3D 프린팅 플라스틱 시장 보고서 : 유형, 형상, 용도, 최종사용자, 지역별(2025-2033년)
3D Printing Plastics Market Report by Type (Photopolymers, ABS and ASA, Polyamide/Nylon, Polylactic Acid, and Others), Form, Application, End User, and Region 2025-2033
상품코드 : 1754027
리서치사 : IMARC
발행일 : 2025년 06월
페이지 정보 : 영문 145 Pages
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한글목차

3D 프린팅 플라스틱 세계 시장 규모는 2024년 14억 9,740만 달러에 달했습니다. 향후 IMARC Group은 2033년까지 시장 규모가 88억 1,050만 달러에 달할 것으로 예상하며, 2025년부터 2033년까지 19.4%의 연평균 성장률(CAGR)을 기록할 것으로 전망하고 있습니다. 지속가능하고 환경 친화적인 생산 증가, 툴링 및 금형 제조 애플리케이션 증가, 주문형 생산 가능성 증가, 설계 반복 및 최적화 개선, 적층 가공 서비스 확대는 시장을 주도하는 요인 중 일부입니다.

3차원(3D) 프린팅 플라스틱은 아크릴로니트릴부타디엔스티렌(ABS) 필라멘트, 열가소성 수지, 광중합체, 폴리머, 폴리아미드 등 다양한 재료를 제품 제조에 활용하는 적층 성형 공정을 수반합니다. 이러한 재료는 일반적으로 천연자원이나 석유화학제품에서 추출한 반합성 화합물이나 합성 화합물로 구성됩니다. 그 결과, 3D 프린팅된 플라스틱은 경량성, 유연성, 쉬운 멸균, 생체적합성, 화학적, 열적, 기계적 특성의 향상과 같은 특성을 발휘합니다. 이러한 특성뿐만 아니라 3D 프린팅은 빠르고 효율적인 설계 반복 및 변경을 용이하게 하고, 품목의 간소화된 대량 맞춤화를 가능하게 하며, 조립의 통합을 가능하게 합니다. 이러한 특성을 활용하여 3D 프린팅 플라스틱은 다양한 모양, 크기, 강도의 공구, 부품, 액세서리의 시제품 제작, 수정, 제조에 다양한 분야에 적용되고 있습니다. 현재 이러한 플라스틱은 필라멘트, 파우더, 파우더, 액체, 잉크로 제공되어 다양한 제조 기술에 유연하게 대응하고 있습니다.

세계 시장은 3D 프린팅 기술의 급속한 발전이 큰 원동력이 되고 있습니다. 이에 따라 다양한 산업 분야의 응용 분야 증가와 재료의 혁신이 시장에 크게 기여하고 있습니다. 또한, 커스터마이징 및 개인화 수요의 증가와 제품 개발 주기의 단축은 시장에 긍정적인 영향을 미치고 있습니다. 이와는 별도로, 재료 낭비 감소와 래피드 프로토타이핑의 사용 확대가 시장을 활성화하고 있습니다. 또한, 항공우주 및 자동차 분야, 의료 및 헬스케어 산업에서의 채택 확대가 시장을 견인하고 있습니다. 또한, 복잡한 형상의 제조 능력과 비용 효율적인 소규모 생산이 시장을 강화하고 있습니다. 또한, 3D 프린팅 장비의 접근성, 소비재 및 전자제품 제조의 증가가 시장을 촉진하고 있습니다.

