PUBLISHER: TechSci Research | PRODUCT CODE: 1180515
PUBLISHER: TechSci Research | PRODUCT CODE: 1180515
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Global Graphene-enhanced Composites Market is projected to grow at an impressive rate through 2028 due to the increase in expenditure on research and development of the graphene enhanced composites. China's gross spending on research and development has increased significantly since 2020, set to amount to over USD 525 billion.
Graphene-enhanced composites range from lighter items to more substantial materials and high-capacity batteries. The main factor influencing the development of composites enhanced by graphene is graphene. The development of composite materials with graphene enhancement has benefited from the technological development for the mass manufacture of graphene. The appeal of combining graphene with different matrices is that it not only strengthens the matrix but also gives the material additional mechanical and electrical capabilities. Thermoplastics and epoxies are just a few of the polymers frequently used to strengthen graphene.
Among the graphene-enhanced composites frequently employed in various end-user applications are those made of polymer, metal, and ceramic materials. The types of graphene used to make composites are graphene oxide and graphene nanoplatelets. Composites with graphene enhancement are most frequently employed in various applications because, in contrast to other types, polymers make manufacturing graphene with them simpler. Additionally, polymers need a small amount of graphene compared to metals and ceramics. Among the graphene-enhanced composites that are frequently employed in a variety of end user applications are those made of polymer, metal, and ceramic materials. The two types of graphene that are used to make composites are graphene oxide and graphene nanoplatelets. Composites with graphene enhancement are most frequently employed in a variety of applications because, in contrast to other types, polymers make the manufacturing of graphene with them simpler. Additionally, compared to metals and ceramic, polymer just needs a small amount of graphene.
Graphene-enhanced Composites' electrical conductivity property is anticipated to support their expanding use in touchscreen displays, electronic transistors, and light-emitting diodes, which will drive the market. The substance has a high rate of white light absorption, which is advantageous to produce photovoltaic cells. Over the projected period, it is also anticipated that the market penetration of graphene oxide products, which are employed as transparent conductive films in numerous applications, including smartphones, will increase. The substance is also used to make microchips, which are a necessary part of most electronic equipment. It is anticipated that the electronic components made with graphene would enable the creation of flexible gadgets that can be rolled and folded as needed. Additionally, the device is anticipated to help with the production of computers that are faster and use less energy. Companies that produce materials have begun to create conductive inks, which are used to print circuits from the material and conduct electricity. As a result, demand for the product should increase for the projected period due to the potential it will offer the electronic sector.
Numerous studies are being conducted to develop novel and cutting-edge materials, many of which could be applied to graphene composites. With one graphene-polymer proving to be light, flexible, and a great electrical conductor, another graphene-dioxide composite was found to have interesting photocatalytic efficiencies, and there are countless more materials that could be coupled to create a variety of composites in the future. The potential of graphene composites encompasses a wide range of applications, such as renewable energy, aeronautical engineering materials, and medical implants. To increase the performance of industrial machinery and components, corrosion resistance and other properties can be added to composites. For instance, fiber-reinforced polymer composites may create more effective heat exchangers, fans, blowers, and other machinery that can withstand corrosive or high-temperature processes, durable pipelines and tanks, and machinery with better electrical insulation.
Global Graphene-enhanced Composites market is segmented by composite type, graphene type, and application. Based on composite type, the market is divided into graphene-enhanced polymer composites, graphene-enhanced ceramic composites, graphene-enhanced metal composites. Based on graphene type, the market is divided into graphene oxide, and graphene nanoplatelets. Based on application, the market is segmented into automotive industry, aerospace & defense, consumer electronics, sports & leisure, building & construction, others.
Applied Graphene Materials plc, Global Graphene Group, Graphene NanoChem Plc, Graphene Composites Ltd, G6 Materials Corp, Thomas Swan & Co. Ltd., Haydale Graphene Industries Plc, NanoXplore Inc, The Sixth Element (Changzhou) Materials Technology Co. Ltd and First Graphene Ltd. are some of the key market players operating in the global graphene-enhanced composites market.
In this report, Global Graphene-enhanced Composites Market has been segmented into following categories, in addition to the industry trends which have also been detailed below:
High-Performance Thermoset Composites
High-Performance Thermoplastic Composites Polyethylene
Carbon fiber Composites
Aramid fiber Composites
S-Glass Composites
Others
Aerospace & Defense
Automotive, Medical
Wind Turbines
Construction
Others
North America
Europe
Asia-Pacific
South America
Middle East & Africa
Company Profiles: Detailed analysis of the major companies in Global Graphene-enhanced Composites Market.
With the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report: