations can substantially influence patient care. Processes like stereolithography (SLA) in photopolymerization are renowned for their rapid turnaround, facilitating the swift production of medical devices and implants. This agility in design allows healthcare professionals to iterate promptly based on real-world testing and feedback. Consequently, products undergo refinement and enhancement at a pace unmatched by traditional manufacturing, ultimately benefiting patient outcomes.
  • Cost efficiency plays a pivotal role in driving the adoption of photopolymerization in consumer products. Traditional manufacturing methods are often burdened with high setup costs and considerable material waste. On the other hand, 3D printing, through its additive manufacturing approach, significantly reduces waste and enables companies to produce items more economically. As the technology evolves and becomes increasingly accessible, production costs are on the decline. This trend positions 3D printing as an attractive option for producing small batches and bespoke items. Such cost-effectiveness resonates with both manufacturers and consumers, especially in price-sensitive markets.
  • As consumers increasingly prioritize sustainability, 3D printing emerges as a beacon for eco-friendly production. Through photopolymerization, this technology not only curtails material waste but also slashes energy consumption when juxtaposed with conventional manufacturing. Moreover, 3D printing's capability for localized production means goods can be crafted nearer to their sales points, further diminishing transportation-related emissions. With a growing environmental consciousness among consumers, brands embracing sustainable methods, like 3D printing, are poised to forge stronger connections with their audiences.
  • Recent strides in photopolymerization are broadening the spectrum of materials for consumer goods. Cutting-edge photopolymer resins boast enhanced traits, paving the way for a diverse product lineup. Such material breakthroughs are unlocking avenues across various industries, spanning fashion, home decor, electronics, and automotive accessories. As manufacturers delve into these innovative materials, the horizons for 3D printing applications in consumer goods are set to expand further.
  • However, the expense of photopolymer materials can be a barrier to entry for many businesses, especially startups and small manufacturers. The high cost of specialized resins used in photopolymerization processes, such as stereolithography (SLA) and digital light processing (DLP), can limit the ability of companies to adopt this technology. For smaller operations, the initial investment in materials can be prohibitive, discouraging them from exploring 3D printing as a viable manufacturing option.

Photopolymerization Process 3D Printing Market Trends

Hearing Aids Application Segment is Expected to Grow Significantly

  • The rising number of hearing loss patients drives the demand for hearing aids. According to WHO, it is estimated that the global number of people with disabling hearing loss could rise to about 711 million by 2050. Such an instance proliferates the hearing aid market at the worldwide level. Customization is crucial for hearing aids. Given the significant variations in ear shape and size among individuals, a generic approach often leads to discomfort and less-than-optimal performance. 3D printing facilitates crafting bespoke hearing aids that integrate perfectly into a user's ear canal. Through photopolymerization, intricate designs can be tailored to each patient's unique anatomical features, boosting comfort and effectiveness.
  • Rapid prototyping, a hallmark of photopolymerization, is especially beneficial in hearing aid development. This iterative design approach empowers manufacturers to swiftly produce, test, and refine models based on user feedback. Such agility shortens the development timeline and guarantees that the end product upholds the highest standards of functionality and user satisfaction.
  • Another pivotal advantage of photopolymerization is its precision. High-resolution outputs are vital for crafting hearing aids, especially for components like microphones and speakers. This level of accuracy ensures optimal device functionality, delivering clear sound quality and dependable performance. The capability to consistently produce small, intricate parts is a significant boon for the hearing aid market.
  • Moreover, advancements in material science are broadening the spectrum of photopolymer materials suitable for hearing aids. The introduction of new biocompatible and durable resins enables the creation of hearing aids that are lightweight, comfortable, and resistant to wear. Such innovations elevate the user experience and align with the growing consumer demand for devices that seamlessly blend functionality with comfort.
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North America is Expected to Hold Significant Market Share

  • The market for photopolymerization 3D printing in North America is shaped by many factors. This region, which encompasses the United States and Canada, is distinguished by its technological innovations, wide-ranging applications, and strong industrial foundation.
  • With its robust technological infrastructure, North America stands as a beacon of innovation. Leading companies and research institutions like 3D Systems, Formlabs, and Carbon 3D, among others in the region, spearhead the development of 3D printing technology. This concentration of expertise fosters collaboration among businesses, universities, and research organizations and propels advancements in photopolymerization techniques and materials. Moreover, established healthcare, automotive, and consumer product firms amplify the region's innovative prowess.
  • The region exhibits a pronounced demand for customized products, with industries like healthcare and consumer goods increasingly pursuing tailored solutions. Photopolymerization 3D printing's capability to produce highly customized items—ranging from medical devices and dental implants to personalized consumer products—aligns with this growing trend. As both consumers and businesses place a premium on personalization, the market for photopolymerization 3D printing is poised for significant expansion.
  • Further, the healthcare sector is a pivotal growth driver for the photopolymerization process. According to JP Morgan Chase, in the first half of 2024, U.S. venture investments in the medical technology industry totaled USD 9.7 billion. The region is at the forefront, bolstered by a robust healthcare infrastructure and a keen appetite for advanced medical technologies. The precise fitting and personalization required for medical devices, prosthetics, and hearing aids underscore the advantages of 3D printing's customization capabilities. With the healthcare industry increasingly embracing innovative manufacturing techniques, the demand for photopolymerization in this sector is set to surge.
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Photopolymerization Process 3D Printing Industry Overview

The market for 3D printing using the photopolymerization process is fragmented, with global giants and specialized entities active across diverse applications. While many large multinationals hold sway over specific lucrative segments, many regional and niche players enrich the competitive landscape, underscoring the market's diversity.

