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纳米二氧化硅市场-全球行业规模、份额、趋势、机会和预测,2018-2028F,按类型(P 型(多孔)、S 型(球形)、其他)、按应用(橡胶、涂料、塑料、电池,其他),按地区和竞争Nanosilica Market- Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028F, Segmented By Type (P-Type (Porous), S-Type (Spherical), Others), By Application (Rubber, Coatings, Plastics, Battery, Others), By Region and Competition |
由于橡胶行业需求不断增长,预计到 2028 年,全球纳米二氧化硅市场将大幅增长。 2021年,泰国天然橡胶产量为483万吨。
纳米二氧化硅作为补强剂,用于增强硫化橡胶的机械性能。纳米二氧化硅还可用于将天然橡胶的拉伸强度从 0.33 MPa 提高到 15 MPa。纳米二氧化硅越来越多地用作不同类型橡胶的添加剂,如硅橡胶、丁苯橡胶(SBR)、天然橡胶、丁腈橡胶(NBR)、乙烯丙烯酸橡胶(AEM)和三元乙丙橡胶(EPDM)。纳米二氧化硅还增强了橡胶的其他机械性能,如减摩、韧性、抗老化和耐用性。
例如,2022年5月,ZC Rubber针对欧洲市场推出了Westlake和Goodride超高性能乘用车轮胎,该轮胎使用纳米二氧化硅来提高抓地力。
此外,纳米二氧化硅还用作混凝土的增强剂,可提高混凝土的机械性能,如弯曲强度、压缩强度和耐久性。它使混凝土更易加工且渗透性更低。除此之外,纳米二氧化硅还可以提供更长的使用寿命并降低维护成本。此外,纳米二氧化硅基材料也更加环保,因为它们的生产需要更少的能源和资源。纳米二氧化硅还能降低水泥混凝土中的吸水率和氯离子渗透率,使混凝土成为高潜力、高性能、快速修復的材料。建筑行业对高性能混凝土的需求不断增长,增加了对纳米二氧化硅的需求。
例如,Astrra Chemicals 生产的纳米二氧化硅广泛用于水泥和混凝土中,以提高性能,因为它除了具有孔隙填充作用外,还具有火山灰反应性。
因此,建筑和橡胶行业对纳米二氧化硅的需求不断增加,将导致未来几年全球纳米二氧化硅市场的增长。
在当前的电池技术中,液体和固体相互作用,导致低水平放电。这会缩短电池的保质期。为了克服这个问题,可以使用纳米材料作为涂层,在电池不使用时将电极与电池中的任何液体分开,这进一步有助于延长电池的寿命。纳米二氧化硅用于电池,因为它有望成为锂电池的高容量阳极。随着电动汽车需求的增加,对锂离子电池的需求也随之增加。
例如,根据《2022年全球电动汽车展望》,2021年消费者在电动汽车购买上花费了2500亿美元,比2021年增长了65%。此外,2022年全球电动汽车销量持续强劲增长,销量达到200万辆第一季度较2021年同期增长75%。
因此,发达国家和发展中国家向电动汽车的转变将促进汽车的增长,从而导致对纳米二氧化硅的需求增加。
此外,纳米二氧化硅还用作电子材料中的填料,例如密封剂、粘合剂和涂料。它增强了这些材料的电、热和机械性能,使它们更加高效和耐用。此外,纳米二氧化硅还被用作以多种方式研究多种医学方法的工具,例如药物输送剂,有助于提高药物、植入物和涂层的生物利用度和功效,从而增强其生物相容性并降低风险的感染。
例如,根据华盛顿大学 (GW) 癌症中心的一项研究,纳米颗粒封装的阿霉素在治疗三阴性癌症方面很有前景。
因此,纳米二氧化硅在电池和医疗保健领域的利用将推动预计几年内全球纳米二氧化硅市场的增长。
P型纳米二氧化硅广泛应用于为各种树脂提供优质填充材料。除了作为混凝土和建筑领域使用的各种复合材料的改进填料外,它还可以用作塑料和橡胶的替代品。建筑行业对 P 型纳米二氧化硅日益增长的需求以及住宅和商业建筑的增加也共同有助于减少水泥水化热产生的热裂,提高对酸性水和硫酸盐侵蚀的耐久性,以及生物医学应用的扩展,包括生物成像、药物输送和辅助治疗。
例如,CD Bioarticles 生产用于各种应用的纳米二氧化硅颗粒,例如核酸检测和纯化、药物和基因递送以及成像造影剂的构建。
此外,S 型具有分散性,因此可用作多种树脂应用的高含量填充材料。 S型纳米二氧化硅比p型纳米二氧化硅成本更低。由于在涂料、电子和清漆等各个领域的广泛应用,有助于降低粘度、增加流动性和毛边。因此,所有这些因素使其可用作液体型密封剂的填料、外部添加剂材料和烧结材料。所有这些因素都推动了预测期内全球纳米二氧化硅市场的需求。
然而,接触二氧化硅粉尘可能会导致呼吸系统问题和肺部问题,持续接触二氧化硅可能会导致眼睛刺激或损伤以及其他健康影响,包括发烧、发冷、流感样疾病、咳嗽、头痛、和胸闷。由于纳米二氧化硅对健康的有害影响,政府对化妆品、个人护理品、食品和饮料等各种消费品中使用纳米二氧化硅的严格规定预计将进一步抑制全球纳米二氧化硅市场的增长。此外,纳米二氧化硅的替代品,例如纳米二氧化钛、纳米二氧化钛和纳米氧化铝,在与混凝土一起使用时提供更好或相当的结果。这些纳米材料充当混凝土填料,有助于降低水合速率和沈降时间。由于二氧化钛是天然获得的钛氧化物,因此在涂料、化妆品、医药等行业有着更广泛的应用。二氧化钛具有良好的抗紫外线性能,这拓宽了其在化妆品和医药产品中的应用。它用于防晒霜中以阻挡 UVA 和 UVB 射线。 FDA 批准纳米二氧化钛用于食品、药品和化妆品,引起了製造商的兴趣,从而限制了市场的增长。
根据给定的市场数据,TechSci Research 可根据公司的具体需求提供定制服务。该报告可以使用以下自定义选项:
Global Nanosilica market is anticipated to grow significantly through 2028 due to the growing demand from the rubber industry. In 2021, Thailand produced 4.83 million metric tons of natural rubber.
