市場調查報告書
商品編碼
1438190
2030 年先進材料市場預測:按產品類型、型態、應用和地區進行全球分析Advanced Materials Market Forecasts to 2030 - Global Analysis By Product Type (Metal & Alloys, Glasses, Composites, Ceramics, Composites, Polymers and Other Product Types), Form, Application and By Geography |
根據Stratistics MRC預測,2023年全球先進材料市場規模將達663億美元,預計2030年將達到1,151億美元,預測期內年複合成長率為8.2%。
先進材料是指經過設計具有超越傳統材料的優異特性和性能的物質。這些創新通常來自最尖端科技和科學進步,從而提高了功能性、耐用性和效率。先進材料的開發在革新各個行業、為複雜挑戰提供解決方案以及為技術和製造流程的前所未有的進步鋪平道路方面發揮著至關重要的作用。
根據國際能源總署的數據,挪威、荷蘭和日本是電動車領域的領導者。 2018年,IEA報告稱,挪威佔全球新型電動車銷量的46%。
電動車需求不斷成長
電動車 (EV) 需求的快速成長正在推動材料技術的進步。先進材料的創新對於提高電池和輕質結構等電動車零件的性能和效率至關重要。高容量、快速充電電池以及輕盈耐用的材料對於延長電動車續航里程和提高整體能源效率至關重要。電動車需求的快速成長正在推動先進材料的研發,也是汽車產業變革的驅動力。
原料供應有限
先進材料領域面臨關鍵原料供應有限的挑戰。先進複合材料、電子元件、奈米材料等最尖端科技的發展高度依賴稀有戰略元素。隨著需求的增加,人們對這些材料的永續採購的擔憂也在增加。這項限制凸顯了探索替代材料、回收方法和永續實踐的重要性,以確保先進材料在各行業的持續進步和可行性。
提高監理合規性
世界各國政府正在引入更嚴格的框架,以確保負責任的製造實踐、廢棄物管理和永續資源利用。先進材料行業的公司必須遵守不斷變化的法規,以促進創新並滿足不斷成長的期望,同時優先考慮對道德和環境負責的製造方法。先進材料產業面臨越來越多的生產法規,要求嚴格遵守安全、環境和品質標準。
先進材料價格高
先進材料的高成本對其在各行業的廣泛採用構成了重大挑戰。具有卓越性能和功能的尖端材料通常涉及複雜的製造過程並需要專門的技術。努力解決成本相關問題對於促進先進材料在各個領域的廣泛獲取和使用至關重要。這些因素導致更高的生產成本,從而導致更高的市場價格。
COVID-19大流行對先進材料領域產生了重大影響。全球供應鏈中斷、勞動力短缺和經濟不確定性影響了研發活動。儘管面臨挑戰,疫情加速了醫療設備、個人防護設備和抗病毒塗料所用材料的創新。人們對健康和安全的日益關注促進了奈米技術和智慧材料的進步,推動該行業尋求更具彈性和永續的解決方案。這場危機凸顯了適應性和協作的重要性,鼓勵先進材料產業透過創造性的解決方案為應對流行病做出貢獻。
陶瓷產業預計將在預測期內成為最大的產業
陶瓷產業預計將在預測期內成為最大的產業。工程陶瓷具有卓越的硬度、耐熱性和電絕緣性能,使其成為高科技應用的必需品。它的多功能性延伸到電子設備,可作為絕緣體和電容器。此外,陶瓷也應用於觸媒轉換器等環保技術。作為先進材料的基礎,陶瓷不斷突破各產業的創新界限。
預計粉末細分市場在預測期內年複合成長率最高
預計粉末細分市場在預測期內年複合成長率最高。粉末冶金是先進材料領域的關鍵技術,透過混合、壓制和燒結等多種工藝由粉末金屬生產零件。此方法可以精確控制成分、微觀結構和機械性能,從而提高材料的性能和客製化性能。粉末基技術的進步正在從金屬擴展到陶瓷和複合材料,推動航太、汽車和電子等產業的創新。
預計北美在預測期內將佔據最大的市場佔有率。該地區擁有強大的科學探索基礎設施,擅長開發石墨烯、奈米碳管和先進聚合物等尖端材料。這些材料正在推動航太、電子、醫療保健和能源領域的技術進步。學術界、工業界和研究機構之間的合作正在進一步鞏固我們在這一領域的領導地位,使該地區成為在全球範圍內塑造先進材料未來的關鍵參與者。
預計亞太地區在預測期內年複合成長率最高。從基於石墨烯的創新到超材料和奈米複合材料,該地區的科學界正在推動具有重大影響力的突破。各國正引領潮流並大力投資尋找先進的應用材料。該地區的協作努力和戰略舉措正在塑造材料技術的未來格局,並使該地區成為全球創新中心。
According to Stratistics MRC, the Global Advanced Materials Market is accounted for $66.3 billion in 2023 and is expected to reach $115.1 billion by 2030 growing at a CAGR of 8.2% during the forecast period. Advanced materials refer to substances engineered with superior properties and performance characteristics, surpassing conventional materials. These innovations often result from cutting-edge technologies and scientific advancements, enabling enhanced functionality, durability, and efficiency. The development of advanced materials plays a pivotal role in revolutionizing various industries, offering solutions to complex challenges and paving the way for unprecedented advancements in technology and manufacturing processes.
