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市場調查報告書

商品編碼

1738809

2026-2032年氧化鋅市場（依等級、應用、最終用途產業及地區）

Zinc Oxide Market By Grade, Application, End Use Industry, & Region for 2026-2032

出版日期: 2025年05月06日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

2026-2032年氧化鋅市場評估

氧化鋅以其多功能性而聞名，是各行各業的必需品。橡膠產業仍然是氧化鋅的最大消費產業，將其用作硫化劑。它提高了橡膠製品的強度、柔韌性和耐用性，而這些正是汽車輪胎、鞋類和工業橡膠零件所必需的。汽車產業的擴張，尤其是電動車的興起，正在推動對高品質橡膠零件的需求，這反過來又推動了對氧化鋅的需求，推動市場在2024年的收益突破45.4億美元，到2032年估值達到約66.9億美元。

日益成長的環境問題和向永續實踐的轉變正在推動氧化鋅市場的發展。氧化鋅被認為是環保材料，並因其在再生能源來源中的應用而日益普及。氧化鋅用於製造太陽能電池和能源儲存設備，這些設備對於向清潔能源來源轉型至關重要。對減少碳排放的日益重視以及可再生能源基礎設施支出的增加，正在推動氧化鋅的需求，其需求量在2026年至2032年間的複合年成長率將達到4.98%。

氧化鋅市場定義/概述

氧化鋅 (ZnO) 是一種用途廣泛的無機化合物，因其獨特的物理和化學性質而被廣泛應用於各種工業領域。氧化鋅的晶體結構由鋅原子和氧原子交替堆疊的晶格組成，使其具有半導體特性和光學透明性。氧化鋅在常溫下具有 3.37 eV 的寬能隙，是各種電子和光電裝置的有用材料，包括發光二極體(LED)、雷射二極體和檢測器。此外，其 60 meV 的高激子結合能促進了激子的高效產生和穩定性，從而提高了光電應用的性能。

ZnO 廣泛用於製造壓敏電阻，這是一種電壓相關電阻，用於保護電路免受電壓尖峰的影響。其半導體特性也使其成為顯示器（尤其是液晶顯示器 (LCD) 和發光二極體(LED)）中使用的薄膜電晶體 (TFT) 的理想材料。基於 ZnO 的 TFT 具有更高的電子遷移率，從而提高了其性能。 ZnO 也用於製造表面聲波 (SAW) 裝置，這是通訊和訊號處理系統中濾波器和振盪器的關鍵組件。

氧化鋅（ZnO）是一種軟性且用途廣泛的材料，因其高電子遷移率、寬禁帶和強烈室溫發光等獨特特性，在未來各種應用領域中擁有巨大的潛力。未來，ZnO 的應用將涵蓋電子、光電子、醫學、能源和環境保護等廣泛領域，而這些領域都將受益於 ZnO 奈米技術和材料科學的進步。

橡膠生產中產品採用率的提高會推動氧化鋅市場的發展嗎？

橡膠產業正在推動氧化鋅市場的發展，因為氧化鋅在橡膠製造中具有重要的意義和廣泛的適應性。這種化合物是橡膠硫化工序中的關鍵成分，而硫化是一種化學反應，可以增強橡膠製品的耐久性、強度和彈性。硫化是指橡膠內部聚合物鏈的交聯，而氧化鋅是此過程中的關鍵促進劑，可加速化學反應並確保最終產品達到所需的品質。

氧化鋅在橡膠中具有優異的附著力，這對於維持輪胎的結構完整性至關重要。這種化合物有助於在輪胎製造過程中，橡膠各層與鋼帶和織物增強層等其他部件之間形成牢固的粘合。因此，輪胎不僅更耐用，而且在使用過程中不易出現脫層和其他結構缺陷，因此更安全。氧化鋅在輪胎生產中的重要性不容小覷，因為它直接影響輪胎的性能、安全性和使用壽命。

