Global 3D Printed Bioplastic Market Size, Share, Growth & Trends Analysis Report By Form (Filament, Liquid, Structured Illumination Microscopy, Powder/Solid) By Material (Polylactide (PLA), NYLON 11, Arnitel ECO (thermoplastic copolyester), BIOME3D, Others) By End-User (Aerospace & Defense, Automotive, Health Care, Electrical & Electronics, Others): Regional Outlook, Growth Potential and Segments Forecast 2024-2030

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The Global 3D Printed Bioplastic Market size was USD 1,055.03 Million in 2023 and it is expected to grow to USD 2,964.11 Million in 2030 with a CAGR of 25.85% in the 2024-2030 period.

Global 3D Printed Bioplastic Market: Overview

3D printed bioplastics refer to materials used in 3D printing that are derived from renewable biomass sources such as corn starch, sugarcane, algae, or other organic materials. These bioplastics are considered environmentally friendly alternatives to traditional petroleum-based plastics because they are biodegradable and have a lower carbon footprint. Population growth, middle-class income growth, significant improvements in people’s lifestyles and digital transformation are all expected to drive the production of 3D printed bioplastic around the world.

3D printing can assist minimize the length it takes to build a product. It also lowers errors and improves the accuracy of complex design production. It also assists in the creation of bespoke items. The 3D printed bioplastic market is predicted to grow in response to increased demand for 3D printing technology across a wide range of end-use sectors, as well as increased penetration of bioplastic in 3D printing technology.

Increased bans on polymer-based products and increased depletion of fossil fuel feedstock are expected to boost demand for bio-based products in the near future. Furthermore, rising consumer awareness of bio-based products is expected to propel the global biopolymers market forward. Bioplastic has the potential to replace fossil-fuel-derived chemicals. This is a major driver of the bioplastic market. Furthermore, the global shift in consumer demand for bio-based products presents substantial prospects for the creation of technologically superior materials. Bioplastics also provide greater safety and excellent environmental qualities. The raw materials utilized in the formulation of these materials are plentiful. This is projected to drive bioplastic demand in the near future.

Global 3D Printed Bioplastic Market: Covid-19 Impact

Changes in consumer behavior and economic uncertainty during the pandemic may have influenced the adoption of 3D printed bioplastics. Some businesses may have postponed investments in sustainable solutions due to financial constraints or shifting priorities. The pandemic has heightened awareness of environmental issues, including plastic pollution. As a result, there has been an increased demand for sustainable alternatives to traditional plastics. Bioplastics, particularly those suitable for 3D printing, have gained attention due to their renewable sourcing and biodegradability. Despite challenges, there have been opportunities for 3D printed bioplastics in the healthcare sector during the pandemic.

3D printing technology has been utilized to produce medical supplies such as face shields, ventilator components, and nasopharyngeal swabs. Bioplastics offer a potential sustainable option for such applications. Government responses to the pandemic, including economic stimulus packages and environmental policies, could have influenced the 3D printed bioplastics market. Supportive policies promoting sustainability or restrictions on single-use plastics may have a long-term impact on the adoption of bioplastics.

Global 3D Printed Bioplastic Market: Growth Drivers

  • Environmental Concerns:

With growing awareness of environmental issues, there is a shift towards sustainable materials. Bioplastics, derived from renewable sources such as corn starch, sugarcane, or algae, offer a greener alternative to traditional plastics, reducing carbon footprint and dependency on fossil fuels.

  • Government Regulations and Policies:

Governments worldwide are implementing regulations and policies to reduce plastic pollution and promote the use of sustainable materials. This includes bans on single-use plastics and incentives for bioplastic production and utilization, driving the demand for 3D printed bioplastics.

  • Growing Applications:

The expanding range of applications for 3D printed bioplastics is driving market growth. From prototyping and product development to end-use parts in various industries, including medical implants, packaging, fashion, and electronics, bioplastics are increasingly being adopted for their functional and aesthetic properties.

Global 3D Printed Bioplastic Market: Restraining factors

  • Limited Material Properties:

Although bioplastics offer environmental benefits, they may have limitations in terms of mechanical strength, durability, and thermal stability compared to conventional plastics. This can restrict their suitability for certain applications, particularly those requiring high-performance materials. While research and development efforts are ongoing to enhance the properties of bioplastics, addressing these limitations remains a challenge for widespread adoption in diverse industries.

