市场调查报告书
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到 2028 年的超材料市场预测——按类型、应用、最终用户和地区进行的全球分析Metamaterials Market Forecasts to 2028 - Global Analysis By Type, Application, End User and Geography |
根据 Stratistics MRC 的数据,2022 年全球超材料市场规模将达到 8.5978 亿美元,预计到 2028 年将达到 48.2359 亿美元,预计将以 33.3% 的复合年增长率增长。
超材料是具有现有材料所没有的特性的材料。 它使用由金属和塑料等复合材料组成的多元件组件构成。 材料通常被组织成重复模式,其尺度小于它们所影响的现象的波长。 超材料的特性源于其独特构造的结构,而不是源于这些基本的材料属性。
根据美国联邦航空管理局 (FAA) 的数据,由于航空货运量的增加,机队预计到 2030 年将达到 36,500 架。
为了维护和平与安全,所有国家都投资于国防工业。 此外,政府每年都会为该国的军事工业拨出一定数额的预算。 航空航天和国防工业目前处于“超级週期”,部分原因是大量订单积压预计将在未来十年内推动该行业的生产。 在这种背景下,该行业对超材料的需求正在增加。 这种需求将成为预测期下半年市场的主要驱动力。
各种非常昂贵的纳米粒子被用作生产超材料的原材料。 EPD 方法是一种使用电场将带电纳米粒子从溶液沉积到基板上的技术。 大规模製造才刚刚开始,因为超材料的应用有限。 由于生产成本高,世界各地的公司都在努力合成中小型超材料。 因此,缺乏经济实惠的技术来生产工业上足够数量的各种超材料,这阻碍了超材料领域的全部潜力。
在过去十年中,对无线移动通信系统的需求不断增加。 随着物联网 (IoT)、自动驾驶汽车和移动媒体的日益普及,超材料在无线通信系统中的应用有望在预测期内增加。 这些移动通信组件需要既高效又紧凑,而这正是超材料所擅长的。 超材料组件的采用将改变所有无线和移动技术并引领该领域。
使用超材料的产品仍处于研发阶段。 因此,行业公司依靠研究机构和大学来开发研究方法。 因此,超材料的产量极小。 这样的过程不一定适合超材料的大规模生产。 由于缺乏适合大规模生产的技术,超材料的成本很高。 寻找一种低成本的製造工艺来大规模生产超材料是市场上最困难的挑战。
COVID-19 的全球传播对超材料行业产生了相当大的影响。 在冠状病毒爆发期间,全球供应链中断导致全球汽车销量急剧下降,导致企业要么在停工期间关闭,要么以减少的产能运营。 因此,鑑于超材料在提高传感器系统等汽车光学性能方面的重要性,超材料的需求受到阻碍。
由于超材料行业及其在新兴地区日益广泛的使用,预计电磁行业将实现利润丰厚的增长。 电磁超材料是人造材料,其结构具有精心设计的电磁特性,可提供天然材料和復合材料难以或不可能获得的各种响应。 负折射率(负磁和电响应)、完美(亚波长)透镜和电磁隐形斗篷是超材料的重要特性。 这些特征是该细分市场扩张背后的驱动力。
在预测期内,天线和雷达部分预计将以最快的复合年增长率增长。 超材料最重要的用途之一是用作天线。 已经利用超材料的独特特性来增强天线的性能特征。 超材料涂层用于增强电学微不足道但视觉上令人愉悦的偶极子接收器的辐射和可调谐能力。 超材料表面天线 (MSA-T) 的开发属于新型接收器创新。 MSA-T 可以在很宽的范围内快速准确地调整高频条,而无需使用移动部件或昂贵的载物台移动段。 由于上述原因,预计在预测期内,天线和雷达对超材料的需求将会增加。
由于包括航空航天和国防在内的各个最终用途领域的产品需求增加,北美预计在预测期内将占据最大的市场份额。 本届政府加大军事装备生产和确保美国在世界秩序中的地位的努力是过去五年军费开支增加的几个原因之一。 预计航空航天和国防工业的这种趋势将增加对超材料的需求。
在预测期内,由于亚洲国家对国防部门的投资不断增加,预计亚太地区的复合年增长率最高。 中国拥有最完善的电子製造基地。 中国向消费者销售电子产品,并向其他国家出口电子产品。 由于中产阶级可支配收入的增加以及从中国进口电子产品的国家对电子产品的需求增加,预计电子产品产量将增加。 因此,该地区的超材料市场有望快速增长。
2020 年 11 月,Kymeta Corporation 宣布可用于政府和商业采购的 KymetaTM u8 和 Kymeta ConnectTM。 这些产品帮助该公司提供宽带卫星连接和蜂窝网络,以满足移动通信的需求。
2020 年 8 月,Kymeta 获得了由比尔盖茨和领导团队成员领投的 8500 万美元资金。 这笔资金将主要用于关键高管任命、新产品发布以及国防、公共安全和陆地机动性方面的市场动力。
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According to Stratistics MRC, the Global Metamaterials Market is accounted for $859.78 million in 2022 and is expected to reach $4823.59 million by 2028 growing at a CAGR of 33.3% during the forecast period. A metamaterial is any material that contains properties that are not found in normally existing materials. They are constructed using multi-element assemblies comprised of composite materials such as metal and plastics. The materials are typically organised in a repeating pattern at scales smaller than the wavelengths of the phenomena they influence. Metamaterials' qualities are derived not from the attributes of these fundamental materials, but from their uniquely constructed structure.
