塑胶回收再利用市场（2026-2032）：依来源、聚合物类型、应用和地区划分

塑胶回收再利用市场评估-2026-2032

塑胶回收再利用市场的扩张得益于日益增强的环保意识以及旨在减少塑胶废弃物和推广永续实践的政府监管。消费者对环保产品的需求，加上原料成本的上涨，正推动各行各业采用回收技术。此外，企业永续性目标和循环经济的推动力正在推动塑胶回收产业的投资和发展，从而带来快速成长。预计到2024年，塑胶回收市场的收入将超过412.3亿美元，到2032年将达到682.3亿美元。

技术进步、监管压力以及环保意识的不断增强，都推动塑胶回收再利用产业取得重大进展。关键突破包括人工智慧和机器人等先进分类技术的使用，这些技术提高了不同类型塑胶分类的效率和准确性。化学回收过程将聚合物分解成基本化学成分以供重复使用，作为传统机械回收的补充，正日益受到欢迎。此外，在製造和包装领域推广使用再生塑胶的计划，以及严格的废弃物管理法规，正在帮助循环经济的发展。预计2026年至2032年，该市场的复合年增长率将达到6.50%。

塑胶回收再利用市场定义/概述

塑胶回收再利用是将废弃塑胶塑胶回收并转化为可用物品的过程。该过程包括收集塑胶原料，按类型和颜色分类，清洗以去除污染物，并将其粉碎成细小的碎片。这些碎片被熔化并製成颗粒，然后用于製造新的塑胶产品。塑胶回收旨在透过减少对原生塑胶生产的需求来减少塑胶污染、节约资源并减少温室气体排放。回收的成功取决于塑胶的类型、分类过程的品质以及市场对再生产品的需求。塑胶回收再利用的未来充满希望且至关重要，因为它符合全球永续性目标并解决了日益严重的环境问题。化学回收和基于人工智慧的分类系统是提高回收过程效率和有效性的技术进步的例子。各国政府和企业日益接受循环经济理念，这增加了对再生塑胶的需求，开启了新的市场和经济机会。

意识的增强和资源保护的提高是否会导致塑胶回收再利用市场的扩大？

环保意识的增强和资源节约的需求可能会推动塑胶回收再利用市场的持续扩张。随着消费者越来越意识到塑胶废弃物对环境的影响，他们正在寻求更永续的产品。这种需求促使生产商将再生塑胶融入其产品和包装中，从而推动市场成长。

政府、非政府组织和企业资助教育活动，以提高人们对回收必要性的认识。这些活动提高了回收率，并增加了可回收塑胶的供应。媒体对塑胶污染（尤其是海洋污染）的广泛报道，提高了公众的兴趣和意识。这种认知的提高促使人们更加支持回收利用工作，并推出了更严格的法律。

此外，节省自然资源并减少对昂贵、资源密集型原生塑胶的需求也会带来经济效益。企业可以透过使用再生材料来降低生产成本，使回收更具经济可行性。许多企业已经设定了永续性目标，其中包括使用再生材料。实现这些目标需要扩大回收基础设施和产能，而这正在推动市场成长。

此外，各国政府正在实施促进资源节约的政策，例如对使用再生材料的财政奖励和对过度废弃物的处罚措施。这些法规鼓励对回收技术和工艺的投资。改良的技术使回收更有效率、更具成本效益，从而提高了再生塑胶的品质和利用率。这使得回收成为生产商更可行的选择，从而刺激了市场发展。循环经济受到倡导，在尽可能的情况下，产品和材料得到再利用和回收。这种方法可以减少废弃物，节省资源，促进长期经济成长，同时扩大塑胶回收市场。

原生塑胶和再生塑胶的价格波动，消费者偏好和市场趋势也随之变化，影响再生塑胶的市场竞争力。随着知识的积累，越来越多的消费者和企业采用回收方法并节省资源。这反过来凸显了回收和永续性的重要性，并进一步推动了市场的成长。

塑胶类型的复杂性和经济性如何阻碍塑胶回收再利用市场？

由于塑胶种类繁多，每种塑胶都有其独特的化学结构和特性，可回收塑胶的分类和加工变得十分复杂。这种复杂性导致价格上涨和营运挑战，因为通常需要专门的设备和工艺才能有效处理不同类型的塑胶。低效率的分类和加工能力使得有效回收塑胶废弃物变得困难，并可能导致回收率降低。