橡膠產業推動氧化鋅市場的關鍵作用在於該化合物在硫化工序中的重要作用及其提升橡膠產品性能的能力。氧化鋅有助於提高橡膠的耐久性、強度和彈性，使其成為輪胎製造和其他橡膠應用的關鍵成分。隨著對高性能環保橡膠產品的需求不斷成長，氧化鋅在橡膠產業中的作用預計將進一步提升。隨著材料科學和技術的不斷進步，氧化鋅將繼續在滿足橡膠產業不斷變化的需求以及支持其永續性和創新方面發揮關鍵作用。

限制產品使用的法規會阻礙氧化鋅市場嗎？

氧化鋅 (ZnO) 是一種用途廣泛的化合物，廣泛應用於橡膠、陶瓷、化學品、農業以及油漆和塗料等行業。儘管氧化鋅性能優異且用途廣泛，但它是一種有毒物質，其潛在的健康危害和環境影響已引發嚴重的擔憂。因此，氧化鋅的生產和使用面臨許多限制，並制定了嚴格的法規來降低這些風險。

氧化鋅最大的健康危害是吸入後會產生金屬菸熱。金屬煙熱是指吸入細小金屬顆粒（尤其是氧化鋅煙霧）後引起的胸悶、咳嗽和肌肉疼痛等症狀。這些症狀通常在接觸後數小時出現，最長永續48小時。金屬煙熱通常具有自限性，不會造成長期健康問題，但長期暴露於氧化鋅蒸氣可能會產生更嚴重的影響。長期暴露於氧化鋅也可能導致其他長期健康影響，包括呼吸問題和器官損傷，以及生殖功能損傷。

氧化鋅是一種用途廣泛的化學品，廣泛應用於各行各業。然而，由於其危險性及其相關的健康危害，為保護工人和消費者，相關法規和暴露限值已訂定。遵守這些法規對使用氧化鋅的企業構成了相當大的挑戰，需要在安全基礎設施和持續監控方面進行大量投資。如何平衡氧化鋅的優勢與合規的成本和複雜性，是橡膠、陶瓷、化學、農業以及油漆塗料行業的企業面臨的關鍵問題。隨著監管環境的不斷發展，業界必須謹慎主動地應對與氧化鋅相關的健康和環境問題，同時探索替代材料和技術。

Ace Chemie Zynk Energy Limited
AG CHEMI GROUP sro
CCL
Ever Zinc
Zinc Nacional
HAKUSUI TECH
LANXESS
IEQSA
Neo Zinc Oxide
Pan-Continental Chemical Co., Ltd.
Rubamin
Tata Chemicals Ltd.
TOHO ZINC CO., LTD.
TP Polymer Private Limited
Upper India
Weifang Longda Zinc Industry Co., Ltd.
Yongchang zinc industry Co., Ltd.
Zinc Oxide Australi
Zochem, Inc

第11章市場展望與機會

新興技術
未來市場趨勢
投資機會

第12章附錄

簡稱列表
來源和參考文獻

簡介目錄

Product Code: 38580

Zinc Oxide Market Valuation - 2026-2032

Zinc oxide is well-known for its multifunctional qualities making it a must-have element in a variety of industries. The rubber sector which continues to be the greatest consumer of zinc oxide uses it as a vulcanizing agent. It improves the strength, flexibility, and durability of rubber products which are necessary in car tires, footwear, and industrial rubber components. As the automotive sector expands, particularly with the rise of electric vehicles, there is a greater demand for high-quality rubber components which raises the requirement for zinc oxide by enabling the market to surpass a revenue of USD 4.54 Billion valued in 2024 and reach a valuation of around USD 6.69 Billion by 2032.

Rising environmental concerns and a shift towards sustainable practices have boosted the zinc oxide market. Zinc oxide is regarded environmentally friendly and its use in renewable energy sources is gaining popularity. It is utilized in the manufacture of solar cells and energy storage devices which are crucial in the move to cleaner energy sources. The growing emphasis on decreasing carbon footprints and increasing expenditures in renewable energy infrastructure are driving up demand for zinc oxide by enabling the market to grow at a CAGR of 4.98% from 2026 to 2032.

