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模塑纤维包装的全球市场(2025-2035)
市场调查报告书
商品编码
1459446

模塑纤维包装的全球市场(2025-2035)

The Global Market for Molded Fiber Packaging 2025-2035
出版日期: | 出版商: Future Markets, Inc. | 英文 150 Pages, 36 Tables, 75 Figures | 订单完成后即时交付

价格

作为一种环保且永续的包装材料,模塑纤维(也称为模塑纸浆)日益在商业上用作一次性塑胶的替代品。模塑纤维包装(MFP)传统上用于包装垫料、蛋盒和纸箱,但作为塑胶的可持续替代品,日益用于初级和二级包装。纤维成型领域的持续创新创造新型包装,公司称这种包装比塑胶更具可客製化和成本竞争力。干模纤维等新用例和技术提供了聚苯乙烯泡沫塑胶的可堆肥替代品,并用于多种行业。

鸡蛋盒和其他食品包装如今仍然是常见的例子。在食品业之外,模塑纤维日益用作电子产品和其他家居用品的保护性包装。它可以由多种材料製成,例如木材、稻草和甘蔗渣,并且客製化工具可以将纸浆模製成所需的形状、尺寸和厚度。

MFP用于处理和包装各种产品,包括食品容器、家庭用品、工业产品、电子设备和一次性医疗用品。MFP提供各种运输保护、客户便利以及经济和环境效益。纸浆模塑产品是一次性刚性塑胶的可持续替代品,其应用包括食品容器和餐具、电子产品包装、农作物苗木可堆肥容器、医疗保健产品、建筑材料和家具。创新阻隔解决方案的开发和对纺织品包装的需求不断成长推动多功能数位复合机在快速消费品等其他市场的采用。

MFP的原料通常是可生物降解的木质纤维素纤维,包括废纸、纸板、纸板和其他天然植物纤维。 MFP 可回收、可堆肥且最终可生物降解,使其成为发泡聚苯乙烯(EPS)和真空成型聚对苯二甲酸乙二醇酯(PET)等石油基包装产品的可行替代品。十多年来,天然纤维包装产品市场持续成长,模塑纤维製造商努力满足不断成长的需求。因此,需要增加产能来满足不断成长的市场需求。

本报告考察了全球模塑纤维包装市场,并对这个快速发展的行业的最新趋势、创新和机会进行了深入分析。

目录

第1章 执行摘要

  • 塑胶包装的问题
  • 模塑纤维市场
    • 近年来的需求成长仍将持续
    • 满足永续发展需求
    • 新涂层技术
    • 内部工具
  • 模塑纤维包装的优点
  • 包装大趋势
  • 产业趋势(2020-2024年)
  • 主要市场公司
  • 全球模塑纤维/纸浆包装收入(2018-2035)
  • 模塑纤维/纸浆包装的市场区隔(2018-2035)
  • 模塑纤维/纸浆包装的区域细分(2018-2035)
  • 市场与技术挑战

第2章 技术分析

  • 纤维素纤维原料
    • 原生纤维
    • 再生纤维
  • 製造流程
    • 机械製浆、化学製浆
    • 成型过程
    • 干燥过程
  • 3D列印
  • 纸浆模塑的类型
    • 湿式成型
    • 干式成型/热成型纤维
  • 成型品的特性
    • 等级和价格
    • 添加剂

第3章 市场与应用

  • 餐饮服务
    • 产品
    • 全球市场(2018-2035)
  • 零售食品和饮料
    • 产品
    • 全球市场(2018-2035)
  • 快速消费品,包括化妆品
    • 产品
    • 全球市场(2018-2035)
  • 工业/工程包装
    • 电子设备包装
    • 汽车零件包装
    • 全球市场(2018-2035)
  • 一次性医疗用品
    • 产品
    • 全球市场(2018-2035)
  • 园艺
    • 产品
    • 全球市场(2018-2035)

第4章 公司简介(76家公司简介)

第5章 研究范围与研究方法

第6章 参考文献

As a green and sustainable packaging materials, molded fiber, also known as molded pulp, has increased in commercial use as a replacement for single-use plastics. Molded fiber packaging (MFP), traditionally used for packaging dunnage, egg boxes, and cartons, is finding increasing applications in primary and secondary packaging as a sustainable alternative to plastics. Continuous innovations in molded fiber are resulting in new types of packaging that companies say are more customizable and cost-competitive than plastic. Newer use cases and technologies, such as dry molded fiber, offer compostable alternatives to polystyrene foam that are being used in a range of industries.