人们对再生塑胶的品质和污染问题的担忧源于其所含塑胶的种类繁多。混合不同类型的塑胶或回收受污染的材料会降低再生塑胶产品的品质和性能。此外，污染还会增加加工成本，降低再生塑胶的价值，并限制回收设施生产高品质再生材料的经济永续性。

回收塑胶可能需要在基础设施、技术和人力资源方面投入巨额成本。然而，再生塑胶生产的规模经济并非总能实现，尤其是在回收率低或回收基础设施不足的地区。因此，生产再生塑胶的成本可能高于从原始材料生产新塑胶的成本，这使得回收塑胶难以在市场上具有竞争力。

此外，塑胶回收再利用的经济永续性受到再生塑胶和原材料价格波动以及市场对回收产品的需求等因素的影响。市场价格波动会影响回收业务的盈利以及投资回收基础设施的意愿。在缺乏稳定的市场环境和充足的再生塑胶需求的情况下，回收工作可能难以吸引投资并实现成长。

此外，许多地区缺乏塑胶回收再利用工厂。建造或升级此类基础设施需要大量资金，在资源有限或优先事项相互衝突的地区，这往往难以实现。即使在已经建立了回收基础设施的地区，其可扩充性也可能面临挑战。为了满足日益增长的回收服务需求，基础设施可能需要扩建和现代化，而这既耗时又耗资。

目录

第一章 引言

• 市场定义
• 市场区隔
• 调查方法

第二章执行摘要

• 主要发现
• 市场概览
• 市集亮点

第三章市场概述

• 市场规模和成长潜力
• 市场趋势
• 市场驱动因素
• 市场限制
• 市场机会
• 波特五力分析

第四章塑胶回收再利用市场（依材料）

• PET（聚对苯二甲酸乙二醇酯）
• PE（聚乙烯）
• PP（聚丙烯）
• PVC（聚氯乙烯）
• PS（聚苯乙烯）
• 其他聚合物

第五章塑胶回收再利用市场（依来源）

• 床单
• 管道
• 金属丝
• 电缆

第六章塑胶回收再利用市场（依应用）

• 包装
• 建造
• 车
• 电子产品
• 纺织产品
• 食物
• 饮料

第七章塑胶回收再利用市场（依聚合物类型）

• 聚对苯二甲酸乙二酯
• 高密度聚苯乙烯
• 聚氯乙烯
• 低密度聚乙烯
• 聚丙烯

第八章区域分析

• 北美洲
• 美国
• 加拿大
• 墨西哥
• 欧洲
• 英国
• 德国
• 法国
• 义大利
• 亚太地区
• 中国
• 日本
• 印度
• 澳洲
• 拉丁美洲
• 巴西
• 阿根廷
• 智利
• 中东和非洲
• 南非
• 沙乌地阿拉伯
• 阿拉伯聯合大公国

第九章市场动态

• 市场驱动因素
• 市场限制
• 市场机会
• COVID-19 市场影响

第十章 竞争格局

• 主要企业
• 市场占有率分析

第十一章 公司简介

• MBA Polymers Inc.
• Phoenix Technologies International LLC
• Vikoz Enterprises Inc.
• Terracycle
• KW Plastics
• DS Smith PLC
• PETCO
• RJM International Inc.
• Seraphim Plastics
• Shakti Plastics Industries
• Teijin Limited
• Ultra Poly Corporation
• UltrePET

第十二章 市场展望市场展望与机会

• 新兴技术
• 未来市场趋势
• 投资机会

第十三章 附录

• 简称列表
• 来源和参考文献

Plastic Recycling Market Valuation - 2026-2032

The rising plastic recycling market is due to rising environmental consciousness and strong government regulations aimed at decreasing plastic waste and promoting sustainable practices. Consumer demand for environmentally friendly products, combined with rising raw material costs, has pushed industry to embrace recycling techniques. Furthermore, corporate sustainability goals and the push for a circular economy are pushing investments and developments in the plastic recycling industry, resulting in its rapid growth. The plastic recycling market is expected to surpass a revenue of USD 41.23 Billion in 2024 and reach USD 68.23 Billion by 2032.