  • Performance Standards and Certification:

The lack of universally recognized performance standards and certifications specific to 3D printed bioplastics can hinder market acceptance. Customers, particularly in industries with stringent quality requirements like aerospace and healthcare, may be hesitant to adopt bioplastic-based products without assurance of their performance, safety, and reliability. Establishing industry standards and certifications tailored to 3D printed bioplastics could help build trust and facilitate market uptake.

Global 3D Printed Bioplastic Market:  Opportunity factors

  • Sustainable Manufacturing Solutions:

As the demand for sustainable alternatives to traditional plastics continues to rise, 3D printed bioplastics present a compelling solution. Manufacturers can capitalize on this growing demand by developing and offering bioplastic-based 3D printing materials and solutions. By leveraging renewable feedstocks and reducing reliance on fossil fuels, companies can position themselves as leaders in sustainable manufacturing.

  • Customization and Personalization:

3D printing technology enables the creation of highly customized and intricate designs, catering to specific needs and preferences. Bioplastics can be formulated to meet various performance requirements, allowing for the production of tailor-made products across industries such as healthcare, automotive, consumer goods, and fashion. Companies can capitalize on this opportunity by offering bespoke 3D printed bioplastic solutions to meet individual customer demands.

Global 3D Printed Bioplastic Market: Challenges

  • Cost Competitiveness:

Bioplastics typically have higher production costs compared to conventional plastics due to factors such as raw material sourcing, processing, and manufacturing. Additionally, the cost of 3D printing equipment and materials can be significant. Achieving cost competitiveness with traditional plastics while maintaining sustainability remains a challenge for the 3D printed bioplastics market.

  • Recycling and End-of-Life Management:

While bioplastics offer environmental benefits such as biodegradability and compostability, challenges remain in their recycling and end-of-life management. The infrastructure for collecting, sorting, and processing bioplastics differs from that of traditional plastics, leading to contamination and inefficiencies in recycling streams. Developing scalable recycling technologies and implementing effective waste management practices are crucial to maximize the sustainability of bioplastic-based products.

Global 3D Printed Bioplastic Market: Segmentation

Based On Form: The market is segmented into Filament, Liquid, Powder/Solid. Among these the Filament is major revenue contributor. 

Based On Material: The market is segmented into Polylactide (PLA), NYLON 11, Arnitel ECO (thermoplastic copolyester), BIOME3D and Others. Among these Polylactide (PLA) hold the largest revenue share.

Based On End-User: The market is segmented into Aerospace & Defense, Automotive, Health Care, Electrical & Electronics and Others. Among these, Aerospace & Defense historically dominated the market share. However, Healthcare sector is showing impressive growth trend as per the current trend, and is likely to acquire top-spot in the coming future due to its varied applications.

Based On Region: Based on Region, the market is segmented into five key geographical regions namely – North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. Among these North America holds the largest revenue share.

Global 3D Printed Bioplastic Market: Regional Insights

North America

North America is currently considered a leading region in the global 3D printed bioplastics market, with several factors contributing to its prominent position – North America boasts a well-established research infrastructure and a focus on innovation in 3D printing technologies and bioplastics development. This fosters advancements in the field and attracts investments. Consumers and businesses in North America are increasingly becoming environmentally conscious, driving the demand for sustainable materials like bioplastics in various applications. North America has a well-developed 3D printing industry with a large user base and diverse applications across various sectors. This existing infrastructure readily adopts new materials like bioplastics.

Europe

Europe represents a significant region in the global 3D printed bioplastics market, showcasing notable characteristics and trends. European nations prioritize environmental consciousness, fostering regulations and policies that encourage sustainable practices and materials. This drives the adoption of bioplastics across various industries. Europe has a robust manufacturing sector, particularly in the automotive and aerospace industries, which are early adopters of advanced materials like 3D printed bioplastics. everal European governments actively support research and development in 3D printing technologies and bioplastics, further propelling market growth.

Asia-Pacific

The Asia Pacific (APAC) region is emerging as a fast-growing and potentially dominant player in the global 3D printed bioplastics market. The booming economies of countries like China and India are witnessing a surge in disposable income, leading to increased demand for innovative and sustainable products, including 3D printed bioplastics. The APAC region is a manufacturing powerhouse, with a strong focus on technological advancements and automation. This fosters the adoption of 3D printing technologies and bioplastics in various manufacturing processes. Several APAC governments are actively promoting sustainable manufacturing practices and bioplastics development through supportive policies and investments.

