永续阻隔涂料的未来(～2030年)

重要的事实

• 热塑性聚合物是最大的永续聚合物类别，预计到 2030 年其消费量将达到 307 万吨。
• 预计全球永续阻隔涂层市场在 2025 年至 2030 年期间的复合年增长率将达到 4.8%。

虽然市场仍以热塑性聚合物等传统材料为主，但随着品牌所有者和包装製造商实施永续发展策略，包括生物基和天然聚合物涂层在内的替代材料正日益受到欢迎。

预计包装领域可持续阻隔涂层的整体成长将保持强劲，尤其是生物基聚合物，预计将与 GDP 成长预测密切相关。

本报告探讨并分析了全球永续阻隔涂层市场，提供了有关市场推动因素和趋势、监管和行业反应以及技术和商业发展的资讯。

目录

内容

摘要整理

第1章 与简介调查手法

第2章 永续阻隔涂料的主要的促进因素和趋势

• EOL:回收 vs. 生物分解性
• 基材，纸，塑胶
  • 製程问题
  • 挤出阻隔涂层
  • 防潮涂层
  • 蜡涂层
  • 阻隔金属化
• 永续发展之路
  • 热塑性聚合物
  • 高阻隔聚合物
  • 铝
  • 蜡
  • 硅和其他天然材料
  • 生物基聚合物

第3章 法律规章和产业的支援

• 法规环境
• 包装及包装废弃物管理条例 (PPWR) 及包装涂料
  • 迈向 PPWR 之路
  • EUROPEN 确定的关键条款
• 一次性塑胶指令 (SUPD)
• PFAS 禁令
• 生产者延伸责任 (EPR)
• 产学合作
  • EUROPEN
  • CAA，PSI
  • US Plastics Pact
• 全球永续包装的趋势
  • 案例研究:钢铁食品罐
• 回收业者的回馈
  • 材料回收设施面临的课题(MRFs)
  • 人工智慧与光学
  • 回收物流
  • 回收：依设计
• 人工智慧协助实现回收目标
• 亚洲解决方案
• 品牌所有者参与
• 合作消除塑胶垃圾
  • Canopy 与业界合作
• 欧洲和美国联盟
  • 4evergreen
  • Poly Coated Paper Alliance(PCPA)

第4章 技术性/商业性发展

• PFAS 去除进展
  • Micro Powders, Inc. 将逐步淘汰 PFAS
• 可生物降解、生物基和可回收涂料
  • UPM 与 Eastman 合作开发生物基、可生物降解和可回收材料
• 可回收涂布纸
  • Orkla Suomi 和 UPM 开发可回收巧克力包装
  • ProAmpac 和 Marks and Spencer 的马铃薯包装采用可回收纸涂布
  • Mondi 推出阻隔涂布纸结构袋
  • Greif 推出再生纸板和可回收/可製浆纸板
  • Ahlstrom 推出新型软包装
• 单层涂层，提高回收性
  • Siegwerk 的可回收单层 PE 袋采用先进的阻隔涂层
  • Constantia 的单层 PE 袋方便回收
  • Mondi 在捷克共和国的新挤出生产线
• 天然聚合物
  • Walki 和 Lactips 开发可生物降解的天然聚合物材料
  • Kelpi 实现业务多元化海藻包装
  • Sea6Energy 生产用于纺织品包装的海藻衍生涂料
• 其他永续发展举措
  • 山东力翔生物科技股份有限公司的二氧化碳基塑胶 PPC-P 进入市场
  • GRECO 研究生物基、可降解和可回收的聚乳酸 (PLA)
• 人工智慧与更高的可回收性

第5章 涂料和基材

• 涂层材料
• 概要
• 永续阻隔涂料市场:各流程
• 永续阻隔涂料市场:类别
  • 热塑性聚合物
• 高阻隔涂料
  • 绿色PVOH/EVOH
  • 铝
  • 蜡
  • 硅，其他的天然材料
  • 生物为基础聚合物
• 生物为基础PE
  • 生物PE南美
  • 生物PE亚洲
  • 生物PE欧洲
  • 生物PE北美
• PHA
• 基材