According to the Federal Aviation Administration (FAA), the total aircraft fleet is expected to reach 36,500 in 2030, owing to the growth in air cargo.
To maintain peace and security, all countries have invested in their defence industry. Furthermore, governments include a particular amount in their budgets for the nation's military industry each year. The aerospace and defence industries are currently in a "supercycle," which is being fuelled in part by massive order backlogs that are expected to boost production in the industry over the next ten years. Because of the aforementioned considerations, the need for metamaterials in this business is increasing. This demand will be a major driving force for the market in the later stages of the forecast period.
Various nanoparticles, which are extremely expensive, are utilised as raw materials in the production of metamaterials. The EPD technique uses electric fields to deposit charged nanoparticles from a solution onto a substrate. Because of their restricted applications, large-scale manufacture of metamaterials is still in its infancy. Companies worldwide are involved in small to medium-scale metamaterials synthetization due to high manufacturing costs. As a result, a lack of affordable technologies for generating diverse metamaterials in adequate industrial quantities prevents the metamaterials sector from attaining its full potential.
Over the last decade, there has been an increase in demand for wireless mobile communication systems. With the increased implementation of the Internet of Things (IoT), autonomous vehicles, and mobile media, the sheer number of applications of metamaterials in wireless communication systems is predicted to rise during the projection period. The components utilised in these mobile communications must be compact while remaining efficient, which is where metamaterials excel. The adoption of metamaterial components will change all wireless and mobile technologies, driving the sector.
Metamaterial-based goods are still in the research and development stage. As a result, industry companies rely on research institutes or universities to develop methodologies. As a result, metamaterials are produced in extremely small amounts. These processes are not always ideal for the mass manufacture of metamaterials. The cost of metamaterials is considerable due to the lack of a suitable technology for mass manufacture. Finding low-cost manufacturing procedures for mass production of metamaterials is the market's most difficult challenge.
The global expansion of COVID-19 has had a considerable impact on the metamaterials industry. During the corona virus outbreak, global automobile sales declined dramatically due to disruptions in the global supply chain, which remained closed or operated at reduced capacity during the shutdown. As a result, given the importance of metamaterials in improving the performance of vehicle optical equipment such as sensor systems, this has hampered metamaterial demand.
The electromagnetic segment is estimated to have a lucrative growth, due to the metamaterial field and its increasing use in the emerging regions. Electromagnetic metamaterials are artificial materials composed of structures whose electromagnetic properties have been carefully created to provide a range of responses that are difficult or impossible to obtain in naturally occurring materials or composites. A negative index of refraction (where magnetic and electric responses are both negative), perfect (sub-wavelength) lensing, and electromagnetic invisibility cloaks are all important properties of metamaterials. Such qualities propel segment expansion.
The antenna and radar segment is anticipated to witness the fastest CAGR growth during the forecast period. One of the most essential applications for metamaterials is as an antenna. The distinctive property of metamaterials is used to increase the antenna's performance characteristics. Metamaterial coatings have been employed to improve the radiation and coordination capabilities of dipole reception equipment that is both electrically inconsequential and visually beautiful. Metamaterial surface antennas (MSA-T) development falls within a new type of receiving device innovation. It can regulate a radiofrequency bar rapidly and accurately over a wide range of locations without the usage of moving components or expensive stage moving segments. Because of the aforementioned considerations, demand for metamaterials in antenna and radar is likely to increase over the projection period.
North America is projected to hold the largest market share during the forecast period owing to the increasing demand for the products from various end-use sectors, including aerospace & defense. The current administration's willingness to enhance military hardware production and secure the United States' position in the world order is one of several reasons that have led to the increase in military spending during the last five years. Demand for metamaterials is anticipated to increase as a result of such trends in the aerospace and defence industries.
Asia Pacific is projected to have the highest CAGR over the forecast period, owing to increasing investments in Asian countries' defense sectors. China has the most comprehensive base for electronic manufacturing. It sells electronics to consumers and exports electrical products to other countries. Electronics output is expected to increase due to increased middle-class disposable income and rising demand for electronic products in countries importing electronic products from China. As a result, the metamaterials market in the region is expected to grow rapidly.
Some of the key players profiled in the Metamaterials Market include: Nanosteel Company,Colossal Storage Corp., Fractal Antenna Systems, Luminus Devices Inc., Fianium, Alight Technologies, Inframat Corp, Sandvik Material Technology, Opalux, Applied EM Inc., Kymeta Corporation, NKT Photonics, Echodyne Corp. and TeraView Ltd.
In November 2020, Kymeta Corporation announced the availability of KymetaTM u8 and Kymeta Connect TM for government and commercial purchases. These products help the company provide broadband satellite connectivity and cellular networks to satisfy the demand for communications on the move.
In August 2020, Kymeta received USD 85 million in funding, led by Bill Gates with leadership team members. The funding will be mainly used to appoint key executives, new product releases, and market momentum in defense, public safety, and land mobility.
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