Global nano silica market is expected to expand during the projected period due to increasing demand from the rubber industry as it increases the mechanical strength of vulcanized rubber by acting as a reinforcing agent. Nanosilica has large surface energy, strong surface adsorption due to its fine particle, high chemical purity, and good dispersion. Moreover, due to increasing demand from the construction industry due to increased interest of consumers for houses and flats, the demand for nano silica increases as nano silica act as a strengthening agent in concrete, which improves its mechanical properties such as durability, compressive strength, and flexural strength. Along with this, Nanosilica is also used in the superhydrophobic coating, which helps to create a high-water contract and low sliding angle.
For instance, in 2019, the federal government in the U.S. spent USD 29 billion on infrastructure and transferred an additional USD 67 billion in infrastructure spending to states.
Furthermore, nano silica has wide applications in various industries, including healthcare & medicine, rubber, plastic, food, cosmetics, electronics, agriculture, batteries, gypsum, and others. Nanosilica coatings are used in the aerospace industry to reduce aerodynamic drag and prevent safety hazards. Therefore, the increasing demand for nanosilica for various applications led to the growth of the market in the projected period.
Nanosilica is worked as a reinforcing agent, which is used to strengthen vulcanized rubber's mechanical properties. Nanosilica may also be used to boost the tensile strength of natural rubber from 0.33 MPa to 15 MPa. Nanosilica is increasingly used as an additive in different types of rubber, such as silicone rubber, styrene-butadiene rubber (SBR), natural rubber, nitrile rubber (NBR), ethylene acrylic rubber (AEM) and ethylene propylene diene monomer (EPDM). Nanosilica also enhances other mechanical properties of the rubber, such as anti-friction, toughness, anti-aging, and durability.
For instance, in May 2022, Z.C. Rubber launched Westlake and Goodride ultra-high-performance passenger car tires for the European market, which use Nanosilica to improve their grip.
Additionally, Nanosilica is used as a reinforcing agent in concrete, which improves its mechanical properties such as flexural strength, compressive strength, and durability. It makes concrete more workable and less permeable. Along with this, nano silica also provides longer service life and reduced maintenance costs. In addition, nano silica-based materials are also more environmentally friendly, as they require less energy and resources to produce. Nanosilica also reduces water absorption and chloride penetration in cement concrete, which makes concrete a high-potential, high-performance, and quick restoration material. The rising demand for high-performance concrete in the construction industry increases the demand for nano silica.
For instance, Astrra Chemicals produce nano silica which is widely used in cement and concrete to improve performance because of its pozzolanic reactivity besides the pore-filling effect.
Therefore, increasing demand for nano silica from the construction and rubber industry will lead to the growth of the nanosilica market globally in the upcoming years.
