Global Lactic Acid Polymer Market - 2020-2027
発行: DataM Intelligence
ページ情報: 英文 180 Pages
世界の乳酸ポリマー市場の主な促進要因として、乳酸の抗菌性の高さや (香料・pH調整剤・防腐剤として理想的) や、顧客のライフスタイルの変化、可処分所得の上昇、スキンケア向け化粧品の需要増大などが挙げられます。また、ポリ乳酸（PLA）の需要の拡大も市場成長に貢献しています。
L-乳酸は人間の代謝の天然化合物ですが、D-乳酸は微生物のいくつかの菌株またはいくつかのあまり関連性のない代謝経路によって生成されます。 L-乳酸は内因性の化合物ですが、D-乳酸は有害なエナンチオマーです。 D-乳酸への曝露は、汚染された飲食品、短腸症候群などの病的状態における微生物叢など、さまざまな方法で発生する可能性があります。 D-乳酸は、人命への深刻な脅威を表す非常に有毒な化合物ではなく、健康上の問題を引き起こし、他の病状を妨げる可能性のある重要なマーカーおよび有毒代謝物です。 2つの異性体を正確に特定するには精巧な分析方法が必要であるため、毒性を簡単に診断することはできません。さらに、標準的な分析方法では、2種類のエナンチオマーを区別するのに適していないため、D-乳酸への曝露を分析できず、そのためD-乳酸の生成メカニズム、合併症の制限方法、中毒の診断方法に関する研究に制限が掛けられています。D-乳酸も使用される生分解性材料の生産のために、D-乳酸の経済的重要性は高まるでしょう。
Lactic acid is another pyruvic acid product formed during the reduction of this acid by lactate dehydrogenase. Increasing demand for anti-acne and anti-aging products is expected to boost the lactic acid demand because it improves collagen & elastin synthesis, skin lightening effects and accelerates shedding & cell renewal. Moreover, it has attracted much attention in biomaterials and packaging materials during the forecast period due to its property like biodegradable, low toxic, and bioresorbable in the human body and nature. In addition, polylactic acid is the first commodity plastic produced from renewable resources and made through the chemical and fermentative method founded in biomedical and packaging materials.
The global lactic acid polymer market is estimated to reach USD XX billion by 2027 from the recorded market size of worth USD XX billion in 2019, growing at a CAGR of XX% during the forecast period.
Lactic acid has high antimicrobial properties, which can be used as an ideal flavoring agent, pH regulator, and preservative. This property is expected to boost the Lactic acid polymer market in the forecast period. Lactic acid is mostly used in beer brewing, creme fraiche, pickled vegetables, whipped butter, cheese making and confectionery goods. Moreover, increasing demand for cosmetic products due to changing customer lifestyles, rising disposable income, and growing skincare concerns is expected to drive the market during the forecast period. The cosmetic product includes hair dyes, colors, shampoos, makeup, moisturizers, and cleaning products to its excellent exfoliation, humectant, collagen renewal, and complex enhancement capabilities. According to industry analysis, skincare is the top category, estimating 39% of the global market. Haircare products made up more than 21%, while makeup accounted for 19% in 2018, and it is predicted that skincare will remain the most profitable product category, as its market value is grown by 20.1 billion USD between 2014 and 2019.
Furthermore, the growing demand for polylactic acid (PLA) is expected to boost the lactic acid polymer market. PLA is a flexible lactic acid-derived biodegradable polyester and is a commercial option to thermoplastics. A commodity is a bioplastic form with properties close to traditional polymers like acrylonitrile butadiene styrene, polyethylene terephthalate, and polypropylene. For various items like plastic films, bottles, medical devices and 3D printing, the product is ideal. These characteristics of PLA are better than conventionally produced plastics in terms of tensile strength and flexibility. In addition, the growing awareness among consumers about the need for sustainability, recyclability, and green packaging solutions has directed manufacturers to adopt eco-friendly packaging. Around 300 million tons of plastic are produced every year. Growing demand for plastics will increase greenhouse gas sources, which will increase the eco-friendly plastic, which will boost the polylactic acid market in the forecast period.
