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市場調査レポート
商品コード
1022359
世界のポリグリコール酸市場-2022-2029Global Polyglycolic Acid Market - 2022-2029 |
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世界のポリグリコール酸市場-2022-2029 |
出版日: 2022年07月31日
発行: DataM Intelligence
ページ情報: 英文 210 Pages
納期: 約2営業日
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ポリ乳酸は、農業、輸送、繊維、包装などの最終用途分野で需要が伸びています。ポリ乳酸は、従来のポリマーに比べて二酸化炭素排出量が少ないため、世界の需要を大きく伸ばしています。また、フレキシブルパッケージのニーズが高まっていることから、世界的にパッケージングビジネスが拡大しています。したがって、予測期間中は、包装産業の拡大がポリグリコール酸の需要を増加させるとさらに予測されます。
生分解性バイオプラスチックの需要拡大
蓄積されたプラスチック廃棄物による汚染への懸念から、バイオプラスチック、特に再生可能な資源から作られる生分解性バイオプラスチックの開発が加速しています。繊維、電子機器、農業、食品包装、医薬品などさまざまな産業で、石油化学ベースのポリマーに代わるものとして期待されています。一方、ポリグリコール酸は分解速度が速く、セルロースと同等の生分解特性を持ち、完全にコンポスト化することが可能です。また、約1年以内に生分解されることが知られており、環境下での短期的な安定性も優れています。
自動車産業におけるポリグリコール酸の利用拡大
自動車産業で使用される部品には、ポリ乳酸が使用されています。ポリ乳酸は、ボンネットや内装部品などの用途に使用されています。ポリ乳酸は、バイオ素材を多く含んでいるため、低炭素化素材として注目されています。高光沢、寸法安定性、耐紫外線性、耐衝撃性、着色性など、さまざまな特性を備えています。
エンジンルームや内装など、従来のプラスチックに代わる素材として注目されています。ポリエチレンテレフタレート、ポリカーボネート、ポリブチレンテレフタレート、アクリロニトリルブタジエンスチレン、ポリアミドなどです。
ポリグリコール酸のコスト高
ポリグリコール酸(PGA)の特徴として、高いガスバリア性、高い引張強度、一般的な有機溶剤への高い耐性、高い熱変形温度、高い剛性、迅速な生分解性と複合化性などが挙げられます。しかしながら、このポリマーは比較的製造コストが高いため、広く利用されるには至っていないです。
そのため、PGAを他のバイオプラスチックと混合することで、「グリーン」な特性を維持したまま、材料全体のコストを下げ、新たな特性を明らかにすることができる可能性があります。ポリグリコール酸は、従来の石油系ポリマーに比べて高価で、一般的に機械的・物理的品質が劣る。低コストで大量生産できる技術がなかったため、高価格の高付加価値製品として限られた量しか生み出されなかったのです。
COVID-19の影響度分析
COVID-19のパンデミックは、世界経済を破壊し、すべての重要な商業活動を停止させた。その結果、世界規模のポリグリコール酸の市場にまで影響を及ぼしました。サプライチェーンの管理、製品やサービスの提供が中断され、市場の成長力が損なわれました。政府によるロックダウンや外出禁止令がいくつかの生産・製造施設に影響を与え、製品の損失や廃棄につながりました。
ポリ乳酸は、現在の世界のCOVID-19の大流行危機を考えると、使い捨てのカトラリーや食品容器など、電子レンジで使える容器の製造にますます使用されると予想されます。食品パッケージの製造にPLAの使用が拡大しているのは、美観、印刷適性の向上、油脂に対する耐性などの利点があるためです。
ポリグリコール酸の世界市場レポートでは、約53の市場データ表、43の図、210ページの構成で提供しています。
polyglycolic acid market is estimated to reach at a high CAGR during the forecast period (2022-2029).