Today, egg cartons and other food packaging remain common examples. Outside of the food industry, molded fiber is increasingly used as protective packaging for electronics and other household items. It can be made from a variety of materials - including wood, straw and bagasse - and custom tools can shape the pulp into the desired shape, size and thickness.

MFP is used for handling and packaging a wide range of products, including food containers, household items, industrial supplies, electronics, and single-use medical service items. It offers protection during shipment, customer convenience, and various economic and environmental benefits. Molded pulp products are a sustainable substitute for rigid single-use plastics, with applications spanning food containers and tableware, electronic product packaging, compostable containers for agricultural seedlings, medical and health products, building materials, and furniture. The development of innovative barrier solutions and the growing demand for fiber-based packaging have led to the adoption of MFP in other markets, such as FMCG.

The raw materials for MFPs are typically derived from biodegradable lignocellulosic fibers, which include recycled paper, newsprint, cardboard, and other natural planted fibers. MFP is recyclable, compostable, and eventually biodegradable, making it a viable alternative to oil-based packaging products like expanded polystyrene (EPS) or vacuum-formed polyethylene terephthalate (PET). The market for natural fiber packaging products has experienced consistent growth for over a decade, leading to a struggle among molded fiber producers to keep up with the increasing demand. As a result, production capacity expansions have become necessary to meet the growing market needs.

"The Global Market for Molded Fiber Packaging 2025-2035" offers an in-depth analysis of the latest trends, innovations, and opportunities in this rapidly growing industry. The report provides a detailed market segmentation by application, including food service, retail food and drink, fast-moving consumer goods (FMCG), industrial packaging, single-use medical, and horticulture. Each segment is thoroughly examined, highlighting the unique challenges and opportunities within these sectors. The report also offers regional market insights and forecasts for North America, Europe, Asia-Pacific, and the Rest of the World, enabling stakeholders to identify high-growth markets and tailor their strategies accordingly.

One of the key focuses of the report is the technological advancements in materials, manufacturing processes, and barrier coatings. These innovations are enhancing the functionality and versatility of molded fiber packaging, making it a viable alternative to traditional plastic packaging across a wide range of applications. The report explores the latest breakthroughs in materials science, such as the use of agricultural waste and novel fibers, as well as cutting-edge manufacturing techniques like 3D printing and precision molding.

To provide a comprehensive understanding of the competitive landscape, the report includes detailed profiles of over 70 key players in the molded fiber packaging industry. These profiles range from established manufacturers with global reach to innovative startups. Companies profiled include Arctic Paper, EnviroPAK, HZ Green Pulp, Omni-Pac, PulPac, RyPax, Sabert Corporation, Tanbark Molded Fiber Products and TekniPlex.

The report also identifies the primary growth drivers, challenges, and opportunities within the molded fiber packaging market. It examines the impact of changing consumer preferences, regulatory pressures, and sustainability goals on the demand for eco-friendly packaging solutions. Additionally, the report explores the potential for molded fiber packaging to replace traditional materials in a wide range of industries, from food and beverage to electronics and automotive.

For packaging manufacturers, suppliers, investors, and end-users looking to capitalize on the expanding molded fiber packaging market while contributing to a more sustainable future, this report is an indispensable resource. With its comprehensive analysis, long-term outlook, and actionable insights, this report empowers stakeholders to make informed decisions, forge strategic partnerships, and stay ahead in this dynamic and rapidly growing industry.