Latin America

The Latin American market for 3D printed bioplastics holds promise for future growth, but it currently occupies a smaller share compared to North America, Europe, and Asia Pacific. The use of 3D printing technologies is gradually increasing across various industries in Latin America, particularly in healthcare and prototyping. This paves the way for the adoption of bioplastics as a sustainable printing material. Latin America is a rich source of raw materials for bioplastic production, such as cassava starch and sugarcane.

This readily available supply chain can be advantageous for the development and cost-effectiveness of bioplastics. While the market is still emerging, some companies are actively involved in 3D printing and bioplastics in Latin America. Local subsidiaries of multinational corporations like BASF and Siemens. Regional startups focusing on bioplastics development and 3D printing services.

Middle East and Africa

The Middle East & Africa (MEA) region represents a nascent market for 3D printed bioplastics, with limited current adoption but holding potential for future development. The adoption of 3D printing technology across various sectors, especially in construction and healthcare, is steadily increasing. This creates a foundation for the introduction of bioplastics as sustainable printing materials. Some governments in the region, particularly those in the oil-rich Gulf Cooperation Council (GCC) countries, are starting to invest in additive manufacturing technologies and explore sustainable practices.

This could lead to support for bioplastics development. By overcoming challenges related to awareness, affordability, infrastructure, and workforce development, and by capitalizing on growing interest in 3D printing and government support for innovation, the MEA region can emerge as a future player in this evolving market space.

Global 3D Printed Bioplastic Market: Competitive Landscape

NatureWorks LLC, Arkema Inc., BASF SE, Danimer Scientific, Evonik Industries AG, Fkur Kunststoff GmbH, Total Corbion PLA, Bio-On S.P.A., API S.P.A., Good Natured Products Inc.

Global 3D Printed Bioplastic Market: Recent Developments

  • Good Natured Products Inc.: In January 2024, Good Natured Products Inc. launched Sustainability Guide Book with Tips and Expert Advice for Navigating Sustainable Packaging. GDNP launched first ever information resource in the form of a book titled ‘Guide Book with Tips and Expert Advice for Navigating Sustainable Packaging.’ This book will help food processing industries to select suitable packaging material according to their needs, keeping in mind the sustainability perspective. (Source: GDNP official web.)

Table of Content

1. EXECUTIVE SUMMARY
2. MARKET INTRODUCTION
2.1. Definition
2.2. Scope of the Study
2.2.1. Research Objective
2.2.2. Assumptions
2.2.3. Limitations
3. RESEARCH METHODOLOGY
3.1. Overview
3.2. Data Mining
3.3. Secondary Research
3.4. Primary Research
3.4.1. Primary Interviews and Information Gathering Process
3.4.2. Breakdown of Primary Respondents
3.5. Forecasting Modality
3.6. Market Size Estimation
3.6.1. Bottom-Up Approach
3.6.2. Top-Down Approach
3.7. Data Triangulation
3.8. Validation
4. MARKET DYNAMICS
4.1. Overview
4.2. Drivers
4.3. Restraints
4.4. Opportunities
5. MARKET FACTOR ANALYSIS
5.1. Value Chain Analysis
5.2. Porter’s Five Forces Analysis
5.2.1. Bargaining Power of Suppliers
5.2.2. Bargaining Power of Buyers
5.2.3. Threat of New Entrants
5.2.4. Threat of Substitutes
5.2.5. Intensity of Rivalry
5.3. COVID-19 Impact Analysis
5.3.1. Market Impact Analysis
5.3.2. Regional Impact
5.3.3. Opportunity and Threat Analysis
6. GLOBAL 3D PRINTED BIOPLASTIC MARKET, BY FORM
6.1. Overview
6.2. Filament
6.3. Liquid
6.4. Powder/Solid