A semi-crystalline thermoplastic that is biodegradable is polyglycolic acid (PGA). It is the most straightforward linear aliphatic polyester. Outstanding gas barrier qualities, relatively high strength and excellent biodegradability are all attributes of PGA resins. Some grades disintegrate in a month under composting conditions into CO2 and water and have a biodegradation rate comparable to cellulose. Aliphatic polyester made from polyglycolic acid is generated from fossil fuels. Additionally, it has great short-term stability in ambient circumstances and is known to deteriorate through biodegradation in about a year.
The distinct qualities of polyglycolic acid have fueled the global market's growth in various industries, including shale oil & gas extraction and industrial operations. A pore-forming agent has been utilized, polyglycolic acid. Its commercial grades have also been utilized for fracturing and sealing oil & gas wells, such as Kuredux® from Kureha Corp. and TLF-6267 PGA from DuPont Specialty Chemicals. Polyglycolic acid has been suggested for use in shale gas and oil exploration because it can produce extremely robust and biodegradable polymers.
End-use sectors like agricultural, transportation, textile and packaging are mostly responsible for the product's rising demand. Polylactic acid, which produces fewer carbon emissions than conventional polymers, greatly increases the product's global demand. The worldwide packaging business is expanding due to the increasing need for flexible packaging. Thus, during the projection period, it is further projected that the expanding packaging industry would increase demand for polyglycolic acid.
The growing demand for biodegradable bioplastics
Concerns about the pollution caused by accumulated plastic waste have sped up the development of bioplastics, especially biodegradable bioplastics made from renewable resources. It is anticipated that it will replace petrochemical-based polymers in various industries, including textiles, electronics, agriculture, food packaging and pharmaceuticals. Polyglycolic acid, on the other hand, degrades quickly and is completely compostable; its biodegradation profile is comparable to that of cellulose. It is also known to biodegrade within about a year and has great short-term stability in ambient settings.
The growing usage of polyglycolic acid in the automotive industry
Components utilized in the automobile industry are made using polylactic acid. Polylactic acids are employed in applications like hood under components and interior parts. Due to its high bio content, this product is renowned for lowering its carbon impact. Numerous qualities are available, including high gloss, dimensional stability, UV resistance, impact resistance and color capabilities.
The elements make it an alternative to conventional plastics for vehicle engine compartments and interiors. These include polyethylene terephthalate, polycarbonate, polybutylene terephthalate, acrylonitrile butadiene styrene and polyamide.
High costs of polyglycolic acid
The distinctive attributes of polyglycolic acid (PGA) include high gas barrier qualities, high tensile strength, high resistance to common organic solvents, high heat distortion temperature, high stiffness and quick biodegradability & composability. Nevertheless, this polymer has not been widely utilized because of its relatively high production cost.
As a result, mixing PGA with other bioplastics could, while keeping its "green" attributes, lower the material's overall cost and reveal new qualities. Polyglycolic acid is more expensive and typically has fewer mechanical and physical qualities than conventional petroleum-based polymers. It has only been created in limited amounts as a pricey, high-value product because there hasn't been a technology that allows for low-cost mass production.
COVID-19 Impact Analysis
The COVID-19 pandemic has destroyed the global economy and halted all significant commercial activity. As a result, even the market for polyglycolic acid on a global scale was impacted. The management of the supply chain and the delivery of products and services were disrupted, which hurt the market's ability to grow. Government-imposed lockdowns and curfews affected several production and manufacturing facilities, leading to product losses and waste.
Polylactic acid is anticipated to be increasingly used in manufacturing microwaveable containers, such as disposable cutlery and food containers, given the current global COVID-19 pandemic crisis. The expanding use of PLA in the formulation of food packaging items results from its advantageous qualities, including aesthetic appeal, improved printability and resistance to grease & oil.
By application, the polyglycolic acid market is segmented into medical, oil & gas, packaging and others.
High utilization of polyglycolic acid in the packaging industry
Given the extensive use of polylactic acid in the manufacture of bottles, jars and other containers, as well as in the packaging of fresh foods, the packaging segment is predicted to be the dominating kind. Manufacturers are forced to use polylactic acid in packaging due to customer trends worldwide toward fill and sustainable packaging challenges.