As the world transitions towards a circular economy and seeks to reduce its environmental footprint, the molded fiber packaging market is poised for significant growth. This report is a vital tool for anyone looking to understand the complexities of this market, anticipate future trends, and seize the opportunities that lie ahead. By investing in molded fiber packaging, companies can not only meet the growing demand for sustainable packaging solutions but also contribute to a greener future for generations to come.

TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

  • 1.1. Plastics packaging issues
  • 1.2. Molded fiber market
    • 1.2.1. Increased demand in recent years will continue
    • 1.2.2. Meeting sustainability needs
    • 1.2.3. New coatings technologies
    • 1.2.4. In-house tooling
  • 1.3. Advantages of molded fiber packaging
  • 1.4. Packaging megatrends
  • 1.5. Industry developments 2020-2024
  • 1.6. Main market players
  • 1.7. Global revenues for molded fiber/pulp packaging, 2018-2035 (millions USD)
  • 1.8. Market segmentation for molded fiber/pulp packaging, 2018-2035 (millions USD)
  • 1.9. Regional segmentation for molded fiber/pulp packaging, 2018-2035 (revenues, millions USD)
  • 1.10. Market and technology challenges

2. TECHNOLOGY ANALYSIS

  • 2.1. Cellulose fiber sources
    • 2.1.1. Virgin fibers
      • 2.1.1.1. Bagasse
      • 2.1.1.2. Shredded bamboo
      • 2.1.1.3. Wheat straw
    • 2.1.2. Recycled fibers
  • 2.2. Manufacturing processes
    • 2.2.1. Mechanical pulping and chemical pulping
    • 2.2.2. Forming process
    • 2.2.3. Drying process
  • 2.2.4 3D printing
  • 2.3. Types of molded pulp
    • 2.3.1. Wet molding
      • 2.3.1.1. Thick-wall
      • 2.3.1.2. Transfer Molded
      • 2.3.1.3. Thermoformed Fiber
      • 2.3.1.4. Processed Pulp
    • 2.3.2. Dry-molded/thermoformed fiber
  • 2.4. Properties of molded products
    • 2.4.1. Grades and prices
    • 2.4.2. Additives

3. MARKETS AND APPLICATIONS

  • 3.1. Food service
    • 3.1.1. Products
    • 3.1.2. Global Market 2018-2035
      • 3.1.2.1. Revenues
      • 3.1.2.2. Tonnes
  • 3.2. Retail food and drink
    • 3.2.1. Products
    • 3.2.2. Global Market 2018-2035
      • 3.2.2.1. Revenues
      • 3.2.2.2. Tonnes
  • 3.3. Fast-moving consumer goods (FMCG) including cosmetics
    • 3.3.1. Products
    • 3.3.2. Global Market 2018-2035
      • 3.3.2.1. Revenues
      • 3.3.2.2. Tonnes
  • 3.4. Industrial or engineered packaging
    • 3.4.1. Electronics packaging
    • 3.4.2. Vehicle parts packaging
    • 3.4.3. Global Market 2018-2035
      • 3.4.3.1. Revenues
      • 3.4.3.2. Tonnes
  • 3.5. Single Use Medical
    • 3.5.1. Products
    • 3.5.2. Global Market 2018-2035
      • 3.5.2.1. Revenues
      • 3.5.2.2. Tonnes
  • 3.6. Horticultural
    • 3.6.1. Products
    • 3.6.2. Global Market 2018-2035
      • 3.6.2.1. Revenues
      • 3.6.2.2. Tonnes