3D 프린팅 플라스틱 시장 동향과 촉진요인:

3D 프린팅 플라스틱의 장점에 대한 인지도 향상

3D 프린팅 플라스틱의 장점에 대한 인식이 높아짐에 따라 시장에 대한 전망이 밝아지고 있습니다. 산업계와 소비자가 3D 프린팅 플라스틱의 기능을 이해함에 따라 다양한 응용 분야에 대한 채택 의지가 증가하고 있습니다. 디자인 유연성, 사용자 정의, 신속한 프로토타이핑, 재료 낭비 감소와 같은 특성에 대한 인식은 더 많은 기업과 개인이 3D 프린팅 플라스틱을 탐구하고 프로세스에 통합하도록 유도하고 있습니다. 이러한 이해의 증가는 R&D, 장비에 대한 투자를 촉진하고, 이 혁신적인 제조 접근 방식의 잠재력을 활용하기 위해 업계 간 협업을 촉진하는 연쇄 효과를 가져옵니다. 3D 프린팅 플라스틱에 대한 인식이 확산됨에 따라 3D 프린팅 플라스틱 시장이 확대되어 혁신을 촉진하고 지속가능한 성장을 위한 탄탄한 토대를 마련할 것입니다.

자동차 분야에서의 3D 프린팅 플라스틱 채택 증가

자동차 산업에서 3D 프린팅 플라스틱의 채택 증가는 업계 상황을 형성하는 중요한 추세를 의미합니다. 자동차 제조업체들은 프로토타이핑부터 최종 부품 생산에 이르기까지 다양한 업무에 혁명을 일으키기 위해 3D 프린팅 플라스틱을 채택하고 있습니다. 그 배경에는 복잡한 형상을 빠르게 생성하고, 재료 낭비를 줄이고, 제품 개발 주기를 단축할 수 있는 기술이 있습니다. 이러한 플라스틱은 자동차 기술자들이 보다 효율적으로 부품을 시제품을 제작하고 테스트할 수 있게 해주며, 설계의 반복을 빠르게 하고, 전체 차량의 성능을 향상시킵니다. 또한, 3D 프린팅에서 플라스틱의 경량성은 연비 향상과 배기가스 배출량 감소를 위해 경량 소재를 찾는 자동차 업계의 움직임과 일치합니다. 3D 프린팅 플라스틱은 프로토타이핑뿐만 아니라 인테리어 패널, 브래킷, 엔진 부품과 같은 최종 용도 부품의 제조에도 사용되고 있습니다. 이를 통해 주문형 생산 및 맞춤형 생산이 가능해져 공급망을 간소화하고 대규모 창고의 필요성을 줄일 수 있습니다. 자동차 산업에서 3D 프린팅 플라스틱의 통합이 증가함에 따라 운영 효율성을 높이고, 혁신을 촉진하며, 제조업체가 디자인과 기능의 한계를 뛰어넘을 수 있게 되었습니다. 이러한 추세는 민첩성, 지속가능성, 최첨단 디자인 컨셉에 중점을 두고 전통적인 자동차 제조를 재구성할 태세를 갖추고 있습니다.

인더스트리 4.0 및 디지털 제조와의 통합

3D 프린팅 플라스틱을 인더스트리 4.0 및 디지털 제조와 통합하면 생산 방식의 패러다임이 바뀔 것입니다. 이러한 기술의 융합은 제조 공정을 더욱 연결되고, 자동화되고, 효율적으로 만들 수 있습니다. 인더스트리 4.0의 원칙은 실시간 모니터링과 제어가 가능한 스마트한 데이터 기반 시스템을 옹호하고 있습니다. 이 프레임워크에 3D 프린팅 플라스틱을 통합함으로써 기업은 주문형 부품을 생산하고, 재고 비용을 절감하고, 리드 타임을 단축할 수 있습니다. 설계의 디지털화는 신속한 조정과 반복을 가능하게 하여 시장 요구에 대한 민첩성을 향상시킬 수 있습니다. 또한, 3D 프린팅 플라스틱과 인더스트리 4.0의 결합은 예측 유지보수를 촉진합니다. 센서가 3D 프린터의 성능을 모니터링하고 문제가 발생하기 전에 개입하여 일관되고 중단 없는 생산을 가능하게 하며, 3D 프린팅 플라스틱은 기존 제조가 어려웠던 복잡한 디자인을 만들 수 있기 때문에 디지털 제조의 이점을 누릴 수 있습니다. 이러한 시너지 효과로 인해 복잡한 맞춤형 부품을 정밀하게 제조할 수 있습니다.

