市場調查報告書
商品編碼
1361617
癸二酸市場 - 2018-2028 年全球產業規模、佔有率、趨勢、機會與預測,按來源、按應用、地區、競爭細分Sebacic Acid Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Source, By Application, By Region, Competition |
2022年全球癸二酸市場價值為1.5億美元,預計在預測期內將經歷強勁成長,到2028年年複合成長率(CAGR)為2.88%,預計到2028年將達到1.8億美元。源自蓖麻油的酸是一種多功能化合物,具有多種應用和優點。它在生物聚醯胺的生產中發揮著至關重要的作用,賦予了適應性、耐用性、疏水性和較低熔點等基本特性。此外,它也用作聚酯的成分,利用癸二酸固有的二元酸性質來增強柔韌性、耐化學性和強度。這些聚酯可應用於各種塗料行業,包括捲材塗料、建築塗料和高固體分塗料。全球癸二酸市場由於其廣泛的應用、生物基性質和成本效益的製造而不斷成長。然而,值得注意的是,日益增加的健康和環境問題可能會阻礙市場的成長。癸二酸市場的成長受到多種因素的推動,包括政府推廣生物基產品的措施和政策的增加。這些產品廣泛應用於潤滑劑、油漆、黏合劑和聚合物等行業。此外,由於個人健康和護膚意識的提高,人們對個人護理和保健產品的興趣也越來越大。此外,人口和建築業投資的成長也促進了市場的成長。預計汽車產業的生產和正在進行的研發活動將在 2021-2028 年的預測期內為癸二酸市場創造新的機會。
市場概況 | |
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預測期 | 2024-2028 |
2022 年市場規模 | 1.5億美元 |
2028F 市場規模 | 1.8億美元 |
2023-2028 年年複合成長率 | 2.88% |
成長最快的細分市場 | 個人護理和化妝品 |
最大的市場 | 北美洲 |
由於消費者偏好的變化以及對天然和永續成分的日益關注,全球化妝品和個人護理行業正在經歷重大轉型。癸二酸源自蓖麻油或己二酸,是一種二羧酸,具有多種有益於化妝品和個人護理行業的特性。它的多功能性在於它能夠作為各種衍生物的前體,包括酯類,廣泛用於護膚、護髮和其他個人護理產品的配方中。該化合物的天然來源和低毒性使其成為尋求滿足消費者對更清潔和更永續成分需求的品牌的有吸引力的選擇。隨著消費者仔細審查化學品和添加劑的成分列表,製造商面臨著用更安全、對使用者和環境友善的替代品取代合成化合物的壓力。癸二酸很好地契合了這一趨勢,提供了一種可生物分解且無害的選擇,有助於提高個人護理產品的整體吸引力。癸二酸酯在洗髮精、護髮素和定型產品中用作潤膚劑、調理劑和頭髮固定劑。這些酯類可增強頭髮的易梳理性、減少毛躁並改善頭髮的整體質感。該化合物的潤膚特性使其適用於保濕霜、乳霜和乳液等護膚產品。癸二酸酯有助於保持皮膚水合作用,防止水分流失,並有助於使膚色更光滑、更柔軟。癸二酸衍生物用於口紅、眼線筆和其他彩妝產品中,可改善質地、增加附著力並延長產品壽命。此外,癸二酸酯用於指甲油配方中以增強光澤、柔韌性和對指甲表面的附著力。
隨著世界各地的產業尋求永續和多功能的解決方案,癸二酸已成為配製塑化劑的關鍵成分,推動了全球癸二酸市場的成長。塑化劑是增強聚合物柔韌性、耐久性和彈性的添加劑,使其更具適應性和延展性。這些化合物在生產廣泛用於建築、汽車、電子和消費品行業的 PVC(聚氯乙烯)等材料中發揮關鍵作用。透過加入塑化劑,製造商可以實現特定的機械性能並客製化聚合物性能以滿足不同的要求。隨著城市基礎設施的擴大以及消費者對耐用和多功能產品的需求不斷增加,對塑化劑的需求正在飆升。因此,作為塑化劑生產關鍵成分的癸二酸的消耗量顯著增加。癸二酸因其獨特的分子結構而脫穎而出,為聚合物提供了特定的好處。它與多種聚合物的兼容性、低毒性和生物分解性使其成為旨在滿足監管和環境標準的製造商的有吸引力的選擇。由於健康和環境問題,世界各國政府收緊對某些塑化劑的監管,塑膠產業積極尋求有效且永續的替代品。癸二酸非常符合這些要求,提供了可行的解決方案來滿足對環保塑化劑選擇的需求。全球癸二酸市場正在經歷動態成長,這主要是由塑化劑需求激增所推動的。亞太地區工業化快速,消費基礎不斷擴大,在這一市場中扮演著舉足輕重的角色。該地區的建築和汽車行業尤其是塑化劑的主要消費者,推動了癸二酸的需求。北美和歐洲也對癸二酸市場做出了重大貢獻,因為這些地區的工業專注於永續實踐並尋求傳統塑化劑的替代品。對綠色和可再生技術的重視為癸二酸製造商滿足不斷變化的市場需求開闢了新的機會。