第6章 永续阻隔涂料市场:各最终用途部门

• 概要
• 食品
  • 食品用途永续涂料的重要性
• 饮料
• 食品服务
• 非食品

第7章 永续阻隔涂料市场:各地区

• 欧洲
• 北美
• 中南美
• 亚太地区
• 中东·非洲

Key facts:

• Thermoplastic polymers are the largest group of sustainable polymers with consumption forecast at 3.07 million tonnes to 2030.
• The global sustainable barriers market has a CAGR of 4.8% for the years 2025-2030

Sustainable barrier coatings for packaging are as materials that provide effective barrier properties while minimizing environmental impact through recyclability, biodegradability and the use of biobased materials. This report highlights the importance of recyclability, dissecting the market by key drivers, process, end use, coating type and region.

The market remains dominated by traditional materials such as thermoplastic polymers although alternative materials, including biobased and natural polymer coatings are starting to take hold as brand-owners and packaging manufacturers' develop sustainability strategies.

Growth for sustainable barrier coatings in packaging is expected to be steady overall, with a strong link to forecast GDP growth, in particular for biobased polymers.

This report is essential to:

• Packaging raw material suppliers
• Packaging converters and manufacturers
• Retailers and brand owners

Key Questions:

• Where is the focus of sustainability efforts across global coatings markets?
• How to paper substrates compare to plastic substrates in coating sustainability?
• How have sustainability regulations impacted the use of coatings?
• Does the market favour recyclability over biodegradability ?

Table of Contents

Contents

Executive summary

1. Introduction and methodology

• Introduction
  • Objectives
  • Methodology
  • Definitions
  • Abbreviations

2. Key drivers and trends in sustainable barrier coatings

• End of life: recycling vs biodegradability
• Substrates, paper and plastic
  • The importance of process
  • Extrusion barrier coatings
  • Wet-barrier coatings
  • Wax coating
  • Barrier metallisation
• The path to sustainability
  • Thermoplastic polymers
  • High barrier polymersh
  • Aluminium
  • Waxes
  • Silicone and other natural materials
  • Biobased polymers

3. Legislation and industry response

• The regulatory environment
• Packaging and Packaging Waste Regulation (PPWR) and packaging coatings
  • The path to PPWR
  • Key articles identified by EUROPEN
• Single Use Plastics Directive (SUPD)
• Bans on PFAS
• Extended producer responsibility (EPR)
• Industry and agency cooperation
  • EUROPEN
  • CAA and PSI
  • The US Plastics Pact
• Global trends in sustainable packaging
  • Case study: steel food can
• Recyclers' feedback
  • Challenges at material recovery facilities (MRFs)
  • AI and optics
  • Recovery logistics
  • Recycling by design
• AI boosts recycling goals
• Solutions in Asia
• Brand owner involvement
• Collaborations to eliminate plastic waste
  • Canopy and industry alliances
• Alliances in Europe and the US
  • 4evergreen
  • Poly Coated Paper Alliance (PCPA)

4. Technological and commercial developments

• Elimination of PFAS progresses
  • Micro Powders, Inc phasing out PFAS
• Biodegradable, biobased and recyclable coatings
  • UPM and Eastman collaborate on biobased, biodegradable and recyclable material
• Recyclable coated paper
  • Orkla Suomi and UPM develop recyclable chocolate wrapper
  • ProAmpac and Marks and Spencer's recyclable paper-coated potato package
  • Mondi launches barrier-coated paper construction bag
  • Greif announces recycled and recyclable/pulpable paperboard
  • Ahlstrom launches new paper for flexible packaging
• Monolayer coatings for better recyclability
  • Siegwerk's recyclable mono-PE bag with advanced barrier coatings
  • Constantia's mono-PE pouch facilitates recycling
  • Mondi's new extrusion line in the Czech Republic
• Natural polymers
  • Walki and Lactips create biodedgradable, natural polymer materials
  • Kelpi diversifies seaweed packaging
  • Sea6Energy producing seaweed-based coatings for fibre packaging
• Other sustainable initiatives
  • Shangdong LXBIO CO2-based plastic PPC-P to market
  • GRECO to study biobased, biodegradable and recyclable PLA
• AI and improved recyclability