Technological improvements, regulatory pressures, and increased environmental awareness have all contributed to substantial advancements in the plastic recycling sector. Key breakthroughs include the use of advanced sorting technologies like AI and robotics, which improve the efficiency and accuracy of separating different types of plastics. Chemical recycling processes, which break down polymers into their basic chemical components for reuse, have gained popularity, supplementing traditional mechanical recycling. Furthermore, programs promoting the use of recycled plastics in manufacturing and packaging, together with severe plastic waste management legislation, are helping to develop a circular economy. The market is expected to rise with a projected CAGR of 6.50% from 2026 to 2032.

Plastic Recycling Market: Definition/ Overview

Plastic recycling is the process of reclaiming scrap or discarded plastic and converting it into usable items. This process includes gathering plastic materials, sorting them by kind and color, washing them to remove contaminants, and shredding them into minute bits. These bits are melted and turned into pellets or granules, which are subsequently used to create new plastic products. Plastic recycling aims to decrease plastic pollution, conserve resources, and lower greenhouse gas emissions by reducing the demand for virgin plastic production. The success of recycling is determined by the type of plastic, the quality of the sorting process, and market demand for recycled goods. The future of plastic recycling is both hopeful and crucial, as it coincides with global sustainability goals and solves growing environmental concerns. Chemical recycling and artificial intelligence-driven sorting systems are examples of technological advancements that improve the efficiency and effectiveness of recycling processes. The growing acceptance of circular economy ideas by governments and companies is driving demand for recycled plastics, opening new markets and economic opportunities.

Will the Increasing Awareness and Resource Conservation Lead the Expansion of the Plastic Recycling Market?

The increasing awareness of environmental issues and the need for resource conservation will likely lead to the continued expansion of the plastic recycling market. As consumers grow increasingly conscious of the environmental consequences of plastic waste, they demand more sustainable products. This need drives producers to incorporate recycled plastics into their products and packaging, resulting in market growth.

Governments, non-governmental organizations, and corporations are funding educational initiatives to promote awareness about the necessity of recycling. These activities boost recycling rates and increase the supply of recyclable plastics. High-profile media coverage of plastic pollution, particularly in oceans, has sparked public concern and awareness. This increasing awareness has resulted in greater support for recycling activities and more severe laws.

Furthermore, economic benefits arise from the conservation of natural resources and the reduction in the demand for virgin plastic production, which is frequently more expensive and resource intensive. Companies can reduce production costs by using recycled materials, making recycling more economically viable. Many companies have set sustainability targets that involve the usage of recycled materials. The requirement to achieve these targets necessitates the expansion of recycling infrastructure and capacities, which drives market growth.

Additionally, governments are implementing policies to promote resource conservation, such as financial incentives for using recycled materials and penalties for excessive waste. These regulations promote investments in recycling technology and processes. Technological improvements make recycling more efficient and cost-effective, hence boosting the quality and utility of recycled plastics. Recycling becomes a more viable choice for producers, hence boosting the market. The circular economy, in which products and materials are reused and recycled to the greatest extent feasible, is being advocated. This technique reduces waste, conserves resources, and promotes long-term economic growth while extending the plastic recycling market.

Prices of virgin and recycled plastics fluctuate, as do customer tastes and market trends, influencing the competitiveness of recycled plastics in the market. As knowledge rises, more consumers and businesses adopt recycling methods, resulting in increased resource conservation. This, in turn, emphasizes the importance of recycling and sustainability, resulting in further market growth.

How does Complexity of Plastic Types and Economic Viability Hold Back the Plastic Recycling Market?

The enormous range of plastic kinds, each with its own chemical makeup and qualities, complicates the sorting and processing of recyclable plastics. This complexity leads to higher prices and operational issues, as specialist equipment and processes are frequently required to effectively handle different types of plastics. Inefficient sorting and processing capabilities might make it difficult to recycle plastic waste effectively, resulting in lower recycling rates.

Concerns about the quality and contamination of recycled plastics are influenced by the variety of plastic kinds. Mixing different types of plastics or recycling contaminated materials can result in lower quality or performance in recycled plastic goods. Furthermore, contamination can increase processing costs and lower the value of recycled plastics, limiting the economic sustainability of recycling facilities in producing high-quality recycled materials.