隨著汽車產業採用環保實踐和輕質材料,癸二酸正成為塑造全球癸二酸市場未來的關鍵因素。在減少碳排放、提高燃油效率和開發更環保汽車的迫切需求的推動下,汽車產業正在經歷重大轉型。實現這些目標的關鍵策略之一是廣泛採用輕質材料。輕量化不僅提高了燃油效率,還透過減少製造和運作所需的能源,有助於車輛的整體永續性。癸二酸在輕量化革命中扮演關鍵角色。它是生產各種具有輕質和高強度特性的生物基聚合物和材料的前驅物。這些材料廣泛應用於汽車工業,特別是需要卓越性能同時保持低重量的零件。癸二酸是生產聚醯胺-10,10等生物塑膠的關鍵成分,可有效取代各種車輛零件中的傳統石油基材料,包括內裝零件和引擎蓋下應用。癸二酸衍生的聚合物可以用天然纖維或奈米顆粒進一步增強,以製造輕質耐用的複合材料。這些複合材料可用於製造車身面板、結構部件,甚至電動車電池外殼。此外,癸二酸基塗料具有優異的附著力和耐久性,使其成為各種汽車表面保護塗層的理想選擇,有助於延長車輛的使用壽命。隨著汽車製造商和製造商努力實現永續發展目標,癸二酸作為生物基環保化合物的作用變得越來越突出。促進更清潔、更環保的交通解決方案的政府法規進一步推動了這項需求。
癸二酸的主要來源是蓖麻油,容易受到供需波動的影響,從而推高價格。蓖麻油的生產取決於農業因素,例如天氣條件
全球經濟的互聯性顯著增加了供應鏈的複雜性和脆弱性。癸二酸源自蓖麻油,直接受到蓖麻子供應量和成本波動的影響。不可預見的天氣條件、農業實踐的變化和地緣政治因素可能導致供應短缺和價格波動。高效的運輸對於確保原料和成品的及時運輸起著至關重要的作用。交通網路中斷,例如港口擁擠、工人罷工或意外的地緣政治事件,可能會導致延誤和成本上升。此外,全球經濟和政治變化可能影響癸二酸的需求和供應。貿易爭端、監管變化和消費者偏好的變化可能會帶來市場不確定性。地震、颶風和海嘯等天災有可能破壞製造設施、供應路線和運輸網路,造成短期中斷和長期損害。
為了應對環境問題和人類健康考慮,監管框架經歷了重大演變。各國政府和國際組織已採取措施減少排放、減少廢棄物並限制有害材料的使用。這些法規對整個癸二酸市場產生深遠影響,包括生產、運輸、產品配方和處置。例如,歐盟的 REACH(化學品註冊、評估、授權和限制)法規強制要求對化學品進行註冊和評估,以確保其安全使用。癸二酸及其衍生物的製造商和進口商必須遵守這些法規,這通常需要嚴格的測試、記錄和風險評估。同樣,美國環保署 (EPA) 等環保機構也執行旨在最大限度減少有害化學物質排放到環境中的法規。癸二酸產業的公司必須遵守報告要求、污染預防計畫和廢棄物處理指南。
癸二酸從蓖麻油到聚合物和塑膠的歷程是由其增強這些材料性能的卓越能力所推動的。其獨特的分子結構使其能夠對機械、熱和環境特性產生影響,使其成為廣泛應用中的遊戲規則改變者。在聚合物領域,癸二酸是生物塑膠、聚醯胺(尼龍)和聚酯的基本組成部分。透過將癸二酸加入這些材料中,製造商可以顯著提高拉伸強度、抗衝擊性和熱穩定性。這不僅提高了最終產品的耐用性和性能,而且滿足了對傳統塑膠的環保替代品不斷成長的需求。聚醯胺和聚酯在從紡織到工程的各個行業中都至關重要,癸二酸的整合帶來了性能和永續性的最佳合成。在聚醯胺中,癸二酸有助於提高拉伸強度、抗衝擊性和整體韌性,使其適合需要耐用且輕質材料的應用,例如汽車零件和工業零件。同樣,癸二酸基聚酯表現出改進的機械性能,使其對於薄膜、塗料甚至醫療設備等應用具有不可估量的價值。這些材料與環保措施的兼容性強調了癸二酸在解決性能和環境問題方面所發揮的變革作用。
2022 年,癸二酸市場以蓖麻油為主,預計未來幾年將持續擴大。這可歸因於其優異的抗發炎、抗菌和保濕等特性。因此,它廣泛應用於化妝品、醫藥、工業和製藥應用。蓖麻油和蓖麻油酸被認為可以增強皮膚吸收,通常用於治療各種皮膚病,包括皮膚病、牛皮癬和痤瘡。此外,蓖麻油仍然是一種備受推崇的治療便秘和各種皮膚病等慢性疾病的天然藥物,使其成為天然美容產品中的普遍成分。
2022 年,癸二酸市場以個人護理和化妝品為主,預計未來幾年將繼續擴大。癸二酸因其在各種配方中的廣泛應用而受到化妝品行業的高度追捧。它是許多產品的關鍵成分,可用作 pH 調節劑、堅固的成膜劑和香味增強劑。社群媒體影響力的不斷成長進一步促進了化妝品行業的擴張。此外,人們對個人護理產品的認知不斷提高,尤其是在新興地區,預計將推動該細分市場的成長。
北美地區已成為全球癸二酸市場的領導者。北美市場的成長可歸因於消費者生活水準的提高,導致化妝品支出的增加。這一趨勢伴隨著美國各類涉足高階美容產品生產的跨國公司的參與。此外,癸二酸還可作為酯類生產的化學中間體,酯類可用作溶劑、潤膚劑、掩蔽劑、成膜劑和調理劑。這些因素都促進了區域市場的不斷擴大。