5. Coating and substrate materials

• Coating materials
• Overview
• Sustainable barrier coating markets by process
• Sustainable barrier coating markets by type
  • Thermoplastic polymers
• High barrier coatings
  • Green PVOH/EVOH
  • Aluminium
  • Waxes
  • Silicone and other natural materials
  • Biobased polymers
• Bio-based PE
  • Bio-PE South America
  • Bio-PE Asia
  • Bio-PE Europe
  • Bio-PE North America
• PHA
• Substrate materials

6. Sustainable barrier coating markets by end-use sector

• Overview
• Food
  • Significance of sustainable coatings for food applications
• Beverages
• Foodservice
• Non-food

7. Sustainable barrier coating markets by region

• Europe
• North America
• South & Central America
• Asia Pacific
• Middle East & Africa

List of Tables

• Global sustainable barrier coating consumption in packaging, by material type, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption in paper substrates, by circularity/biodisposability, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption in plastic substrates, by recyclability, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption in packaging, by material type, 2019-30 ('000 tonnes)
• Expanding the definition of plastic-free
• Transition table - sustainable packaging trends to 2030
• Biobased polymers in order of capacity, 2024
• Forecast global circularity rates, by packaging material, 2023 vs 2034
• Global sustainable barrier coatings on paper substrates, recyclability/biodisposability, 2019-30 ('000 tonnes)
• Global value of sustainable barrier coating in paper substrates, by circularity/biodisposability, 2019-30 ($ million)
• Global sustainable barrier coatings on plastic substrates, recyclability by type, 2019-30 ('000 tonnes)
• Global consumption of thermoplastic polymers in functional and barrier coatings, by application process, 2019-30 ('000 tonnes)
• Properties of plastic-free coatings and barriers exempted from SUPD EPR fees (20-2,000 euros/tonne), plastic levies and bans
• Biobased coating materials
• Biobased polymers, in order of capacity, 2024
• Legislation changes and industry response
• Key drivers for sustainable barrier coatings
• Global sustainable barrier coating consumption in packaging, by material type, 2019-30 ('000 tonnes)
• Global value of sustainable barrier coating in packaging, by material type, 2019-30 ($ million)
• Global consumption of thermoplastic polymers for barrier coatings, by application process, 2019-30('000 tonnes)
• Global consumption of thermoplastic polymer barrier coatings in packaging, by region, 2019-30 ('000 tonnes)
• Global value of thermoplastic polymer barrier coatings in packaging, by region, 2019-30 ($ million)
• Global consumption of high-barrier polymer coatings in packaging, by region, 2019-30 ('000 tonnes)
• Global value of high-barrier polymer coatings in packaging, by region, 2019-30 ($ million)
• Global consumption of wax coatings in packaging, by region, 2019-30 ('000 tonnes)
• Global value of wax coatings in packaging, by region, 2019-30 ($ million)
• Global consumption of silicone and other natural coatings in packaging, by region, 2019-30 ('000 tonnes)
• Global value of silicone and other natural coatings in packaging, by region, 2019-30 ($ million)
• Global consumption of biobased and biodegradable barrier coatings in packaging, by region, 2019-30 ('000 tonnes)
• Global consumption of biobased coatings in packaging, by region, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption in packaging by substrate type, 2019-30 ('000 tonnes)
• Transition table
• Global sustainable barrier coating consumption in packaging, by end use, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption in food packaging, by region, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption in drinks packaging, by region, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption for foodservice packaging by region, 2019-30 ('000 tonnes)
• Global sustainable barrier coating consumption in non-food packaging, by region, 2019-30 ('000 tonnes)
• Global biobased coatings in packaging consumption, by region, 2019-30 ('000 tonnes)
• Global biobased coatings in packaging, market value by region, 2019-30 ($ million)
• European biobased and natural coatings in packaging, consumption by product type, 2019-30 ('000 tonnes)
• European biobased and natural coatings in packaging, market value by product type, 2019-30 ($ million)
• North American biobased coatings in packaging, consumption by product type, 2019-30 ('000 tonnes)
• North American biobased and natural coatings in packaging market, value by product type, 2019-30 ($ million)
• South & Central American biobased and natural coatings in packaging, consumption by product type, 2019-30 ('000 tonnes)
• South & Central American biobased and natural coatings in packaging, market value by product type, 2019-30 ($ million)
• Asia Pacific biobased and natural coatings in packaging, consumption by product type, 2019-30 ('000 tonnes)
• Asia Pacific biobased and natural coatings in packaging market, value by product type, 2019-30 ($ million)
• Middle East & African biobased and natural coatings in packaging, consumption by product type, 2019-30 ('000 tonnes)
• Middle East & African biobased and natural coatings in packaging, market value by product type, 2019-30 ($ million)