목차

제1장 서문

제2장 조사 범위와 조사 방법

제3장 주요 요약

제4장 소개

제5장 세계의 3D 프린팅 플라스틱 시장

제6장 시장 내역 : 유형별

제7장 시장 내역 : 형상별

제8장 시장 내역 : 용도별

제9장 시장 내역 : 최종사용자별

제10장 시장 내역 : 지역별

제11장 SWOT 분석

제12장 밸류체인 분석

제13장 Porter's Five Forces 분석

제14장 가격 분석

제15장 경쟁 구도

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영문 목차

영문목차

The global 3D printing plastics market size reached USD 1,497.4 Million in 2024. Looking forward, IMARC Group expects the market to reach USD 8,810.5 Million by 2033, exhibiting a growth rate (CAGR) of 19.4% during 2025-2033. The increasing sustainable and eco-friendly production, the rising tooling and mold manufacturing applications, the growing potential for on-demand production, the improved design iteration and optimization, and the expansion of additive manufacturing services are some of the factors propelling the market.

Three-dimensional (3D) printing plastics involve an additive manufacturing process that utilizes various materials, including acrylonitrile butadiene styrene (ABS) filaments, thermoplastics, photopolymers, and Polyamide, for product fabrication. These materials typically consist of semi-synthetic and synthetic compounds derived from natural sources and petrochemicals. The resulting 3D-printed plastics exhibit qualities such as lightweightness, flexibility, easy sterilization, biocompatibility, and improved chemical, thermal, and mechanical attributes. Beyond these characteristics, the procedure facilitates swift and efficient design iterations or alterations, enabling streamlined mass customization of items and allowing for assembly consolidation. Capitalizing on these attributes, 3D printing plastics find applications across various sectors to prototype, modify, and manufacture tools, components, and accessories of varying shapes, sizes, and strengths. Currently, these plastics are available in filaments, powders, liquids, and inks, offering flexibility across different manufacturing techniques.

The global market is majorly driven by the rapid advancements in 3D printing technology. In line with this, the increasing applications in various industries and material innovations are significantly contributing to the market. Furthermore, the rising customization and personalization demand and the shortened product development cycles are positively influencing the market. Apart from this, the reduced material wastage and the growing use of rapid prototyping are catalyzing the market. Moreover, the expanding adoption in the aerospace and automotive sectors and the escalating medical and healthcare industry utilization are propelling the market. Besides, the complex geometries manufacturing capability and the cost-effective small-scale production are strengthening the market. Additionally, the accessibility of 3D printing equipment and the increasing consumer goods and electronics manufacturing is providing a boost to the market.

3D Printing Plastics Market Trends/Drivers:

Increasing awareness regarding the benefits of 3D printing plastics

The increasing awareness of the benefits of 3D printing plastics creates a positive outlook for the market. As industries and consumers become more informed about the capabilities of this technology, their interest in adopting 3D printing plastics for diverse applications intensifies. The awareness of attributes like design flexibility, customization, rapid prototyping, and reduced material waste propels more businesses and individuals to explore and integrate 3D printing plastics into their processes. This heightened understanding has a cascading effect, spurring investments in research, development, and equipment and encouraging collaborations between industries to harness the potential of this innovative manufacturing approach. As awareness spreads, the 3D printing plastics market is propelled towards expansion, stimulating innovation and establishing a solid foundation for sustained growth.

Rising uptake of 3D printing plastics in the automotive sector

The increasing adoption of 3D printing plastics within the automotive sector signifies a significant trend shaping the industry's landscape. Automotive manufacturers are turning to 3D printing plastics to revolutionize various operations, from prototyping to final part production. This uptake is driven by the technology's ability to swiftly create complex geometries, reduce material wastage, and expedite the product development cycle. These plastics enable automotive engineers to prototype and test components more efficiently, leading to faster design iterations and improved overall vehicle performance. Moreover, the lightweight nature of plastics in 3D printing aligns with the automotive industry's push for lightweight materials to enhance fuel efficiency and reduce emissions. Beyond prototyping, 3D printing plastics are increasingly used to manufacture end-use components, such as interior panels, brackets, and engine parts. This allows for on-demand production and customization, streamlining supply chains and reducing the need for extensive warehousing. The rising integration of 3D printing plastics in the automotive sector boosts operational efficiency and fuels innovation, enabling manufacturers to push the boundaries of design and functionality. As this trend continues, it's poised to reshape traditional automotive manufacturing, emphasizing agility, sustainability, and cutting-edge design concepts.