Zinc Oxide Market: Definition/ Overview

Zinc oxide (ZnO) is a versatile inorganic compound with a wide range of uses across industries due to its unique physical and chemical properties. Its crystalline structure is made up of alternating layers of zinc and oxygen atoms forming a lattice that gives it both semiconductor properties and optical transparency. Zinc oxide has a wide band gap at 3.37 eV at ambient temperature making it a useful material for a variety of electronic and optoelectronic devices such as light-emitting diodes (LEDs), laser diodes, and photodetectors. Furthermore, its high exciton binding energy of 60 meV promotes efficient exciton production and stability improving its performance in optoelectronic applications.

ZnO is widely utilized in the manufacture of varistors which are voltage-dependent resistors that protect circuits from voltage spikes. Its semiconducting qualities also make it an excellent choice for thin-film transistors (TFTs) used in displays particularly liquid crystal displays (LCDs) and light-emitting diodes (LEDs). ZnO-based TFTs have high electron mobility which enhances their performance. ZnO is also employed in the manufacture of surface acoustic wave (SAW) devices which are critical components in filters and oscillators used in telecommunication and signal processing systems.

Zinc oxide (ZnO), a flexible and multifunctional material has great potential for a variety of future applications due to its distinctive features such as high electron mobility, wide bandgap, and strong room-temperature luminescence. Looking ahead, the future usage of zinc oxide will encompass a wide range of sectors including electronics, optoelectronics, medicine, energy, and environmental protection all of which will benefit from ongoing advances in zinc oxide nanotechnology and material science.

Will the Increasing Product Adoption in the Rubber Production Drive the Zinc Oxide Market?

Zinc oxide is so important and adaptable in rubber manufacture, the rubber sector drives the zinc oxide market. This compound is an important component of the rubber vulcanization process which is a chemical reaction that increases the durability, strength, and resilience of rubber products. Vulcanization is the cross-linking of polymer chains within the rubber, and zinc oxide is an important accelerator in this process speeding up the chemical reactions and ensuring the necessary qualities of the end product.

Zinc oxide has good adhesive qualities in rubber which is critical for maintaining tire structural integrity. The compound contributes to the formation of strong connections between the various layers of rubber and other elements used in tire manufacture such as steel belts and fabric reinforcements. As a result, tires are not only more durable but also safer as they are less prone to delamination or other structural defects while in use. The importance of zinc oxide in tire production cannot be emphasized since it has a direct impact on tire performance, safety, and lifespan.

The rubber industry's crucial role in driving the zinc oxide market is highlighted by the compound's critical involvement in the vulcanization process and capacity to improve rubber product performance. Zinc oxide's contributions to rubber durability, strength, and resilience make it a key component in tire manufacturing and other rubber applications. As the need for high-performance, environmentally friendly rubber products grows, zinc oxide's role in the rubber industry is expected to rise even higher. With continued advances in materials science and technology, zinc oxide will continue to play an important role in satisfying the rubber industry's changing needs and supporting its efforts toward sustainability and innovation.

Will Regulations Limiting the Product Use Hamper the Zinc Oxide Market?

Zinc oxide (ZnO) is a versatile compound with a wide range of applications in industries such as rubber, ceramics, chemicals, agriculture, and paints and coatings. Despite its positive characteristics and widespread use, zinc oxide is a toxic substance that has prompted serious concerns about its potential health dangers and environmental impact. As a result, the manufacturing and use of zinc oxide have faced several constraints and stringent laws aimed at mitigating these risks.

The biggest health hazard with zinc oxide is that it can produce metal fume fever if inhaled. Metal fume fever is a sickness that causes symptoms such as chest tightness, coughing, and muscle aches after inhaling small metal particles particularly zinc oxide fumes. These symptoms usually occur several hours after exposure and last for up to 48 hours. While metal fume fever is typically self-limiting and does not cause long-term health problems, prolonged exposure to zinc oxide vapors can have more serious implications. Chronic zinc oxide exposure has been related to reproductive harm as well as other long-term health consequences such as respiratory problems and organ damage.

Zinc oxide is a versatile chemical with numerous applications in various sectors. However, its dangerous nature and accompanying health hazards have resulted in tight laws and exposure limits designed to safeguard workers and customers. Compliance with these rules presents considerable hurdles for enterprises that use zinc oxide necessitating large investments in safety infrastructure and continual monitoring. The need to balance the benefits of zinc oxide against the costs and complications of regulatory compliance is a critical issue for enterprises in the rubber, ceramics, chemical, agriculture, and paints and coatings industries. As the regulatory landscape continues to evolve, industries must be alert and proactive in addressing the health and environmental issues connected with zinc oxide while also investigating alternate materials and technologies.

Category-Wise Acumens

Will the Increasing Affordability and Versatility Drive the Grade Segment?

In the dynamic zinc oxide industry, the dominance of a particular grade is frequently determined by the unique requirements of end-use applications as well as manufacturer preferences. Zinc oxide produced indirectly such as the French technique is known for its high purity and low impurity concentration, and is therefore preferred in industries where quality is crucial. Pharmaceuticals, cosmetics, and specialty chemicals industries which require high purity criteria frequently use indirect process zinc oxide to achieve better product performance and consistency. Furthermore, the indirect approach may provide benefits in applications that need precise control over particle size and dispersion adding to its dominance in niche sectors.

Direct process zinc oxide which is commonly made using the American method is regarded for its low cost and adaptability in a wide range of applications. While it may be slightly less pure than its indirect cousin, direct process zinc oxide is widely used in sectors such as rubber, ceramics, and paints and coatings where cost-effectiveness and consistent quality are critical. Its extensive availability and affordable pricing make it a popular choice among producers looking for cost-effective solutions without sacrificing performance. Furthermore, the direct process's capacity to manufacture zinc oxide in huge numbers using relatively simple production procedures contributes to its dominance in mainstream industrial applications driving its market share in numerous sectors around the world.

Will the Increasing Demand in Automotive and Construction Sector Drive the Application Segment?

The rubber sector is widely regarded as the most important use for zinc oxide. Zinc oxide serves as an activator in rubber compounds increasing their tensile strength, abrasion resistance, and heat conductivity. This application is critical to the production of a variety of rubber products across industries including car tires, industrial belts, and footwear. Rubber product demand is continually high driven by the automotive, construction, and consumer goods industries assuring a stable and considerable market for zinc oxide in the rubber industry.

The cosmetics and personal care industry is also growing as a major application for zinc oxide. With increasing knowledge of the detrimental effects of UV radiation on the skin and a growing need for skincare products that provide UV protection, zinc oxide's function in sunscreens, skincare products, and cosmetics has grown critical. Its broad-spectrum UV protection properties combined with its skincare benefits make it a popular ingredient in sunscreen lotions and other skincare products. As concerns about skin cancer and premature aging grow, demand for zinc oxide-based sunscreens and skincare products is projected to strengthen its position in the cosmetics and personal care industries.

Country/Region-wise Acumens

Will the Increasing Pharmaceutical Industry Drive the Asia Pacific Region?

The Asia Pacific region emerged as the dominating force in the zinc oxide market. This impressive market share was driven by the thriving automotive, construction, and personal care and cosmetics industries in significant economies such as India, China, Japan, and South Korea. These countries industrial sectors have grown at an exponential rate owing to rapid urbanization, infrastructure expansion, and rising consumer demand. China, as the world's largest automotive market has played a significant role in driving zinc oxide demand due to its widespread use in tire manufacture where it improves rubber characteristics and provides vital UV protection.

The pharmaceutical industry's rapid growth in Asia Pacific has emerged as a major driving force behind the rising demand for zinc oxide. Zinc oxide with its well-documented anti-inflammatory, antibacterial, drying, and ultraviolet protection qualities has a wide range of applications in pharmaceutical formulations from topical ointments and creams to dietary supplements and medicinal powders. Zinc oxide demand is predicted to skyrocket in countries such as China and India where healthcare expenditures and pharmaceutical R&D investments are on the rise as manufacturers seek creative solutions to treat diverse dermatological disorders, wound care, and skincare demands.

The Asia Pacific region is expected to maintain its dominance in the zinc oxide market owing to ongoing industrialization, urbanization, and economic development. With the automotive, construction, personal care and cosmetics, and pharmaceutical industries predicted to experience continued growth and innovation, demand for zinc oxide is expected to rise further. Furthermore, emerging trends such as the adoption of advanced manufacturing technologies, an increased emphasis on sustainability and environmental regulations, and the rise of digitalization and e-commerce platforms are expected to reshape the dynamics of the region's zinc oxide market presenting new opportunities and challenges for stakeholders throughout the supply chain.

Will Increasing Demand Towards Natural and Organic Trend Drive the Region in Europe?

Zinc oxide demand is driven by a number of complex factors including regulatory landscapes, consumer behavior dynamics, and demographic trends. The region has a strong preference for natural and organic products which perfectly complements zinc oxide's natural origin and eco-friendliness. This alignment positions zinc oxide as a top choice for consumers that value sustainability and environmental stewardship in their purchasing decisions. Furthermore, the compound's compliance with high pharmaceutical requirements increases its appeal, notably in the pharmaceutical industry where it is widely used in wound care and various skin treatments.

The European market's attraction to natural and organic trends emphasizes the relevance of eco-consciousness and sustainability in customer preferences. As customers value environmentally friendly and chemical-free products, zinc oxide emerges as a popular ingredient due to its natural origin and low environmental impact. This preference for eco-friendly options stems from increased awareness of environmental issues and a desire to reduce the ecological impact of consumer decisions. As a result, manufacturers and suppliers are strategically using zinc oxide's eco-friendliness to meet the growing demand for sustainable products across a variety of industries.

A variety of factors influence the European zinc oxide market including regulatory situations, consumer behavior dynamics, and demographic changes. The region's strong preference for natural and organic trends combined with zinc oxide's eco-friendly character and compliance with pharmaceutical standards make it a top choice for consumers looking for safe, effective, and sustainable solutions. As manufacturers and formulators continue to innovate and develop new formulations that take use of zinc oxide's diverse qualities, the compound's significance in the cosmetic and pharmaceutical industries is likely to rise even further boosting market growth and innovation in the coming years.

Competitive Landscape

The zinc oxide market is a dynamic and competitive space, characterized by a diverse range of players vying for market share. These players are on the run for solidifying their presence through the adoption of strategic plans such as collaborations, mergers, acquisitions, and political support. The organizations are focusing on innovating their product line to serve the vast population in diverse regions.

Some of the prominent players operating in the zinc oxide market include:

Ace Chemie Zynk Energy Limited

AG CHEMI GROUP s.r.o.

CCL

EverZinc

Zinc Nacional

HAKUSUI TECH

LANXESS

IEQSA

Neo Zinc Oxide

Pan-Continental Chemical Co., Ltd.

Rubamin

Tata Chemicals Ltd.

TOHO ZINC CO., LTD.

TP Polymer Private Limited

Upper India

Weifang Longda Zinc Industry Co., Ltd.

Yongchang zinc industry Co., Ltd.

Zinc Oxide Australia

Zochem, Inc.

Latest Developments

In June 2022, Aterian formed a collaboration with US Zinc and EverZinc to create the world's largest zinc specialty firm. The cooperation planned to produce zinc chemical goods for the world's leading zinc chemistry company. In addition, the substance is projected to find use in feed, paints and coatings, rubber, chemicals, textiles, and agriculture.

In December 2023, Bragge-mann reported the successful establishment of a new chemical manufacturing unit at its Heilbronn location. The plant uses 15,000 metric tons of biomass per year to heat its equipment. Briigge-mann's plan is projected to boost its position in the increasing carbon-natural manufacturing society, resulting in improved annual performance.