According to IEA, Norway, the Netherlands and Japan are frontrunners in the electronic vehicles segment. Norway held the share of 46 percent in terms of the global new electric car sales as reported by IEA in 2018.
Growing demand for electric vehicles
The burgeoning demand for electric vehicles (EVs) is propelling advancements in materials technology. Innovations in advanced materials are pivotal to enhancing the performance and efficiency of EV components, such as batteries and lightweight structures. High-capacity and fast-charging batteries, alongside lightweight yet durable materials, are imperative for extending the range and improving overall energy efficiency in electric vehicles. This surge in demand for EVs is fostering research and development in advanced materials, driving a transformative shift in the automotive industry.
Limited availability of raw materials
The field of advanced materials faces challenges due to the limited availability of crucial raw materials. The development of cutting-edge technologies, such as advanced composites, electronic components, and nanomaterials, relies heavily on rare and strategic elements. As demand increases, concerns about the sustainable sourcing of these materials grow. This limitation underscores the importance of exploring alternative materials, recycling methods, and sustainable practices to ensure the continued progress and viability of Advanced Materials in various industries.
Rising regulatory compliances
Governments worldwide are implementing more rigorous frameworks to ensure responsible manufacturing practices, waste management, and sustainable resource utilization. Companies in the advanced materials industry must navigate evolving regulations to meet heightened expectations, promoting innovation while prioritizing ethical and environmentally conscious production methods. The advanced materials sector faces escalating regulatory compliances pertaining to production, necessitating stringent adherence to safety, environmental, and quality standards.
High prices of advanced materials
The high prices of advanced materials pose a significant challenge to widespread adoption in various industries. Cutting-edge materials, characterized by superior properties and functionalities, often involve complex manufacturing processes and require specialized technologies. Efforts to address cost-related issues are crucial for facilitating broader accessibility and utilization of advanced materials in diverse sectors. These factors contribute to elevated production costs, resulting in higher market prices.
The COVID-19 pandemic has significantly influenced the advanced materials sector. Disruptions in global supply chains, workforce shortages, and economic uncertainties have impacted research and development activities. Despite challenges, the pandemic has accelerated innovation in materials used for medical devices, personal protective equipment, and antiviral coatings. The increased focus on health and safety has spurred advancements in nanotechnology and smart materials, driving the industry towards more resilient and sustainable solutions. The crisis has highlighted the importance of adaptability and collaboration, prompting the advanced materials sector to contribute to pandemic response efforts through creative solutions.
The ceramics segment is expected to be the largest during the forecast period
The ceramics segment is expected to be the largest during the forecast period. Engineered ceramics exhibit exceptional hardness, heat resistance, and electrical insulation, making them indispensable in high-tech applications. Their versatility extends to electronics, where they serve as insulators and capacitors. Additionally, ceramics find application in environmental technologies, such as catalytic converters. As a cornerstone of advanced materials, ceramics continue to push the boundaries of innovation across diverse industries.
The powder segment is expected to have the highest CAGR during the forecast period
The powder segment is expected to have the highest CAGR during the forecast period. Powder metallurgy is a pivotal technique in advanced materials, involving the production of components from powdered metal through various processes such as blending, compacting, and sintering. This method allows for precise control over composition, microstructure, and mechanical properties, yielding materials with enhanced performance and tailored characteristics. Powder-based advancements extend beyond metals, encompassing ceramics and composites, fostering innovation in industries like aerospace, automotive, and electronics.
North America is projected to hold the largest market share during the forecast period. With a robust infrastructure for scientific exploration, the region excels in developing cutting-edge materials like graphene, carbon nanotubes, and advanced polymers. These materials find applications in aerospace, electronics, healthcare, and energy sectors, driving technological advancements. Collaborative efforts between academia, industry, and research institutions further propel leadership in the field, positioning the region as a key player in shaping the future of advanced materials on a global scale.
Asia Pacific is projected to hold the highest CAGR over the forecast period. From graphene-based innovations to metamaterials and nanocomposites, the region's scientific community is driving breakthroughs with vast implications. Countries are leading the charge, investing heavily in the exploration of advanced materials for applications. The collaborative efforts and strategic initiatives in the region are shaping the future landscape of materials technology, propelling the region into a global hub for innovation.
Key players in the market
Some of the key players in Advanced Materials market include Hexcel Corporation, Toray Industries, Inc., 3M Company, DowDuPont, Covestro AG, Teijin Limited, BASF SE, Dow Inc. , Saint-Gobain S.A., Solvay S.A., Mitsubishi Chemical Holdings Corporation, Arkema S.A., Sumitomo Chemical Company, Evonik Industries AG , Linde plc, Lanxess AG, Huntsman Corporation and Nippon Electric Glass Co., Ltd.
In Jan 2024, Arkema, a leader in specialty materials, announced that it intends to improve electric vehicle (EV) battery safety with the launch of the first-of-its-kind Foranext® Gaseous Thermal Barrier (GTB) line. This new GTB material is engineered to prevent battery thermal runaway propagation at the origin of battery fires.
In October 2023, Arkema collaborated with industry leaders including EOS, HP and Stratasys, to continue offering customers more sustainable, high-performance materials for additive manufacturing. This is particularly true of its bio-sourced Rilsan® Polyamide 11, for which the Group recently announced a further reduction in the carbon footprint of all its grades globally.