Packaging is a key factor influencing PLA in the food packaging sector. Bottles made of PLA plastic are strong, single-use and have qualities like gloss and transparency. The demand for PLA in packaging end-use is also greatly influenced by the tight prohibition on single-use plastics in many nations, including UK, Zimbabwe, New Zealand, Taiwan and several states in U.S. (such as Hawaii, New York and California).
Its demand in this application area is anticipated to be robust over the projection period since it can be composted more readily than petroleum-based products and does not release hazardous gases when burned. Due to the need to reduce greenhouse gas (GHG) emissions, bioplastic packaging, including rigid packaging and loose-fill packaging, has received much legislative support.
The rise in demand from the medical sector in North America
North America is anticipated to have the largest polyglycolic acid market during the projected period. The main markets for polyglycolic acid in North America are U.S., Canada and Mexico, with U.S. being the largest. The demand for PGA (polyglycolic acid) in North America is anticipated to be driven by the region's growing cardiac orthopedic and hysterectomy procedures and its sizable elderly population. The growth of the polyglycolic acid market will also be supported by the rising medical tourism occurring in a sizeable portion of the region.
By encouraging the sustainable development of the frequently marginalized regions where the production units are normally located, oil & gas operations carried out in various regions raise the level of living of the society. Governments from various nations have recently been spending money on research projects involving PGA, one of the fluids used in gas production, to improve environmental management. They have also concentrated on infrastructure costs for holding oil and gas operations in specific regions. To improve domestic gas distribution to the PNG (Domestic) and CNG (Transportation), governments of emerging nations are also prioritizing building CGD networks. It thus opened up new opportunities for the polyglycolic acid business, driving its expansion in North America.
The global polyglycolic acid sector is extremely competitive due to well-established rivals. The businesses have implemented several growth tactics to improve their market position. The primary growth tactics used by these major companies to increase their product offerings and geographical presence and satisfy the rising demand for polyglycolic acid from emerging nations include joint ventures and expansion.
Major global polyglycolic acid market companies include Kureha Corporation, Corbion, Shenzhen Polymtek Biomaterial Co, Ltd., BMG Incorporated, Huizhou Foryou Medical Devices Co., Ltd., Teleflex Incorporated, Unilene, The Chemours Company, Merck KGaA and Boen Healthcare Co., Ltd.
The Chemours Company
Overview: The Chemours Company contributes to developing a vibrant, capable, cleaner world through chemistry. With market-defining products, application know-how and chemistry-based innovations, Chemours, a global leader in titanium technologies, fluoro products and chemical solutions, offers its clients solutions in various industries. Plastics & coatings, air conditioning & refrigeration, mining & oil refining and ordinary industrial manufacturing all use Chemours components. It employs thousands of people, has 35 manufacturing and laboratory locations worldwide and serves customers in almost 120 countries.
Product Portfolio: The company provides glycolic acid, a polyglycolic acid (PGA) polymer component. Polyglycolic acid is used in challenging applications across various industries, including the medical, oil & gas, pharmaceutical and food & beverage sectors, because of its distinctive physical features.
Key Development: In November 2021, The Chemours Company announced the availability of GlycleanTM D, a tested and approved broad-spectrum disinfectant and cleaner registered with the EPA to inactivate the SARS-CoV-2 virus as well as other viruses and bacteria. GlycleanTM D is a highly effective naturally occurring disinfectant that was created utilizing a 70% concentration of glycolic acid (GA), a certified EPA antimicrobial component for use in the formulation of liquid, nonporous hard surface disinfectants. GlycleanTM D is biodegradable and nicer to humans and the environment than harsh, caustic chemicals like quats or bleach.
The global polyglycolic acid market report would provide access to an approx. 53 market data table, 43 figures and 210 pages.
Target Audience 2022
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