Key players in the photopolymerization 3D printing arena encompass Bomar, 3D Systems, Formlabs, Carbon 3D, and Desktop Metal Inc. These firms boast robust brand recognition and a vast global footprint, allowing them to secure a substantial market share. Their competitive advantages stem from a commitment to innovation, a wide-ranging product lineup, and a resilient distribution network. These frontrunners frequently pursue strategic acquisitions and forge partnerships to further bolster their market position.

Success in the photopolymerization 3D printing market hinges on a company's commitment to innovation. Firms that channel investments into emerging markets and tailor their offerings to meet regional demands are poised to carve out a competitive edge in this fragmented landscape.

Photopolymerization Process 3D Printing Market Leaders

  1. 3D Systems

  2. Formlabs

  3. Carbon 3D

  4. Desktop Metal Inc.

  5. Evonik

*Disclaimer: Major Players sorted in no particular order

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Photopolymerization Process 3D Printing Market News

  • June 2024: At Rapid+TCT 2024, UnionTech unveiled its latest offerings: the Lite600 2.0 photopolymer 3D printing system and a high-temperature 3D printing resin. The Lite600 2.0 builds upon the success of its predecessor, the Lite600. This upgraded model boasts a smaller, lighter, and more compact design, catering to companies with constrained workspaces. By optimizing space, the Lite600 2.0 enables businesses to fit multiple units in areas previously accommodating just one larger machine. Additionally, its enhanced mobility caters to companies that frequently reconfigure their workspace or relocate equipment.
  • March 2024: Desktop Metal, Inc. and Evonik have expanded their collaboration on photopolymer and materials development. They have successfully qualified Evonik's INFINAM ST 6100 L material on the ETEC Xtreme 8K and Pro XL printers. The INFINAM ST 6100 L, developed by Evonik, stands out as a benchmark in high-strength photopolymers tailored for 3D printing. This material boasts an ultimate tensile strength (UTS) of 90 MPa, a flexural stress of 135 MPa, and a heat deflection temperature (HDT) of 120 °C. Additionally, it ensures exceptional accuracy, a superior surface finish, and robust resistance to various chemicals and UV degradation.

Photopolymerization Process 3D Printing Market Report - Table of Contents

  1. 1. INTRODUCTION

    1. 1.1 Study Assumptions and Market Definition

    2. 1.2 Scope of the Study

  2. 2. RESEARCH METHODOLOGY

  3. 3. EXECUTIVE SUMMARY

  4. 4. MARKET INSIGHTS

    1. 4.1 Market Overview

    2. 4.2 Industry Attractiveness - Porter's Five Forces Analysis

      1. 4.2.1 Bargaining Power of Suppliers

      2. 4.2.2 Bargaining Power of Consumers

      3. 4.2.3 Threat of New Entrants

      4. 4.2.4 Threat of Substitutes

      5. 4.2.5 Intensity of Competitive Rivalry

    3. 4.3 Industry Value Chain Analysis

    4. 4.4 Impact of COVID-19 Aftereffects and Other Macroeconomic Factors on the Market

  5. 5. MARKET DYNAMICS

    1. 5.1 Market Drivers

      1. 5.1.1 Growing Demand in Healthcare and Dental Industries

      2. 5.1.2 Emerging Applications in Consumer Products

    2. 5.2 Market Restraint

      1. 5.2.1 High Material Costs

  6. 6. MARKET SEGMENTATION

    1. 6.1 By Technology

      1. 6.1.1 Stereolithography (SLA)

      2. 6.1.2 Direct Light Processing ( DLP)

      3. 6.1.3 Continuous Liquid Interface Production (CLIP)