在本報告中,除了以下詳細介紹的產業趨勢外,全球癸二酸市場還分為以下幾類:
公司簡介:全球癸二酸市場主要公司的詳細分析。
全球癸二酸市場報告根據給定的市場資料,技術科學研究根據公司的具體需求提供客製化服務。該報告可以使用以下自訂選項:
The Global Sebacic Acid Market was valued at USD 0.15 billion in 2022 and is projected to experience robust growth in the forecast period with a Compound Annual Growth Rate (CAGR) of 2.88% through 2028 and is expected to reach USD 0.18 billion by 2028. Sebacic acid, derived from castor oil, is a versatile compound with diverse applications and benefits. It plays a vital role in the production of bio-polyamides, imparting essential properties such as adaptability, durability, hydrophobicity, and lower melting points. Additionally, it is used as a component in polyesters, leveraging the inherent dibasic acid nature of sebacic acid to enhance flexibility, chemical resistance, and strength. These polyesters find application in various coating industries, including coils, architectural, and high solids paints. The global sebacic acid market is growing due to its wide range of applications, its bio-based nature, and cost-effective manufacturing. However, it's important to note that increasing health and environmental concerns could potentially hinder the market's growth. The growth of the sebacic acid market is driven by various factors, including the rise in government initiatives and policies that promote bio-based products. These products find extensive usage in industries such as lubricants, paints, adhesives, and polymers. Additionally, there is a growing inclination towards personal care and healthcare products, driven by increasing awareness of personal health and skincare. Furthermore, the rise in population and investments in the building and construction sector also contribute to the market's growth. The automotive industry's production and ongoing research and development activities are expected to create new opportunities for the sebacic acid market in the forecast period of 2021-2028.