Integration with Industry 4.0 and digital manufacturing

Integrating 3D printing plastics with Industry 4.0 and digital manufacturing catalyzes a paradigm shift in production methodologies. Blending these technologies makes manufacturing processes more connected, automated, and efficient. Industry 4.0 principles advocate for smart, data-driven systems that enable real-time monitoring and control. By incorporating 3D printing plastics into this framework, companies can produce components on-demand, reducing inventory costs and minimizing lead times. The digitization of designs enables quick adjustments and iterations, fostering agility in responding to market demands. Furthermore, combining 3D printing plastics and Industry 4.0 promotes predictive maintenance. Sensors can monitor the performance of 3D printers and intervene before issues arise, ensuring consistent and uninterrupted production. Digital manufacturing benefits from 3D printing plastics' ability to create intricate designs that were once challenging to manufacture conventionally. This synergy allows for the production of complex, customized parts with precision.

3D Printing Plastics Industry Segmentation:

Breakup by Type:

Photopolymers dominates the market

Photopolymers stand out for their ability to rapidly solidify under light exposure, making them well-suited for intricate designs and fine details. Their applications span industries such as dentistry, jewelry, and consumer goods. The growth of photopolymer utilization is driven by increasing demand for highly detailed, visually appealing prototypes and end-use products.

Furthermore, ABS and ASA offer durability, strength, and thermal resistance, making them ideal for functional prototypes and parts. These materials find extensive use in industries like automotive, aerospace, and electronics. The growth in demand for sturdy, reliable components drives the expansion of ABS and ASA in the 3D printing plastics market.

Moreover, Polyamide or nylon materials excel in providing mechanical strength, flexibility, and chemical resistance. They find applications in industrial and consumer sectors, including manufacturing jigs, fixtures, and wear-resistant components. The growth in utilization of polyamide/nylon is attributed to these materials' versatility and wide-ranging applications.

The strategic emphasis on these distinct 3D printing plastics reflects their increasing adoption across diverse industries. This targeted approach addresses market needs and encourages innovation, research, and material development. As each type of 3D printing plastic finds its niche and contributes to different sectors, the overall market gains momentum, supported by an ecosystem of specialized materials that cater to evolving industry demands.

Breakup by Form:

Filament dominates the market

Filament-based 3D printing is popular due to its accessibility and compatibility with various 3D printers. This form is widely used for prototyping, DIY projects, and small-scale production. The growth in filament adoption is driven by its user-friendly nature and versatility.

Furthermore, liquid or ink-based 3D printing, or stereolithography (SLA), utilizes photosensitive polymers that solidify when exposed to light. This form is prized for its ability to produce highly detailed, intricate designs with smooth surfaces. The growth in liquid/ink 3D printing is fueled by applications in jewelry, dental, and art-related sectors that demand precision and aesthetics.

Moreover, powder-based 3D printing, including selective laser sintering (SLS), involves fusing layers of powdered material using a laser. This form is well-suited for producing complex geometries and functional parts with various materials, including metals. The growth in powder-based 3D printing is driven by its ability to create strong, durable parts and its applications in industries like aerospace and medicine.

The segmentation by form caters to different user preferences and industrial requirements, expanding the potential applications of 3D printing plastics. As each form addresses specific needs and opens up unique opportunities, the market gains momentum from a diverse ecosystem of 3D printing technologies that collectively contribute to the growth and advancement of the industry.

Breakup by Application:

Prototyping dominates the market

These plastics have long been utilized for rapid prototyping, enabling engineers and designers to create physical models of products for testing and validation quickly. This application accelerates design iterations and reduces development time, making it a cornerstone of the product development cycle across electronics, medical devices, and fashion industries.

On the other hand, the use of 3D printing plastics in manufacturing processes is gaining traction due to its ability to produce end-use components directly. Industries such as aerospace, automotive, and consumer goods increasingly integrate 3D printing plastics into their production lines to create functional parts with complex geometries and reduced material wastage. This application enables agile production, customization, and even on-demand manufacturing.

Breakup by End User:

The automotive sector is a major adopter of 3D printing plastics, utilizing the technology for rapid prototyping, tooling, and manufacturing lightweight components. The automotive industry benefits from the ability to create customized parts, improve design iterations, and reduce production lead times. 3D printing plastics find applications in producing interior components, engine parts, and even entire vehicle prototypes, contributing to innovation and efficiency within the automotive manufacturing process.

Furthermore, 3D printing plastics are revolutionizing medical device manufacturing and patient-specific solutions in the healthcare sector. From creating anatomical models for surgical planning to developing custom implants and prosthetics, the technology enhances precision, patient outcomes, and the overall quality of healthcare. Additionally, dental applications, such as creating dental crowns and bridges, are rapidly advancing through 3D printing plastics, offering faster and more accurate solutions.

Breakup by Region:

North America exhibits a clear dominance, accounting for the largest market share

The market research report has also provided a comprehensive analysis of all the major regional markets, which include North America (the United States and Canada); Asia Pacific (China, Japan, India, South Korea, Australia, Indonesia, and others); Europe (Germany, France, the United Kingdom, Italy, Spain, Russia, and others); Latin America (Brazil, Mexico, and others); and the Middle East and Africa. According to the report, North America accounted for the largest market share.

In the North American region, encompassing countries like the United States and Canada, the 3D printing plastics market thrives due to a combination of factors. The robust technological ecosystem, including research institutions and innovative companies, drives materials and printing techniques advancements. North America's diverse industrial landscape, ranging from aerospace and automotive to healthcare and consumer goods, ensures a wide range of applications for 3D printing plastics.

Moreover, major 3D printing companies and industry pioneers in North America contribute to the market's growth. These companies spearhead technological developments, shape industry standards, and collaborate with other industries to explore new applications. Government support, investment in research and development, and a strong emphasis on innovation further fuel the adoption of 3D printing plastics in North America. Additionally, the region's well-established supply chain and logistics infrastructure provide a solid foundation for distributing and adopting 3D printing materials and technologies.

Competitive Landscape:

Top companies are strengthening the market through their strategic innovations and industry leadership. These companies are at the forefront of driving technological advancements that expand the capabilities of 3D printing plastics. By consistently developing new materials with enhanced properties, these industry leaders are broadening the scope of applications, attracting diverse sectors such as aerospace, healthcare, and automotive. Their investments in research and development yield breakthroughs in print speed, accuracy, and material compatibility, thus catalyzing wider adoption. Strategic partnerships with major manufacturers, collaborations with research institutions, and involvement in industry consortia collectively contribute to creating a robust ecosystem for 3D printing plastics. Their influence extends beyond technology, as they play a vital role in educating the market about this technology's benefits and potential applications. Moreover, these companies are nurturing an environment where innovation and customization thrive by offering a range of 3D printing systems, materials, and services. Ultimately, their commitment to pushing the boundaries of 3D printing plastics paves the way for sustained market growth and transformative advancements across industries.

The report has provided a comprehensive analysis of the competitive landscape in the 3D printing plastics market. Detailed profiles of all major companies have also been provided.

Key Questions Answered in This Report

Table of Contents

1 Preface

2 Scope and Methodology

3 Executive Summary

4 Introduction

5 Global 3D Printing Plastics Market

6 Market Breakup by Type

7 Market Breakup by Form

8 Market Breakup by Application

9 Market Breakup by End User

10 Market Breakup by Region

11 SWOT Analysis

12 Value Chain Analysis

13 Porters Five Forces Analysis

14 Price Analysis

15 Competitive Landscape

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