市场调查报告书
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1197580
超材料市场 - COVID-19 的增长、趋势、影响和预测 (2023-2028)Metamaterials Market - Growth, Trends, and Forecasts (2023 - 2028) |
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预计在 2022 年至 2027 年的预测期内,超材料市场的复合年增长率将超过 24%。
COVID-19 大流行对市场的影响可以忽略不计。 在过去几年中,市场以健康的速度增长。
推动超材料使用的其他主要因素之一是航空航天和国防、电信和消费电子最终用户行业等各种应用的研发活动不断增加。
据估计,天线和雷达领域在超材料应用中所占份额最大。
在最终用户行业中,航空航天和国防部门估计占最大份额。
北美在 2020 年的消费量最高,并主导着全球市场。
天线是超材料最重要的应用之一。 超材料的独特性质被用来改善天线的性能特征。
超材料涂层用于改善辐射和电气调整小型电气和有吸引力的偶极子接收器的特性。 这些天线接收 95% 以 350MHz 传输的信息无线电信标。 使用超材料的贴片接收器可以扩展方向性。
超材料表面天线技术 (MSA-T) 是另一类接收器创新。 超材料表面天线技术 (MSA-T) 是一种无需移动部件或昂贵的载物台移动段即可对大面积高频条进行快速、精确电子控制的技术。
超材料可以改善贴片无线电线路负载并减少到达损耗。 第一个基于超材料的吸收器利用三层,两个金属层和一个介电层,模拟 11.48 GHz 的 99% 吸收。
由于上述因素,预计在预测期内对天线中超材料的需求将会增长。
全球市场以北美为主,其次是欧洲,但亚太地区增长最快,预计到 2024 年将超过北美。
这一增长主要是由于亚洲国家对国防部门投资的增加。
在中国、印度、韩国和巴基斯坦等国家/地区,政府会定期增加国防预算。
中国近期国防开支的增加表明,中国致力于到2035年完成解放军现代化,到2049年将其转变为“世界一流”军队。信号,从而在军事技术领域创造机会。
随着中国数字移动电话用户数量的激增,服务提供商开始担心其现有基础设施的容量限制。 为此,智能天线系统的引入在中国取得了进展。
预计在预测期内,中国将巩固其在全球超材料主要消费国中的地位。
超材料市场部分分散,没有一家公司的份额足以影响市场。 Kymeta Corporation、Metamaterial Technologies Inc.、NKT Photonics、Echodyne Corp. 和 TeraView Ltd 是市场上的主要参与者。
The metamaterials market is anticipated to register a CAGR of over 24% during the forecast period 2022-2027.
The impact of the COVID-19 pandemic on the market was negligible. The market has been growing at a healthy rate in the past few years.
* One of the major factors driving the use of metamaterials is increasing R&D activities for various applications in the aerospace and defense, telecommunication, and consumer electronics end-user industries, among others.
* Among the applications of metamaterials, the antenna and radar segment is estimated to occupy the largest share.
* Among the end-user industries, the aerospace and defense segment is estimated to account for the largest share.
* North America dominated the market globally, with the highest consumption in 2020.
* Antenna is one of the most important applications of metamaterials. The unique property of metamaterials is used to improve the performance characteristics of the antenna.
* Metamaterial coatings are applied to improve the radiation and electrically coordinate the properties of little electric and attractive dipole reception apparatuses. These antennas have 95% of information radio signs originating at 350 MHz. Patch reception devices with metamaterial spread have expanded directivity.
* Metamaterial Surface Antenna Technology (MSA-T) is another class of reception apparatus innovation. It can electronically control a radiofrequency bar, rapidly and unequivocally over wide points, without the requirement for moving parts or costly stage moving segments.
* Metamaterials can improve the addition and decrease the arrival loss of a patch radio wire. The first metamaterial-based absorber utilizes three layers, of which two are metallic layers, and one is a dielectric layer, which provides simulated absorptivity of 99% at 11.48 GHz.
* Owing to the abovementioned factors, the demand for metamaterials in antennas is expected to grow during the forecast period.
* Although North America dominates the global market, followed by Europe, Asia-Pacific is the fastest-growing market and is expected to overtake North America by 2024.
* This growth is majorly due to increasing investments in Asian countries' defense sectors.
* In countries, like China, India, South Korea, Pakistan, etc., governments have been increasing the national defense budget regularly.
* China's recent increase in defense spending sends a clear signal that the country remains committed to completing the modernization of the People's Liberation Army (PLA) by 2035 and transforming the PLA into a "world-class" military by 2049, thus creating opportunities in the military technology sector.
* As the number of digital cellular subscribers is witnessing high growth in China, service providers are increasingly concerned with the limited capacities of the existing infrastructure. This has resulted in more deployment of smart antenna systems in China.
* China is expected to strengthen its position among the globally leading consumers of metamaterials over the forecast period.
The metamaterial market is partially fragmented, with no player having a significant enough share to influence the market. Kymeta Corporation, Metamaterial Technologies Inc., NKT Photonics, Echodyne Corp., and TeraView Ltd, among others, are some of the prominent players in the market.