Market Overview | |
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Forecast Period | 2024-2028 |
Market Size 2022 | USD 0.15 Billion |
Market Size 2028F | USD 0.18 Billion |
CAGR 2023-2028 | 2.88% |
Fastest Growing Segment | Personal Care and Cosmetics |
Largest Market | North America |
The global cosmetics and personal care industry is undergoing a significant transformation driven by shifting consumer preferences and an increasing focus on natural and sustainable ingredients. Sebacic acid, derived from castor oil or adipic acid, is a dicarboxylic acid that offers a wide range of properties beneficial to the cosmetics and personal care industry. Its versatility lies in its ability to serve as a precursor to various derivatives, including esters, which are widely used in formulations for skincare, haircare, and other personal care products. The compound's natural origin and low toxicity make it an appealing option for brands seeking to meet consumer demand for cleaner and more sustainable ingredients. As consumers scrutinize ingredient lists for chemicals and additives, manufacturers are under pressure to replace synthetic compounds with safer alternatives that are both user- and environmentally-friendly. Sebacic acid aligns well with this trend, offering a biodegradable and non-harmful option that contributes to the overall appeal of personal care products. Sebacic acid esters act as emollients, conditioning agents, and hair fixatives in shampoos, conditioners, and styling products. These esters enhance manageability, reduce frizz, and improve the overall texture of hair. The compound's emollient properties make it suitable for skincare products such as moisturizers, creams, and lotions. Sebacic acid esters help maintain skin hydration, prevent moisture loss, and contribute to a smoother and more supple complexion. Sebacic acid derivatives are used in lipsticks, eyeliners, and other color cosmetics to improve texture, increase adherence, and enhance product longevity. Moreover, sebacic acid esters are employed in nail polish formulations to enhance shine, flexibility, and adhesion to the nail surface.
As industries worldwide seek sustainable and versatile solutions, sebacic acid has emerged as a crucial component in formulating plasticizers, driving the growth of the global sebacic acid market. Plasticizers are additives that enhance flexibility, durability, and elasticity in polymers, making them more adaptable and malleable. These compounds play a critical role in producing materials like PVC (polyvinyl chloride), widely used in construction, automotive, electronics, and consumer goods industries. By incorporating plasticizers, manufacturers can achieve specific mechanical properties and customize polymer performance to meet diverse requirements. With expanding urban infrastructure and increasing consumer demand for durable and versatile products, the need for plasticizers is soaring. Consequently, the consumption of sebacic acid as a key component in plasticizer production has significantly increased. Sebacic acid stands out due to its unique molecular structure, offering specific benefits to polymers. Its compatibility with a wide range of polymers, low toxicity, and biodegradability makes it an attractive choice for manufacturers aiming to meet regulatory and environmental standards. As governments worldwide tighten regulations on certain plasticizers due to health and environmental concerns, the plastics industry actively seeks effective and sustainable alternatives. Sebacic acid aligns well with these requirements, providing a viable solution to meet the demand for eco-friendly plasticizer options. The global sebacic acid market is experiencing dynamic growth, primarily driven by the surge in plasticizer demand. Asia-Pacific, with its rapid industrialization and growing consumer base, plays a pivotal role in this market. The region's construction and automotive sectors, in particular, are major consumers of plasticizers, driving the demand for sebacic acid. North America and Europe also contribute significantly to the sebacic acid market as industries in these regions focus on sustainable practices and seek alternatives to traditional plasticizers. The emphasis on green and renewable technologies opens up new opportunities for sebacic acid manufacturers to meet the evolving market demands.