Recycling plastics sometimes demands significant expenditures in infrastructure, technology, and manpower. However, economies of scale in recycled plastics production may not always be realized, especially in areas with low recycling rates or inadequate recycling infrastructure. As a result, the cost of manufacturing recycled plastics may be higher than that of producing new plastics from virgin resources, making it difficult for recovered plastics to compete competitively in the market.

Furthermore, the economic sustainability of plastic recycling is influenced by factors such as fluctuating recycled plastic and raw material prices, as well as market demand for recovered products. Prices in the market can be volatile, affecting the profitability of recycling operations and organizations' desire to invest in recycling infrastructure. In the absence of stable market conditions and sufficient demand for recycled plastics, recycling initiatives may encounter difficulties in attracting investment and achieving growth.

Additionally, many areas lack the necessary infrastructure for plastic recycling, such as collecting systems, sorting facilities, and recycling plants. Building or upgrading this infrastructure necessitates significant expenditure and can be difficult in regions with limited resources or competing priorities. Even in areas with established recycling infrastructure, scalability might be a difficulty. Meeting rising demand for recycling services may necessitate expanding and modernizing infrastructure, which can be expensive and time-consuming.

Category-Wise Acumens

How does the Increasing Demand for Polyethylene Terephthalate in the Packaging Sector Forges the Growth of the Plastic Recycling Market Ahead?

The increasing demand for PET in the packaging sector serves as a catalyst for the growth of the plastic recycling market. The packaging industry's growing emphasis on sustainability and circular economy principles is frequently matched with increased demand for PET, driving the use of recycled PET (rPET) as a packaging material. Regulatory pressures, such as extended producer responsibility (EPR) schemes and regulations for minimum recycled content in packaging, promote the use of rPET and encourage investment in PET recycling infrastructure.

Furthermore, consumer demand for eco-friendly packaging has prompted companies to adopt rPET into their packaging portfolios, increasing their attractiveness to environmentally conscious consumers and strengthening brand image. PET recycling has grown more efficient and cost-effective as recycling technologies progress, allowing for the manufacturing of high-quality rPET that meets demanding packaging criteria. The growing market potential for rPET in a variety of applications, including textiles, automotive parts, and construction materials, encourages investment in recycling infrastructure and generates new revenue streams for PET recyclers.

Additionally, using rPET in packaging improves supply chain resilience by reducing reliance on virgin plastic feedstocks, lowering the risks associated with price volatility and supply chain interruptions, and contributing to long-term business stability. Textiles, automobile parts, and construction materials are all examples of applications for recycled PET that are not limited to packaging. Expanding the usage of recycled PET across industries boosts market demand and encourages investment in PET recycling infrastructure. Closed-loop systems for PET packaging can be developed through industry alliances and partnerships across the value chain, which include manufacturers, recyclers, retailers, and waste management businesses. Collaborative efforts expedite PET trash collection, sorting, and processing, increasing recycling efficiency and scalability.

In the case of high-density polyethylene (HDPE), advanced sorting methods, such as near-infrared spectroscopy and automated sorting systems, improve the quality and yield of recycled HDPE, making it more appealing to producers as a raw material. As recycling methods improve and economies of scale are realized, the cost of producing recycled HDPE becomes more competitive with virgin HDPE. This economic parity, combined with environmental benefits and regulatory incentives, makes recycled HDPE a compelling choice for firms looking to lower their carbon footprint and improve their sustainability credentials.

Will the Rising Awareness in the Construction and Various Other Sectors Drive the Growth of the Plastic Recycling Market?

The rising awareness in the construction and various other sectors about the benefits of plastic recycling contributes to sustainable development and environmental stewardship. Architects, builders, and developers have become more aware of the environmental impact of construction materials, which has sparked increased interest in sustainable building practices. The use of recycled plastics in construction, such as recycled HDPE for pipes, sheets, and other uses, is consistent with these sustainability objectives and promotes the circular economy.

Governments and regulatory agencies are implementing stricter construction material restrictions and standards to promote sustainability and minimize carbon emissions. Requirements for incorporating recycled content into construction materials, particularly plastics, encourage the use of recycled polymers while driving demand for recycled plastic feedstock.

Furthermore, recycled plastics, including HDPE, can provide cost and performance benefits over standard construction materials. For example, recycled plastic timber manufactured from HDPE may be more durable, weather-resistant, and low-maintenance than wood, resulting in long-term cost benefits for construction projects. Many construction companies are implementing corporate sustainability strategies to reduce their environmental impact while also meeting the requirements of customers, investors, and other stakeholders. The use of recycled plastics in construction projects shows a commitment to sustainability and can improve brand perception.

