 | • レポートコード:B-MOR-040865 • 出版社/出版日:Mordor Intelligence / 2018年2月 • レポート形態:英文、PDF、212ページ • 納品方法:Eメール(受注後2営業日) • 産業分類:化学・材料 |
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レポート概要
| 本資料は、ポリ乳酸(PLA)の世界市場について調べ、ポリ乳酸(PLA)の世界規模、市場動向、市場環境、原材料別(トウモロコシ、キャッサバ、サトウキビ・テンサイ、その他)分析、形状別(ファイバー、フィルム・シート、コーティング剤、その他)分析、用途別分析、アメリカ市場規模、ヨーロッパ市場規模、アジア市場規模、日本市場規模、中国市場規模、企業の競争環境、関連企業情報などをまとめた調査レポートです。 ・イントロダクション ・エグゼクティブサマリー ・ポリ乳酸(PLA)の世界市場インサイト ・ポリ乳酸(PLA)の世界市場環境 ・ポリ乳酸(PLA)の世界市場動向 ・ポリ乳酸(PLA)の世界市場規模 ・ポリ乳酸(PLA)の世界市場規模:原材料別(トウモロコシ、キャッサバ、サトウキビ・テンサイ、その他) ・ポリ乳酸(PLA)の世界市場規模:形状別(ファイバー、フィルム・シート、コーティング剤、その他) ・ポリ乳酸(PLA)の世界市場規模:用途別 ・ポリ乳酸(PLA)の世界市場:地域別市場規模・分析 ・ポリ乳酸(PLA)の北米市場規模・予測 ・ポリ乳酸(PLA)のアメリカ市場規模・予測 ・ポリ乳酸(PLA)のヨーロッパ市場規模・予測 ・ポリ乳酸(PLA)のアジア市場規模・予測 ・ポリ乳酸(PLA)の日本市場規模・予測 ・ポリ乳酸(PLA)の中国市場規模・予測 ・ポリ乳酸(PLA)の韓国市場規模・予測 ・関連企業情報・競争状況 |
The global polylactic acid (PLA) market valued at USD 698.27 million, by revenue, in 2017, and it is anticipated to reach USD 2,091.29 million by 2023, at an estimated CAGR of 20.06% over the forecast period. Key factors driving the market growth include, favorable government policies promoting bio-plastics, and increasing demand for bio-plastic packaging.
Polylactic acid is prepared by ring opening polymerization of lactide, with various metal catalysts in solution, melt, or suspension. It can also be prepared by direct condensation of lactic acid monomers. Polylactic acid demand is expected to increase, due to the scarcity and volatility of prices of fossil fuels. Also, due to environmental concerns, companies and regulatory bodies are focused on finding substitutes for oil-based products. Bio-based plastics have a huge potential to reduce consumption and dependence on petroleum-based feedstock, and lessen negative impact on environment, by reducing carbon footprints. However, the market faces few challenges, such as price competitiveness and availability of cheaper alternatives, and difficulty in disposal of PLA.
Demand for Flexible Bio-plastic Packaging
Globally, shoppers use around 500 billion single-use plastic bags every year, and this number continues to rise. Petroleum-based plastics are a major source of global pollution. Many countries across the world have banned the use of lightweight, single-use plastic bags, or have started taxing it. In addition, consumers are also becoming more concerned toward the environmental impact of plastic packaging solutions. PLA provides the packaging industry with a renewable sustainable option for a variety of uses. Many of these include flexible packaging films made form PLA resin. The combination of desirable properties, such as high clarity, stiffness, and excellent printability, along with ease of processing PLA in the existing infrastructure, drives the demand for PLA in the eco-friendly and advanced packaging segment. The huge benefit of PLA as a bio-plastic is its versatility, supported by its natural degradability when exposed to the environment. For example, a PLA bottle left in the ocean would typically degrade in six to 24 months. Accordingly, there is a high potential for PLA to be very useful in short lifespan applications, where biodegradability is highly beneficial.
Market Segmentation
In terms of volume, the market is expected to be 286.37 kilo metric ton in 2017, and is anticipated to reach 830.1 kilo metric ton by 2023, at an estimated CAGR of 19.48%. The market has been segmented on the basis of raw material, form, and end-user industry. By raw material, corn starch is expected to dominate the global market. By form, films and sheets are expected to dominate the market. By region, North America has dominated the market in the past years, and it is expected to have the largest market share over the forecast period, with an estimated CAGR of 19.48%. Asia-Pacific is estimated to have the highest CAGR 21.89% over the forecast period. By end-user industry, packaging industry has the highest market share, and is expected to dominate the market by volume over the forecast period, with an estimated CAGR of 19.65%. Medical, textiles, and agriculture are the other end-user industries, which are likely to have higher CAGR over the forecast period, due to the increasing applications.