List of Figures

• Global value of sustainable barrier coatings, 2024
• Biobased sector market share, 2030
• Biobased coatings growth, by region, 2024 to 2030
• Coating consumption, by end use, 2024
• Material solutions to the sustainability challenge
• OECD data on plastic waste recycling, 2019
• evergreen's recycling strategy for fibre-based packaging paper in Europe
• American Forest & Paper Association recycling guidelines
• Sustainable coating uses
• Polymer coatings for a sustainable future
• Global bioplastics capacities 2024
• US states EPR rules
• Amazon eliminating plastic pillows
• Plastics Pact Roadmap 2.0
• Global regulations for sustainable packaging
• US single-use plastic bag bans
• Alliance to End Plastic Waste's third solution model playbook
• Brands developing solutions with Cirkla
• Canopy and Veuve Clicquot: 'luxury doesn't have to cost the earth'
• Cross-sector leadership of the PCPA
• Oxygen barrier of UPM/Eastman's biopolymer extrusion coated paper
• Adhesion force of UPM/Eastman's biopolymer extrusion coated paper
• End-uses of UPM/Eastman biopolymer extrusion coated paper
• Orkla Suomi's Panda bar wrapper
• Performance fibre flexibles
• Mondi's barrier coated paper bag
• Greif's EnviroRAP
• Siegwerk's printable packaging
• High barrier, mono PE pouch
• Extrusion line at Mondi Coating steti
• Walki and Lactips biodegradable, plastics-free food packaging
• Sea6Energy seaweed-based coating on fibre packaging
• Sea6Energy aquaculture
• Kuraray's biobased EOVH and POVH
• Biobased biodegradable and non-biodegradable plastics production, 2029
• CJ CheilJedang bio-based and biodegradable PHA/PLA
• Global sustainable barrier coatings, by substrate, 2025 vs 2030
• Food packaging coatings transition from synthetic non-biodegradable to biobased biodegradable
• Nestle's paper and board packaging for Quality Street
• Pulpex funded for biobased, recyclable and biodegradable bottle scale-up
• KHS silicone oxide coating for PET bottles
• Paper and paperboard coated with Solenis topscreen biowax barrier coatings
• Global foodservice sustainable barrier coatings, 2025 vs 2030
• Solenis wax barrier paper
• Global biobased coatings in packaging, 2025-30 ($ million)
• Global production capacities of biobased plastics, 2024 and 2029
• Consumer views on packaging sustainability
• Asia Pacific, bio-based and natural materials, 2025 vs 2030
• IMF's global economic growth forecast