Additionally, the growing public awareness of plastic waste and environmental challenges is putting pressure on businesses and industries to implement sustainable practices. Consumers are becoming more aware of the materials used in construction projects and may choose buildings and infrastructure that incorporate recycled materials, including plastics. Ongoing plastic recycling research and development activities drive innovation and technological breakthroughs, making it easier and less expensive to recycle plastics for use in construction and other industries.

Improved recycling procedures, advanced material characterization techniques, and creative applications for recovered plastics have expanded the market potential for recycled plastic goods. Collaboration among stakeholders along the value chain, including recyclers, manufacturers, contractors, and end users, is critical for increasing the use of recycled plastics in construction. Partnerships that help with the collection, sorting, processing, and certification of recycled plastics offer a consistent supply of high-quality recycled materials for construction projects.

Country/Region-wise

How does Advanced Infrastructure and High Investments in North America Boost Up the Plastic Recycling Market?

The rising and advanced infrastructure and high investments in North America play a crucial role in boosting the plastic recycling market. North America's advanced infrastructure, which includes well-established plastic waste collection systems such as curbside recycling programs, drop-off centers, and commercial recycling services, ensures that plastic waste is collected efficiently from households, businesses, and industries, increasing the volume of material available for recycling. North America boasts cutting-edge sorting facilities outfitted with innovative technology such as optical sorting machines, magnetic separators, and automated sorting systems.

North America has developed advanced recycling methods such as mechanical recycling, chemical recycling, and pyrolysis because of significant R&D investments. These methods enable the conversion of post-consumer and post-industrial plastic waste into high-quality recycled resins that may be used in a variety of applications. The plastic recycling sector in North America is expanding its capacity to fulfil the growing demand for recycled plastics. Investments are made in the development of new recycling facilities, as well as the expansion and modernization of existing facilities, to increase the region's overall recycling capacity.

Furthermore, Investments in quality assurance methods, such as testing labs and certification programs, ensure that recycled plastics satisfy North American industry standards and regulatory requirements. Certifications such as the Recycled Content Certification (RCC) reassure manufacturers and consumers about the authenticity and sustainability of recycled plastic items.

Additionally, high investments in North America promote market expansion and innovation, resulting in the widespread use of recycled plastics in a variety of sectors and applications. Companies invest in R&D to develop innovative goods and packaging solutions manufactured from recycled plastics, increasing market prospects and driving demand for recycled materials.

Investments in public awareness campaigns and educational programs in North America enhance awareness of the need of plastic recycling and encourage involvement in recycling activities. Public-private partnerships help to promote recycling and build a sustainable culture among consumers and businesses.

Will the Increasing Infrastructure Development and Environmental Concerns in the Asia-Pacific Region Promote the Plastic Recycling Market Further?

The increasing infrastructure development and environmental concerns in the Asia-Pacific region are expected to further promote the plastic recycling market. The ongoing infrastructure development in the Asia-Pacific region, which includes the installation of recycling facilities, collection systems, and waste management infrastructure, provide opportunities for the plastic recycling market to flourish. Increased infrastructure investment helps to improve plastic trash collection, sorting, and processing, making recycling more efficient and accessible.

The Asia-Pacific region's governments are increasingly recognizing the necessity of combating plastic pollution and encouraging sustainable waste management methods. Environmental issues, such as marine litter and pollution, stimulate the establishment of legislation and regulations that encourage plastic recycling. Extended producer responsibility (EPR) schemes, plastic waste management legislation, and incentives for recycling infrastructure development all contribute to a favourable regulatory environment for the plastic recycling industry.

Furthermore, rising environmental awareness among consumers and communities in the Asia-Pacific region is helping to drive demand for sustainable products and solutions. As people become more aware of the environmental impact of plastic trash, there is an increasing push on businesses and governments to implement recycling and waste reduction policies. Consumer preferences for recycled products increase market demand for recycled plastics and promote the growth of the recycling industry even further.

Additionally, businesses around Asia-Pacific are increasingly implementing corporate sustainability programs to decrease their environmental footprint and meet stakeholder expectations. Incorporating recycled plastics into product packaging, manufacturing processes, and supply chains promotes sustainability while also improving brand reputation. Market need for recycled plastics and support for the growth of the recycling market are driven by corporate commitments to using recycled materials.