As the automotive sector embraces eco-friendly practices and lightweight materials, sebacic acid is emerging as a pivotal factor in shaping the future of the global sebacic acid market. The automobile industry is undergoing a significant transformation, driven by the urgent need to reduce carbon emissions, enhance fuel efficiency, and develop more environmentally friendly vehicles. One of the key strategies to achieve these objectives is the widespread adoption of lightweight materials. Lightweighting not only improves fuel efficiency but also contributes to the overall sustainability of vehicles by reducing the energy required for manufacturing and operation. Sebacic acid plays a critical role in the lightweighting revolution. It serves as a precursor for the production of a variety of bio-based polymers and materials that exhibit both lightweight and high-strength characteristics. These materials are extensively utilized in the automobile industry, particularly in components that require exceptional performance features while maintaining low weight. Sebacic acid is a key ingredient in the production of bioplastics, such as polyamide-10,10, which can effectively replace traditional petroleum-based materials in various vehicle parts, including interior components and under-the-hood applications. Sebacic acid-derived polymers can be further reinforced with natural fibers or nanoparticles to create lightweight and durable composite materials. These composites find application in the manufacturing of vehicle body panels, structural components, and even electric vehicle battery enclosures. Additionally, sebacic acid-based coatings exhibit excellent adhesion properties and durability, making them ideal for protective coatings on various automobile surfaces, thereby contributing to the longevity of vehicles. As automakers and manufacturers strive to meet sustainability targets, the role of sebacic acid as a bio-based and environmentally-friendly compound becomes increasingly prominent. This demand is further driven by government regulations that promote cleaner and greener transportation solutions.
The primary source of sebacic acid, which is castor oil, is susceptible to supply and demand fluctuations, thereby driving up prices. The production of castor oil relies on agricultural factors, such as weather conditions
and disease outbreaks, which can affect crop yields and disrupt the supply of raw materials. Castor plants thrive in specific geographic regions, leading to production concentration in select countries. This limited distribution can result in supply imbalances and higher costs. Castor oil finds applications beyond sebacic acid production, including in the pharmaceutical, personal care, and industrial sectors. This competition for raw materials further contributes to price volatility. Converting castor oil into sebacic acid involves a series of chemical processes, which can be resource-intensive and impact the final cost. Moreover, fluctuations in raw material prices can lead to supply chain disruptions, affecting product availability and potentially causing market instability. Manufacturers of sebacic acid and downstream products face the challenge of maintaining healthy profit margins when confronted with escalating raw material costs.
The interconnectedness of the global economy has significantly increased the complexity and vulnerability of supply chains. Sebacic acid, derived from castor oil, is directly impacted by fluctuations in the availability and cost of castor beans. Unforeseeable weather conditions, changes in agricultural practices, and geopolitical factors can result in supply shortages and price fluctuations. Efficient transportation plays a critical role in ensuring the timely movement of raw materials and finished products. Disruptions in transportation networks, such as port congestion, labor strikes, or unexpected geopolitical events, can lead to delays and escalated costs. Furthermore, economic, and political shifts worldwide can influence the demand and supply of sebacic acid. Trade disputes, regulatory changes, and shifts in consumer preferences can introduce market uncertainties. Natural disasters, including earthquakes, hurricanes, and tsunamis, have the potential to disrupt manufacturing facilities, supply routes, and transportation networks, causing both short-term interruptions and long-term damage.