Key Developments in the Market
• January 2018: Bengbu-based BBCA Group signed an agreement with Glactic Company, located in Belgium, on a PLA (polylactic acid) cooperation project, featuring a designed annual production capacity of 100,000 metric ton.
• January 2018: Engineers from the University of Connecticut developed an implantable sensor, made from poly (L-lactide) (PLLA), a medically-safe biodegradable polymer that can measure even very small changes in pressure inside organs.
• June 2017: NatureWorks signed a contract to license Plaxica’s Optipure chemical processing technology for the production of D-lactic acid, which serves as a building block for Ingeo PLA grades.
Major Players: BASF SE, NATUREWORKS, MITSUBISHI CHEMICAL, DOWDUPONT, EASTMAN CHEMICALS, BAYER, CORBION, DANIMER SCIENTIFIC amongst others.
Reasons to Purchase this Report
• Current and future global polylactic acid (PLA) market outlook in the developed and emerging markets
• Analyzing various perspectives of the market with the help of Porter’s five forces analysis
• The segment that is expected to dominate the market
• Regions that are expected to witness fastest growth during the forecast period
• Identify the latest developments, market shares, and strategies employed by the major market players
• 3 months analyst support, along with the Market Estimate sheet (in excel).
Customization of the Report
• This report can be customized to meet your requirements. Please connect with our representative, who will ensure you to get a report that suits your needs.
レポート目次1. Introduction
1.1 Research Phases
1.2 Study Deliverables
1.3 Scope of the Report
2. Executive Summary
3. Market Insights
3.1 Industry Value-Chain Analysis
3.2 Industry Attractiveness – Porter’s Five Forces Analysis
3.2.1 Bargaining Power of Suppliers
3.2.2 Bargaining Power of Consumers
3.2.3 Threat of New Entrants
3.2.4 Threat of Substitute Products and Services
3.2.5 Degree of Competition
3.3 Technological Snapshot
3.3.1 PLA Production Process
4. Market Dynamics
4.1 Drivers
4.1.1 Favorable Government Policies Promoting Bio-plastics
4.1.2 Demand for Bio-plastic Packaging
4.1.3 Growing Demand for Cellulose Derived Fibers Iin Textile Industry
4.2 Restraints
4.2.1 Price Competitiveness and Availability of Cheaper Alternatives
4.2.2 Difficulty in Disposal of PLA
4.3 Opportunities
4.3.1 Growing Production of Genetically Modified Corn
4.3.2 Growing Usage of PLA in 3D Printing
5. Market Segmentation and Analysis (Market Size, Growth, & Forecast)
5.1 By Raw Material
5.1.1 Corn
5.1.2 Cassava
5.1.3 Sugarcane & Sugar Beet
5.1.4 Others
5.2 By Form
5.2.1 Fiber
5.2.2 Films & Sheets
5.2.3 Coatings
5.2.4 Others
5.3 By Application
5.3.1 Packaging
5.3.2 Automotive
5.3.3 Medical
5.3.4 Electronics
5.3.5 Agriculture
5.3.6 Textiles
5.3.7 Others
6. Regional Market Analysis (Market Size, Growth, & Forecast)
6.1 Asia-Pacific
6.1.1 China
6.1.2 South Korea
6.1.3 Japan
6.1.4 Rest of Asia-Pacific
6.2 Europe
6.2.1 Germany
6.2.2 United Kingdom
6.2.3 Italy
6.2.4 France
6.2.5 Rest of Europe
6.3 North America
6.3.1 United States
6.3.2 Canada
6.3.3 Mexico
6.3.4 Rest of North America
6.4 South America
6.4.1 Brazil
6.4.2 Argentina
6.4.3 Rest of South America
6.5 Middle-East and Africa
6.5.1 Saudi Arabia
6.5.2 South Africa
6.5.3 Rest of Middle East and Africa
7. Future of the Market
8. Competitive Landscape
8.1 Mergers & Acquisitions, Joint Ventures, Collaborations, and Agreements
8.2 Market Share Analysis**
8.3 Strategies Adopted by Leading Players
9. Company Profiles (Overview, Financials**, Products & Services, and Recent Developments)
8.1 BASF SE
8.2 Bayer
8.3 Corbian
8.4 Danimer Scientific
8.5 Dow-DuPont
8.6 Eastman Chemicals
8.7 Futerro
8.8 Henen Jindan Lactic Acid Technology
8.9 Mitsubishi Chemical
8.10 Natureworks
8.11 Sulzer
8.12 Synbra
8.13 Teijin
8.14 Wei Mon Industry
10. Disclaimer
** subject to availability on public domain