In the current battery technology, the liquids and solids interact, causing a low-level discharge. This decreases the shelf life of a battery. To overcome this problem, Nanomaterials can be used as a coating to separate the electrodes from any liquids in the battery when the battery is not in use which further helps to increase the life of the battery. Nanosilica is used in batteries as it is promising for high-capacity anodes in lithium batteries. With the increase in demand for electric vehicles, the demand for lithium-ion batteries also increases.
For instance, according to the Global E.V. Outlook 2022, consumers spent USD 250 billion on electric vehicle purchases in 2021, which is a 65% increase over 2021. Furthermore, global sales of electric cars have kept rising strongly in 2022, with 2 million sold in the first quarter, up 75% from the same period in 2021.
Therefore, a shift towards electric vehicles in developed and developing countries would increase the growth of vehicles, resulting in an increased demand for nano silica.
Additionally, Nanosilica is used as a filler in electronic materials such as encapsulants, adhesives, and coatings. It enhances the electrical, thermal, and mechanical properties of these materials, making them more efficient and durable. Moreover, nano silica is used as a tool to investigate many approaches of medical science in many ways, such as drug delivery agents, which help to improve the bioavailability and efficacy of drugs, implants & coatings, where it enhances their biocompatibility and reduces the risk of infection.
For instance, according to a study by Washington University (G.W.) Cancer Center, the nanoparticle-encapsulated doxorubicin is promising in the treatment of triple-negative carcinoma.
Thus, the utilization of nano-silica in the battery and healthcare sectors propels the growth of the Global nano silica market in the projected years.
P-type nano-silica is widely utilized to provide premium filler materials for various kinds of resins. Alongside being an improvement filler for concrete and a variety of composites used in the construction sector, it is also utilized as a replacement for plastics and rubber. The construction industry's growing need for P-type nano-silica and the increase in both residential and commercial buildings also collectively help in reducing the thermal cracking produced by the heat of cement hydration, increased durability towards the attack of acid waters & sulphates, and the expansion of biomedical applications including bioimaging, drug delivery, and adjuvant treatments.
For instance, CD Bioparticles produce Nanosilica particles for various applications such as nucleic acid detection and purification, drug and gene delivery, and imaging contrast agents' construction.
Additionally, the S-type has a dispersivity property, due to which it can be used as high content filler material for several resin applications. S-type Nano silica is less costly than p-type Nano silica. Due to wide applications in various sector, including coatings, electronics, and varnishes, which help to reduce viscosity, increases fluidity and flash. Thus, all these factors make it useful for filler for liquid-type sealants, external additive materials, and sintering materials. All these factors drive Global Nanosilica market demand during the forecast period.
However, exposure to silica dust could lead to respiratory problems and lung problems, and continuous exposure to silica could lead to irritation or damage to the eyes as well as other health effects, including fever, chills, flu-like illness, cough, headache, and chest tightness. Strict government rules regarding the use of nano-silica in various consumer products such as cosmetics and personal care, food & beverages due to their harmful impact on health further is expected to restrain the growth of global nanosilica market. Moreover, the availability of substitutes for nano-silica, such as nano titanium dioxide, nano titanium oxide, and nano aluminum dioxide, provide better or equivalent results when used with concrete. These nanomaterials act as concrete fillers and help in reducing hydration rate and settling time. As titanium oxide is a naturally obtained oxide of titanium, it has a wider range of applications in coatings, cosmetics, and pharmaceutical industries. Titanium oxide has good U.V. resistance, which widens its application in cosmetic and pharmaceutical products. It is used in sunscreens to block UVA and UVB rays. The approval of nano titanium dioxide by the FDA for use in food, drugs, and cosmetics has gained manufacturers' interest resulting in restraining the growth of the market.
Global Nanosilica Market is segmented based on type, application, and region. Based on type, the market is fabricated into P-Type (Porous), S-Type (Spherical), and Others. Based on application, the market is categorized into rubber, coatings, plastics, battery, and others. Based on region, the market is divided into North America, Europe, Asia Pacific, South America, Middle East & Africa, and By Company.
Evonik Industries AG, NanoPore Incorporated, nanocomposite, Bee Chems, Cabot Corporation, AkzoNobel N.V., Wacker Chemie AG, Nanostructured & Amorphous Materials, Inc., Fuso Chemical Co., Ltd., U.S. Research Nanomaterials, Inc. are some of the key players of Global Nanosilica Market.
In this report, Global nanosilica 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 in global Nanosilica market.
With the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report: