市場調查報告書
商品編碼
1218825
到 2028 年的全球碳化矽纖維市場預測 - 按相(非晶、結晶)、應用(非複合、複合)、形狀(編織、連續、其他)、應用和區域分析Silicon Carbide Fibers Market Forecasts to 2028 - Global Analysis By Phase (Amorphous and Crystalline), Usage (Non-composites and Composites), Form(Woven, Continuous and Other Forms), Application and By Geography |
根據 Stratistics MRC 的數據,2022 年全球碳化矽纖維市場規模將達到 6665 億美元,預計到 2028 年將達到 36559 億美元,預測期內復合年增長率為 32.8%。
碳化矽是一種含有矽和碳的半導體,是世界上最堅硬的材料之一。碳化矽纖維基本上由碳化矽晶體和碳、矽和氧的無定形混合物製成。是一種以碳化矽分子為主要成分的高性能陶瓷材料。在航空航天、能源、電力等領域迅速普及的輕量化材料之一。具有密度低、重量輕、剛度高、耐化學腐蝕、抗拉強度高、耐高溫等高性能特性。
據世界核協會稱,亞洲是發電量顯著增長的主要地區。中國、印度、日本和韓國等國家正在迅速投資建設新的核電站,以遏制燃煤電廠造成的空氣污染,滿足日益增長的清潔電力需求。
市場動態
促進者
對碳化矽纖維的需求增加
碳化矽纖維具有耐熱性高、化學穩定性好、模量高、重量輕、經久耐用等多種性能。這使得它們適用於各種航空航天應用。此外,人們越來越關注減輕飛機的整體重量,這增加了對先進輕質材料的需求。所有這些因素都在推動市場的增長。
抑製劑
製造成本高
碳化矽纖維的高價格限制了它們在各種應用中的採用。碳化矽的進一步發展需要更大的機器,增加了總體成本,進而推高了價格。此外,由於碳化矽在自然界中幾乎不存在,因此公司使用過多的熔爐技術從矽中製造化合物。從而影響產品的製造成本和加工成本。因此,這些因素是市場增長的主要製約因素。
機會
陶瓷複合材料需求飆升
在陶瓷基複合材料 (CMC) 中越來越多地採用碳化矽基纖維將推動市場增長。這種增長歸因於優良的耐熱性和高機械強度等有益特性。此外,該纖維還具有耐腐蝕、抗氧化、電阻率可調、密度低等優良性能,是其他無機纖維無法比擬的理想增強材料。這些因素正在推動市場擴張。
威脅
對環境造成的影響
碳化矽陶瓷廣泛應用於高溫領域。原材料、製造過程和應用領域都會造成能源消耗和污染,並對環境造成很大影響。此外,碳化矽並非作為天然礦物生產,其生產需要先進的熔爐技術。因此,碳化矽生產需要廣泛的爐技術。然而,形狀和尺寸的限制阻礙了市場的增長。
COVID-19 的影響
與 COVID-19 大流行相關的政府法規擾亂了航空航天業,並對市場產生了重大影響。遏制、供應鏈中斷和消費者凍結都是這場大流行帶來的。受過良好教育和熟練工人的嚴重短缺迫使飛機製造商關閉工廠,導致飛機生產停頓。此外,由於世界各地的各種政府法規,製造活動已經停止。
連續段預計在預測期內最大
由於高強度、高耐熱性和耐腐蝕性等特性,預計連續纖維行業將有良好的增長。這些纖維因其在高輻射環境下的優異性能而備受核電行業青睞。大多數連續纖維增強陶瓷基複合材料具有出色的減重效果和高韌性。因此,這些是推動市場增長的因素。
預計航空航天和國防部門在預測期內的複合年增長率最高
由於碳化矽纖維在飛機製造中的應用範圍不斷擴大,預計航空航天和國防領域在預測期內將呈現最快的複合年增長率。碳化矽纖維複合材料正在迅速進入航空推進發動機渦輪和燃燒部分的部件製造領域。由於重量輕、耐熱性高,這種纖維增強複合材料有望廣泛替代飛機中的金屬部件,提高飛機發動機的燃油效率。
市場份額最大的地區
由於其優越的強度和耐熱性,預計亞太地區在預測期內將佔據最大的市場份額。製造商加大力度將碳化矽納入其產品,預計也將對該地區的市場增長產生積極影響。
複合年增長率最高的地區
由於通用和商業航空以及國防工業對這些纖維的需求不斷增加,預計北美在預測期內的複合年增長率最高。此外,國防和核工業為開發高性能複合材料在高溫應用中的潛力而進行的大量投資正在增加北美碳化矽纖維市場的潛力。
重大發展
2021 年 9 月,BJS Ceramics GmbH 向巴伐利亞商務部展示了第一條巴伐利亞碳化矽纖維。
2021年6月,Nippon Chemi-Con Co., Ltd.和Asahi Carbon Co., Ltd.就鋰離子電池導電添加劑“NH Carbon TM”的量產技術開發和製造達成協議。
2018 年 4 月,Haydale Technologies 宣布擴大其優質產品組合。Haydale Technologies 將提供各種尺寸的超純碳化矽微粒。
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According to Stratistics MRC, the Global Silicon Carbide Fibers Market is accounted for $666.5 billion in 2022 and is expected to reach $3655.9 billion by 2028 growing at a CAGR of 32.8% during the forecast period. Silicon Carbide is a semiconductor containing silicon and carbon and is one of the toughest materials in the world. The silicon carbide fibers basically are manufactured from the silicon carbide crystallites and an amorphous mix of carbon, silicon, and oxygen. It is a high-performance ceramic material composed mainly of silicon carbide molecules. This is one of the emerging lightweight materials, which is progressively expediting in aerospace, energy, and power industries. It has high-performance properties such as low density, lightweight, high stiffness, high chemical resistance, high tensile strength, and high-temperature tolerance.
According to World Nuclear Association, Asia is the main region where electricity generating capacity is significantly rising. Countries such as China, India, Japan, and South Korea among others are rapidly investing to build new nuclear power plants which are driven by the need to curb air pollution from coal-fired plants and to meet the rising demand for clean electricity.
Market Dynamics:
Driver:
Increase in the demand for silicon carbide fiber
Silicon carbide fibers exhibit various properties including high heat resistance, chemical stability, high modulus, lightweight, and durability, among others. This makes them ideal for use in a variety of aerospace applications. In addition, the growing focus on reducing the overall weight of the aircraft has increased the demand for advanced and lightweight materials. All these factors are driving the growth of the market.
Restraint:
High production costs
The high price of silicon carbide fibers restrains its adoption in various applications. Increasing advancement in silicon carbide leads to the requirement of big machinery, which raises overall cost and thereby increases the prices. Furthermore, naturally silicon carbide is rarely available, therefore companies use excessive furnace techniques to manufacture the compound from silicon. As a result, this impacts product manufacturing and processing costs. Hence, such factors act as a major restraint for the market growth.
Opportunity:
Surging demand for ceramic metric composites
The rising adoption of silicon carbide-based fibers in Ceramic Matrix Composites (CMCs) will flourish the market growth. The growth is attributed to beneficial characteristics such as superior thermal resistance and high mechanical strength. Additionally, this fiber offers excellent properties, including corrosion resistance, oxidation resistance, adjustable resistivity, and low density, making it an ideal reinforcement and incomparable to other inorganic fibers. These factors are boosting the market expansion.
Threat:
Environmental effects
Silicon Carbide ceramics are widely used at high-temperature fields. The raw materials, manufacture process and application fields are all related to heavy energy consumption and pollutions, and bring high environmental loads. Silicon carbide is not available as natural mineral. Hence excessive furnace techniques are needed to produce the compound. However, it is available in limited shapes and sizes are the factors hampering the market growth.
COVID-19 Impact
The COVID-19 pandemic-related government restrictions that disrupted the aerospace industry had a substantial impact on the market. Containment, disruptions in the supply chain, and a freeze in consumer activities were all brought on by this pandemic. Due to a serious lack of educated and skilled workers, aircraft manufacturers were compelled to close their plants, and as a result, aircraft manufacturing remained suspended. Manufacturing activities have been halted due to various government regulations across the globe.
The continuous segment is expected to be the largest during the forecast period
The continuous segment is estimated to have a lucrative growth, due to properties like high strength, high heat, and corrosion resistance. These fibers provide superior performance under high-radiation environment, thus, generating high traction from nuclear power generation industry. A majority of ceramic matrix composites reinforced with continuous filaments offer superior weight saving and high toughness. Hence, these are the factors fueling the growth of the market.
The aerospace & defence segment is expected to have the highest CAGR during the forecast period
The aerospace & defence segment is anticipated to witness the fastest CAGR growth during the forecast period, due to rising application scope of silicon carbide fibers in aircraft manufacturing. Silicon carbide fiber composites are witnessing rapid penetration in component manufacturing for turbine & combustion section of aero-propulsion engines. This fibers reinforced composite are broadly replacing the metal parts in aircraft owing to their light weight and heat resistance, which is expected to enhance the fuel efficiency of aircraft engines.
Region with largest share:
Asia Pacific is projected to hold the largest market share during the forecast period owing to their superior strength and temperature resistance and continuous fibers are increasing in demand in energy and power applications. Rising efforts by manufacturers to incorporate silicon carbide in their products are expected to positively impact the market growth in the region.
Region with highest CAGR:
North America is projected to have the highest CAGR over the forecast period, owing to the rise in demand for these fibers in general and commercial aviation, and defence industries. Sizable investments made by the defence and nuclear industry on leveraging the potential of high-performance composites in high-temperature applications have also augmented the potential of the silicon carbide fibers market in.
Key players in the market
Some of the key players profiled in the Silicon Carbide Fibers Market include COI Ceramics Inc, BJS Ceramics GmbH, Haydale Graphene Industries PLC, GE Aviation, Nippon Carbon Co. Ltd, Matech Solutions, Specialty materials inc., NGS Advanced Fibers Co. Ltd, Ube Industries Ltd, SkySpring Nanomaterials, Inc., Suzhou Saifei Group Ltd, Nanoshel LLC, Insanco inc, American Elements, Ningxia anteli carbon material co. Ltd, Calix ceramic solutions, Grindwell Norton ltd, Volzhsky Abrasive Works, Triveni Interchem Pvt. Ltd. and Aremco Products, Inc.
Key Developments:
In September 2021, BJS Ceramics GmbH presents its first Silicon Carbide Fibers made in Bavaria to the Bavarian Ministry of Commerce.
In June 2021, Nippon Chemi-Con Corporation and Asahi Carbon Co., Ltd. have agreed to collaborate on the development of mass production technology and manufacturing of NH CarbonTM, a conductive assistant for lithium-ion batteries.
In April 2018, Haydale Technologies announced an expansion to its portfolio of quality products. Haydale Technologies planned to offer ultrahigh-purity silicon carbide particulate in various sizes.
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