4. COMPANY PROFILES (76 company profiles)

5. RESEARCH SCOPE AND METHODOLOGY

  • 5.1. Report scope
  • 5.2. Research methodology

6. REFERENCES

List of Tables

  • Table 1. Commonly used plastics in packaging
  • Table 2. Advantages of Molded Fiber Packaging
  • Table 3. Megatrends for molded fiber/pulp packaging
  • Table 4. Molded fiber packaging Industry developments 2020-2024
  • Table 5. Global revenues for molded fiber/pulp packaging, 2018-2035 (millions USD)
  • Table 6. Market segmentation for molded fiber/pulp packaging, 2018-2035 (millions USD)
  • Table 7. Regional segmentation for molded fiber/pulp packaging, 2018-2035 (revenues, millions USD)
  • Table 8. Market and technology challenges for molded fiber packaging
  • Table 9. Comparison of Manufacturing Processes for Molded Fiber Products
  • Table 10. Properties of forming-drying processes
  • Table 11. Properties of types of molded pulp products
  • Table 12. Types of procedure for moulding pulp materials
  • Table 13. Grades and Prices for Molded Fiber Products
  • Table 14. Additives Used in Molded Fiber Products
  • Table 15. Markets and Applications for Molded Fiber Packaging Products
  • Table 16. Examples of molded fiber products in food service
  • Table 17. Global market revenues for molded fiber products in food service, 2018-2035 (millions USD)
  • Table 18. Global market volume for molded fiber products in food service, 2018-2035 ('000 tonnes)
  • Table 19. Examples of molded fiber products in retail food and drink
  • Table 20. Molded fiber packaging for wine bottles
  • Table 21. Global market revenues for molded fiber products in retail food and drink, 2018-2035 (millions USD)
  • Table 22. Global market volume for molded fiber products in retail food and drink, 2018-2035 ('000 tonnes)
  • Table 23. Example MF products in FMCG
  • Table 24. Global market revenues for molded fiber products in Fast-moving consumer goods (FMCG) including cosmetics, 2018-2035 (millions USD)
  • Table 25. Global market volume for molded fiber products in Fast-moving consumer goods (FMCG) including cosmetics, 2018-2035 ('000 tonnes)
  • Table 26. Applications of Molded Fiber Packaging in Industrial and Engineered Packaging
  • Table 27. Comparison of Molded fiber and expanded polystyrene (EPS)
  • Table 28. Global market revenues for molded fiber products in industrial packaging, 2018-2035 (millions USD)
  • Table 29. Global market volume for molded fiber products in industrial packaging, 2018-2035 ('000 tonnes)
  • Table 30. Applications of Molded Fiber Packaging in Single-Use Medical Applications
  • Table 31. Global market revenues for molded fiber products in single use medical, 2018-2035 (millions USD)
  • Table 32. Global market volume for molded fiber products in single use medical, 2018-2035 ('000 tonnes)
  • Table 33. Application of molded fiber/pulp packaging in horticulture
  • Table 34. Applications of Molded Fiber Packaging in Horticulture
  • Table 35. Global market revenues for molded fiber products in horticulture, 2018-2035 (millions USD)
  • Table 36. Global market volume for molded fiber products in horticulture, 2018-2035 ('000 tonnes)