However, the polylactic acid mechanical property and its thermal stability are limited, restricting end-users' use demanding high performance. Hence, to meet the increasing demand of the market, the product should be engineered for better performance, and the production of polymer should be hiked according to the demand.
By optical isomeric, the market is segmented into L-lactate and D-lactate. By form, the market is segmented into liquid and foam. By production, the market is segmented into polylactic acid, a biopolymer, and ethyl lactate, a biodegradable solvent. The market is segmented into cleaning products, forgery, cosmetics, biodegradable polymers, food & beverages, personal care products, pharmaceutical products, and others by End User.
L-lactic acid is a natural compound of human metabolism, whereas D-lactic acid is produced by some strains of microorganisms or by some less relevant metabolic pathways. While L-lactic acid is an endogenous compound, D-lactic acid is a harmful enantiomer. Exposure to D-lactic acid can happen in various ways, including contaminated food and beverages and microbiota during some pathological states like short bowel syndrome. D-Lactic acid is not an extremely toxic compound representing severe threats to human life, and it is a significant marker and poisonous metabolite that can cause health problems and hinder other pathologies. Toxic cannot be easily diagnosed because elaborative analytical methods are necessary to identify the two isomers precisely. Moreover, the study on the mechanism of how D-lactic acid is produced, how to limit complications, and how to diagnose poisoning is restricted because exposure to D-lactic acid cannot be analyzed because the standard analytical methods are not suitable for distinguishing between the two enantiomers. The economic importance of D-lactic acid will grow because of the production of biodegradable materials where D-lactic acid is also used.
North America is holding the largest share of the lactic acid polymer market due to key manufacture that boosts the lactic acid market's growth. North America is the largest growing segment in industrial, food & beverages, and pharmaceutical.
The Asia Pacific is the second largest region and is expected to continue dominance during the forecast period due to the rapid industrialization of personal care products in developed economic countries like China, India, and Japan. Government regulation and support towards infrastructure development are expected to drive industry growth over the next seven years. In addition, the industrial shifts and technological advancements have made lactic acid available for a wide range of End Users like biodegradable polymers and food & beverages. The rise in consumer awareness toward the mitigation of food wastage in the region has also helped the demand for lactic acid in the food & beverages industry. Moreover, consumers' changing lifestyles have inclined them toward convenience food products with higher shelf-life due to the changing consumer preferences toward convenience food stores, supermarkets, and quick-service restaurants. The UK is expected to be the primary consumer of pharmaceutical End Users in Europe due to easy access to healthcare services, rising older people, and increasing disease rate. According to the British Pharmaceutical Industry Association, the pharmaceutical industry is the sixth-highest funding provider for economic development.
Brazil and Argentina are expected to drive overall industry demand in the Central & South America region due to the increasing demand for the cosmetic industry. On account of increasing expenditure on beauty and personal care products, and the rising personal care industry is expected to force FMCG companies to increase their production capacity in Brazil.
The lactic acid polymer market is fragmented with the presence of regional and global players. The competitive outline lies with the rising in the regional company and growing investment in upstream End User. Total S.E, DuPont, Nature Works LLC, Cargill, Galactic, DOW Chemical, Unitika, Henan Jindan Lactic Acid Technology, Sulzer, Musashino Chemical are the major player in the polymer market. The major players are adopting several growth strategies such as product launches, acquisitions, and collaborations, contributing to growing the lactic acid polymer market globally.
The total has manufactured the new product named luminy PLA. It is a biobased and biodegradable polymer made from annually renewable resources, offering a reduced carbon footprint versus many traditional plastics and includes high heat and standard PLA grades, which is an innovative material used in a wide range of markets such as fresh food packaging, consumer goods, fibers, food service ware, and 3D-printing, and others.