    2. 6.2 By Material

      1. 6.2.1 Oligomers

      2. 6.2.2 Resin

        1. 6.2.2.1 Standard Resins

        2. 6.2.2.2 Tough Resins

        3. 6.2.2.3 Flexible Resins

        4. 6.2.2.4 Biocompatible Resins

        5. 6.2.2.5 Other Types

    3. 6.3 By Application

      1. 6.3.1 Surgical Models

      2. 6.3.2 Wearable Biosensors

      3. 6.3.3 Implants

        1. 6.3.3.1 Cardiovascular Implant

        2. 6.3.3.2 Orthopaedic Implant

        3. 6.3.3.3 Dental Implant

      4. 6.3.4 Customized Prosthetic

      5. 6.3.5 Exoskeleton

      6. 6.3.6 Hearing Aids

      7. 6.3.7 Others

    4. 6.4 By Geography***

      1. 6.4.1 North America

      2. 6.4.2 Europe

      3. 6.4.3 Asia

      4. 6.4.4 Australia and New Zealand

      5. 6.4.5 Latin America

      6. 6.4.6 Middle East and Africa

  7. 7. COMPETITIVE LANDSCAPE

    1. 7.1 Company Profiles

      1. 7.1.1 Evonik

      2. 7.1.2 3D Systems

      3. 7.1.3 Formlabs

      4. 7.1.4 Carbon 3D

      5. 7.1.5 Desktop Metal Inc.

      6. 7.1.6 Union Technology Corp.

      7. 7.1.7 Zortrax

      8. 7.1.8 Phrozen Technology

      9. 7.1.9 Flashforge

      10. 7.1.10 Anycubic

      11. 7.1.11 NOVA 3D

      12. 7.1.12 ETEC (ENVISION TEC)

      13. 7.1.13 Atum 3D

    2. *List Not Exhaustive
  8. 8. INVESTMENT ANALYSIS

  9. 9. FUTURE OF THE MARKET

**Subject to Availability

***In the final report Asia, Australia, and New Zealand will be studied together as 'Asia-Pacific'

Photopolymerization Process 3D Printing Industry Segmentation

Photopolymerization is a curing process driven by ultraviolet (UV) light, pivotal in 3D printing. UV light exposure solidifies the deposited material, transforming it from a liquid or semi-solid state into a solid form. The study tracks the revenue generated by selling the materials used in the photopolymerization process in 3D printing. It also provides extensive insights regarding the technologies used in the process.

The photopolymerization process 3D printing market is segmented by technology (stereolithography (SLA), direct light processing ( DLP), and continuous liquid interface production (CLIP)), material (oligomers, resin [standard resins, tough resins, flexible resins, biocompatible resins, and other types]), application (surgical models, wearable biosensors, implants [cardiovascular implant, orthopedic implant, dental implant], customized prosthetic, exoskeleton, hearing aids, and others), and geography (North America, Europe, Asia-Pacific, Latin America, Middle East and Africa). The market sizes and forecasts are provided in terms of value (USD) for all the above segments.

By Technology
Stereolithography (SLA)
Direct Light Processing ( DLP)
Continuous Liquid Interface Production (CLIP)
By Material
Oligomers
Resin
Standard Resins
Tough Resins
Flexible Resins
Biocompatible Resins
Other Types
By Application
Surgical Models
Wearable Biosensors
Implants
Cardiovascular Implant
Orthopaedic Implant
Dental Implant
Customized Prosthetic
Exoskeleton
Hearing Aids
Others
By Geography***
North America
Europe
Asia
Australia and New Zealand
Latin America
Middle East and Africa

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Photopolymerization Process 3D Printing Market Research FAQs

How big is the Photopolymerization Process 3D Printing Market?

The Photopolymerization Process 3D Printing Market size is expected to reach USD 5.16 billion in 2024 and grow at a CAGR of 12.15% to reach USD 9.15 billion by 2029.

What is the current Photopolymerization Process 3D Printing Market size?

In 2024, the Photopolymerization Process 3D Printing Market size is expected to reach USD 5.16 billion.

Who are the key players in Photopolymerization Process 3D Printing Market?

3D Systems, Formlabs, Carbon 3D, Desktop Metal Inc. and Evonik are the major companies operating in the Photopolymerization Process 3D Printing Market.

Which is the fastest growing region in Photopolymerization Process 3D Printing Market?

Asia Pacific is estimated to grow at the highest CAGR over the forecast period (2024-2029).

Which region has the biggest share in Photopolymerization Process 3D Printing Market?

In 2024, the North America accounts for the largest market share in Photopolymerization Process 3D Printing Market.

What years does this Photopolymerization Process 3D Printing Market cover, and what was the market size in 2023?

In 2023, the Photopolymerization Process 3D Printing Market size was estimated at USD 4.53 billion. The report covers the Photopolymerization Process 3D Printing Market historical market size for years: 2019, 2020, 2021, 2022 and 2023. The report also forecasts the Photopolymerization Process 3D Printing Market size for years: 2024, 2025, 2026, 2027, 2028 and 2029.

Photopolymerization Process 3D Printing Industry Report

Statistics for the 2024 Photopolymerization Process 3D Printing market share, size and revenue growth rate, created by Mordor Intelligence™ Industry Reports. Photopolymerization Process 3D Printing analysis includes a market forecast outlook for 2024 to 2029 and historical overview. Get a sample of this industry analysis as a free report PDF download.

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Photopolymerization Process 3d Printing Market Size & Share Analysis - Growth Trends & Forecasts (2024 - 2029)

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