List of Figures

  • Figure 1. Example molded fiber packaging products
  • Figure 2. Dry molded fiber Bailey's bottle
  • Figure 3. Paper Water Bottle
  • Figure 4. Global revenues for molded fiber/pulp packaging, 2018-2035 (billion USD)
  • Figure 5. Market segmentation for molded fiber packaging, 2018-2035 (millions USD)
  • Figure 6. Regional segmentation for molded fiber packaging, 2018-2035 (revenues, billions USD)
  • Figure 7. Bagasse molded fiber coffee capsules
  • Figure 8. Manufacturing process for molded fiber products
  • Figure 9. Process chain of the plain moulding process
  • Figure 10. HP molded fiber 3D printing
  • Figure 11. Thick-walled molded fiber packaging
  • Figure 12. Transfer molded pacakging
  • Figure 13. Manufacturing stages in the production of Thermoformed pulp products
  • Figure 14. Thermoformed molded fiber packaging
  • Figure 15. Processed molded fiber
  • Figure 16. Dry-molded fiber (DMF) beverage containers
  • Figure 17. Main application areas for molded fiber products
  • Figure 18. Takeaway food clamshell packs
  • Figure 19. Pactiv disposable bowl
  • Figure 20. Molded fiber drink carrier
  • Figure 21. Molded fiber food serving tray
  • Figure 22. Molded fiber plates and platters
  • Figure 23. Kraft Heinz Mac & Cheese microwavable fiber cup
  • Figure 24. Chinet-R molded fiber tableware
  • Figure 25. Global market revenues for molded fiber products in food service, 2018-2035 (millions USD)
  • Figure 26. Global market volume for molded fiber products in food service, 2018-2035 ('000 tonnes)
  • Figure 27. Transfer molded egg box
  • Figure 28. Molded fiber punnets
  • Figure 29. Molded fiber produce tray
  • Figure 30. James Cropper COLOURFORMTM wine bottle wraparounds
  • Figure 31. Mycelium-based packaging for wine bottles
  • Figure 32. Diageo paper Johnnie Walker bottle
  • Figure 33. Molded fiber can rings
  • Figure 34. Frugalpac paper wine bottles
  • Figure 35. Global market revenues for molded fiber products in retail food and drink, 2018-2035 (millions USD)
  • Figure 36. Global market volume for molded fiber products in retail food and drink, 2018-2035 ('000 tonnes)
  • Figure 37. Be Green Packaging molded fiber packs
  • Figure 38. Mycelium-based packaging for cosmetics and toiletries
  • Figure 39. L'Oreal molded fiber pump bottle
  • Figure 40. Lush clamshell cosmetic packages
  • Figure 41. Global market revenues for molded fiber products in Fast-moving consumer goods (FMCG) including cosmetics, 2018-2035 (millions USD)
  • Figure 42. Global market volume for molded fiber products in Fast-moving consumer goods (FMCG) including cosmetics, 2018-2035 ('000 tonnes)
  • Figure 43. Molded fiber industrial parts packaging
  • Figure 44. PaperFoam-R packaging
  • Figure 45. Molded fiber electronics packaging
  • Figure 46. FiberCel automotive parts packaging
  • Figure 47. Global market revenues for molded fiber products in industrial packaging , 2018-2035 (millions USD)
  • Figure 48. Global market volume for molded fiber products in industrial packaging, 2018-2035 ('000 tonnes)
  • Figure 49. Typical applications of molded fiber/pulp packaging in single use medical
  • Figure 50. Global market revenues for molded fiber products in single use medical , 2018-2035 (millions USD)
  • Figure 51. Global market volume for molded fiber products in single use medical, 2018-2035 ('000 tonnes)
  • Figure 52. Global market revenues for molded fiber products in horticulture, 2018-2035 (millions USD)
  • Figure 53. Global market volume for molded fiber products in horticulture, 2018-2035 ('000 tonnes)
  • Figure 54. Be Green Packaging molded fiber products
  • Figure 55. Beyond Meat Molded Fiber Sausage Tray
  • Figure 56. Fiber-based screw cap
  • Figure 57. Molded fiber trays for contact lenses
  • Figure 58. Cullen Eco-Friendly Packaging beerGUARD molded fiber trays
  • Figure 59. Molded fiber plastic rings
  • Figure 60. Mushroom leather
  • Figure 61. Genera molded fiber meat trays
  • Figure 62. Unilever Carte D'Or ice cream packaging
  • Figure 63. Kiefel fiber transfer of pre-pressed products in the hot-press station for final pressing and drying (transfer process)
  • Figure 64. Matrix Pack molded-fiber beverage cup lid
  • Figure 65. Molded fiber Labeling applied to products
  • Figure 66. Coca-cola paper bottle prototype
  • Figure 67. PulPac dry molded fiber packaging for cosmetics
  • Figure 68. Molded fiber tray
  • Figure 69. Molded pulp bottles
  • Figure 70. Molded fiber laundry detergent bottle
  • Figure 71. Tanbark's clamshell product
  • Figure 72. Varden coffee pod
  • Figure 73. UFP Technologies, Inc. product examples
  • Figure 74. npulp packaging
  • Figure 75. Western Pulp Products corner protectors