Continuous research and development activities in recycling technology help to increase plastic recycling capacities in the Asia-Pacific area. Improvements in sorting technologies, chemical recycling processes, and alternative packaging materials all improve the efficiency and feasibility of plastic recycling. Recycling becomes more cost-effective as technology advances, allowing the recycling industry to fulfil the region's expanding need for recycled plastics.

Competitive Landscape

In the competitive environment of plastic recycling, many smaller and medium-sized firms (SMEs) make substantial contributions to market dynamics. These companies frequently specialize in specialized markets or provide unique technologies and solutions for plastic waste management and recycling. Furthermore, there is an increasing number of companies and research institutions creating cutting-edge recycling technologies, such as sophisticated sorting systems, chemical recycling processes, and unique material developments. These rising firms contribute to the diversity and progress of the plastic recycling market by increasing competition, pushing innovation, and broadening the range of solutions available to meet global plastic waste concerns.

Some of the prominent players operating in the plastic recycling market include:

MBA Polymers Inc.

Phoenix Technologies International LLC

Vikoz Enterprises Inc.

Terracycle

KW Plastics

DS Smith PLC

PETCO

RJM International Inc.

Seraphim Plastics

Shakti Plastics Industries

Teijin Limited

Ultra Poly Corporation

UltrePET

Latest Developments

In September 2023, Greenback Recycling Technologies Ltd. has acquired fellow United Kingdom-based plastics recycling technology provider Enval Ltd. Two companies have merged their operations, "creating an industry leader in next-generation recycling of plastics," Greenback says. The company will be able to offer holistic and integrated technology-based, fully circular solutions for the neutralization of currently hard-to-recycle postconsumer plastic packaging scrap and provide feedstock for new food-grade packaging with recycled content, according to Greenback.

In February 2024, LyondellBasell acquired PreZero mechanical recycling assets. Houston-based chemical company LyondellBasell has acquired the mechanical recycling assets and properties containing rigid plastics recycling processing lines from PreZero, a Germany-based recycling and waste management service provider. "This acquisition further strengthens our U.S. presence and will deliver value for our customers and plastic recycling rates on the West Coast "We will build upon our existing experience in plastic recycling in Europe and deliver a state-of-the-art mechanical recycling facility to meet growing demand for recycled products in the U.S." says Yvonne van der Laan, executive vice president.

Plastic Recycling Market, By Category

• Source:
• Sheets
• Pipes
• Wires
• Cables
• Polymer Type:
• Polyethylene Terephthalate
• High-Density Polyethylene
• Polyvinyl Chloride
• Low-Density Polyethylene
• Polypropylene
• Application:
• Packaging
• Construction
• Automotive
• Electronics
• Textiles
• Food
• Beverages
• Region:
• North America
• Europe
• Asia-Pacific
• Latin America
• Middle East & Africa

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Plastic Recycling Market, By Material

• PET (Polyethylene Terephthalate
• PE (Polyethylene)
• PP (Polypropylene)
• PVC (polyvinyl chloride)
• PS (Polystyrene)
• Additional Polymers

5. Plastic Recycling Market, By Source

• Sheets
• Pipes
• Wires
• Cables

6. Plastic Recycling Market, By Application

• Packaging
• Construction
• Automotive
• Electronics
• Textiles
• Food
• Beverages

7. Plastic Recycling Market, By Polymer Type

• Polyethylene Terephthalate
• High-Density Polyethylene
• Polyvinyl Chloride
• Low-Density Polyethylene
• Polypropylene

8. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

9. Market Dynamics

• Market Drivers
• Market Restraints
• Market Opportunities
• Impact of COVID-19 on the Market

10. Competitive Landscape

• Key Players
• Market Share Analysis

11. Company Profiles

• MBA Polymers Inc.
• Phoenix Technologies International LLC
• Vikoz Enterprises Inc.
• Terracycle
• KW Plastics
• DS Smith PLC
• PETCO
• RJM International Inc.
• Seraphim Plastics
• Shakti Plastics Industries
• Teijin Limited
• Ultra Poly Corporation
• UltrePET

12. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

13. Appendix

• List of Abbreviations
• Sources and References