7. GLOBAL 3D PRINTED BIOPLASTIC MARKET, BY MATERIAL
7.1. Overview
7.2. Polylactide (PLA)
7.3. NYLON 11
7.4. Arnitel ECO (thermoplastic copolyester)
7.5. BIOME3D
7.6. Others
8. GLOBAL 3D PRINTED BIOPLASTIC MARKET, BY END USER
8.1. Overview
8.2. Aerospace & Defense
8.3. Automotive
8.4. Health Care
8.5. Electrical & Electronics
8.6. Others
9. GLOBAL 3D PRINTED BIOPLASTIC MARKET, BY REGION
9.1. Overview
9.2. North America
9.2.1. U.S.
9.2.2. Canada
9.3. Europe
9.3.1. Germany
9.3.2. France
9.3.3. U.K
9.3.4. Italy
9.3.5. Spain
9.3.6. Rest of Europe
9.4. Asia-Pacific
9.4.1. China
9.4.2. India
9.4.3. Japan
9.4.4. South Korea
9.4.5. Australia
9.4.6. Rest of Asia-Pacific
9.5. Rest of the World
9.5.1. Middle East
9.5.2. Africa
9.5.3. Latin America
10. COMPETITIVE LANDSCAPE
10.1. Overview
10.2. Competitive Analysis
10.3. Market Share Analysis
10.4. Major Growth Strategy in the Global 3D Printed Bioplastic Market,
10.5. Competitive Benchmarking
10.6. Leading Players in Terms of Number of Developments in the Global 3D Printed Bioplastic Market,
10.7. Key developments and Growth Strategies
10.7.1. New Product/End-Use Deployment
10.7.2. Merger & Acquisitions
10.7.3. Joint Ventures
10.8. Major Players Financial Matrix
10.8.1. Sales & Operating Income, 2022
10.8.2. Major Players R&D Expenditure. 2022
11. COMPANY PROFILES
11.1. NatureWorks LLC
11.1.1. Company Overview
11.1.2. Financial Overview
11.1.3. Products Offered
11.1.4. Key Developments
11.1.5. SWOT Analysis
11.1.6. Key Strategies
11.2. Arkema Inc.
11.2.1. Company Overview
11.2.2. Financial Overview
11.2.3. Products Offered
11.2.4. Key Developments
11.2.5. SWOT Analysis
11.2.6. Key Strategies
11.3. BASF SE
11.3.1. Company Overview
11.3.2. Financial Overview
11.3.3. Products Offered
11.3.4. Key Developments
11.3.5. SWOT Analysis
11.3.6. Key Strategies
11.4. Danimer Scientific
11.4.1. Company Overview
11.4.2. Financial Overview
11.4.3. Products Offered
11.4.4. Key Developments
11.4.5. SWOT Analysis
11.4.6. Key Strategies

11.5. Evonik Industries AG
11.5.1. Company Overview
11.5.2. Financial Overview
11.5.3. Products Offered
11.5.4. Key Developments
11.5.5. SWOT Analysis
11.5.6. Key Strategies
11.6. Fkur Kunststoff GmbH
11.6.1. Company Overview
11.6.2. Financial Overview
11.6.3. Products Offered
11.6.4. Key Developments
11.6.5. SWOT Analysis
11.6.6. Key Strategies
11.7. Total Corbion PLA
11.7.1. Company Overview
11.7.2. Financial Overview
11.7.3. Products Offered
11.7.4. Key Developments
11.7.5. SWOT Analysis
11.7.6. Key Strategies
11.8. Bio-On S.P.A.
11.8.1. Company Overview
11.8.2. Financial Overview
11.8.3. Products Offered
11.8.4. Key Developments
11.8.5. SWOT Analysis
11.8.6. Key Strategies
11.9. API S.P.A.
11.9.1. Company Overview
11.9.2. Financial Overview
11.9.3. Products Offered
11.9.4. Key Developments
11.9.5. SWOT Analysis
11.9.6. Key Strategies
11.10. Good Natured Products Inc.
11.10.1. Company Overview
11.10.2. Financial Overview
11.10.3. Products Offered
11.10.4. Key Developments
11.10.5. SWOT Analysis
11.10.6. Key Strategies

Frequently Asked Questions (FAQ):

  • Which is the leading segment in the Global 3D Printed Bioplastic Market?

    When we consider the market in terms of form, the Filament is major revenue contributor. This is because Filament-based printing is widely used in Fused Deposition Modeling (FDM) printers, known for their user-friendliness and affordability, making them popular among hobbyists and professionals alike.
  • What are the key factors driving the Global 3D Printed Bioplastic Market?

    Environmental Concerns, Government Regulations and Policies, Customization and Design Flexibility, Growing Applications and Corporate Sustainability Initiatives are the major factors driving the market growth.
  • Which region will contribute notably towards the Global 3D Printed Bioplastic Market?

    North America region to contribute the major share towards the market growth.
  • What are the key players in Global 3D Printed Bioplastic Market?

    NatureWorks LLC, Arkema Inc., BASF SE, Danimer Scientific, Evonik Industries AG, Fkur Kunststoff GmbH, Total Corbion PLA, Bio-On S.P.A., API S.P.A., Good Natured Products Inc.

Buying Options

Original price was: $6,000.00.Current price is: $5,100.00.
Original price was: $5,000.00.Current price is: $4,500.00.
Original price was: $4,000.00.Current price is: $3,800.00.