Regulatory frameworks have undergone significant evolution in response to environmental concerns and considerations for human health. Governments and international organizations have implemented measures to mitigate emissions, reduce waste, and restrict the use of hazardous materials. These regulations have far-reaching implications across the entire sebacic acid market, encompassing production, transportation, product formulation, and disposal. For example, the European Union's REACH (Registration, Evaluation, Authorization, and Restriction of Chemicals) regulation mandates the registration and assessment of chemicals to ensure their safe usage. Manufacturers and importers of sebacic acid and its derivatives must comply with these regulations, which often entail rigorous testing, documentation, and risk assessment. Similarly, environmental agencies in the United States, such as the Environmental Protection Agency (EPA), enforce regulations aimed at minimizing the release of harmful chemicals into the environment. Companies operating in the sebacic acid sector must adhere to reporting requirements, pollution prevention plans, and waste disposal guidelines.
Sebacic acid's journey from castor oil to polymers and plastics is driven by its remarkable ability to enhance the properties of these materials. Its distinct molecular structure empowers it to exert influence over mechanical, thermal, and environmental characteristics, making it a game-changer in a wide range of applications. Within the realm of polymers, sebacic acid serves as a fundamental building block for bioplastics, polyamides (nylons), and polyesters. By incorporating sebacic acid into these materials, manufacturers can achieve significant improvements in tensile strength, impact resistance, and thermal stability. This not only enhances the durability and performance of the end products but also aligns with the growing demand for eco-friendly alternatives to traditional plastics. Polyamides and polyesters are crucial in industries spanning from textiles to engineering, and the integration of sebacic acid brings about an optimal synthesis of performance and sustainability. In polyamides, sebacic acid contributes to enhanced tensile strength, impact resistance, and overall toughness, making them suitable for applications that require durable yet lightweight materials, such as automotive parts and industrial components. Similarly, sebacic acid-based polyesters exhibit improved mechanical properties, rendering them invaluable for applications like films, coatings, and even medical devices. The compatibility of these materials with eco-friendly initiatives underscores the transformative role sebacic acid plays in addressing both performance and environmental concerns.
In 2022, the Sebacic Acid market was dominated by castor oil and is predicted to continue expanding over the coming years. This can be attributed to its excellent anti-inflammatory, antimicrobial, and moisturizing properties, among others. As a result, it is extensively utilized in cosmetics, medicinal, industrial, and pharmaceutical applications. Castor oil, along with ricinoleic acid, is believed to enhance skin absorption and is commonly employed in the treatment of various skin disorders, including dermatosis, psoriasis, and acne. Moreover, castor oil remains a well-regarded natural remedy for chronic conditions such as constipation and various skin ailments, making it a prevalent ingredient in natural beauty products.
In 2022, the Sebacic Acid market was dominated by personal care & cosmetics and is predicted to continue expanding over the coming years. Sebacic acid is highly sought after by the cosmetics industry due to its versatile applications in various formulations. It serves as a crucial ingredient in numerous products, functioning as a pH adjuster, firm filming agent, and fragrance enhancer. The growing influence of social media has further contributed to the expansion of the cosmetics sector. Additionally, heightened awareness regarding personal care products, particularly in emerging regions, is expected to drive the growth of this segment.
The North America region has established itself as the leader in the Global Sebacic Acid Market. The market growth in North America can be attributed to the increasing living standards of consumers, resulting in a rise in cosmetics expenditure. This trend is accompanied by the participation of various multinational companies involved in the production of high-end beauty products in the United States. Furthermore, sebacic acid serves as a chemical intermediate in the manufacturing of esters, which are utilized as solvents, emollients, masking agents, film-forming agents, and conditioning agents. Consequently, these factors contribute to the continuous expansion of the regional market.
In this report, the Global Sebacic Acid Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
Company Profiles: Detailed analysis of the major companies present in the Global Sebacic Acid Market.
Global Sebacic Acid Market report with the given market data, Tech Sci Research offers customizations according to a company's specific needs. The following customization options are available for the report: