Artificial Graphite Market - Forecast(2024 - 2030)

Overview

The artificial graphite market size is forecast to reach USD 9 billion by 2030, after growing at a CAGR of 12.83% during the forecast period 2023-2028. The demand for artificial graphite has been increasing rapidly as it is primarily used in the production of electrodes and electrolytic processes, carbon brushes, and batteries. due to the increased production of electric vehicles, batteries are one of the most popular applications for artificial graphite today. batteries for electric vehicles employ artificial graphite to boost energy density and faster charging. this has been increasing the demand for artificial graphite. the market expansion of artificial graphite is primarily driven by the automotive sector's robust growth. due to its lightweight, high mechanical strength, and lubricating properties, artificial graphite is widely utilized in the production of automotive parts such as brake lining, clutch materials, and gaskets. it is also a perfect asbestos replacement because it is a great conductor of electricity. as a result, market growth is being driven by the rising demand for artificial graphite from the automotive industry.

Report Coverage

The report “Artificial Graphite Market – Forecast (2024-2030)”, by IndustryARC, covers an in-depth analysis of the following segments of the artificial graphite market.

By Product Type: Graphite Electrodes, Graphite Anodes, Graphite Block, and Others.

By Type: Electrographite, Synthetic Graphite.

By Form: Primary Synthetic, Secondary Synthetic.

By Application: Anticorrosion Products, Batteries, Carbon Brushes, Coatings, Conductive Fillers, Electrodes and Electrolytic Processes, Fuel Cell Bipolar Plates, and Nuclear Moderator Rods.

By End Use Industry: Automotive, Metallurgy, Solar, Electronics, Nuclear, Aerospace, and Others.

By Geography:  North America, South America, Europe, APAC, and RoW.

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Key Takeaways

APAC held the largest market share with 52.50% in 2023. with more than 50% of the market's total volume coming from the Asia-pacific region, China was the area's largest consumer. China is the primary focus of the entire lithium-ion battery production process. China is by far the biggest and fastest-growing market for lithium-ion batteries, which is boosting demand for artificial graphite.

The high demand for batteries and other electrical gadgets coming from European countries will fuel the graphite market. the developed automotive industries in Germany, the UK, and other nations are currently concentrating on developing electric vehicles (EVs) that are powered by lithium-ion batteries. Europe wants to lead the way in next-generation batteries as a way to demonstrate technological independence. SGL Carbon from Germany and Carbon Savoie from France have been gathered into a significant battery partnership that Brussels will launch in 2020.

North America, Africa, and South America are anticipated to see significant market expansion due to their developing industrial economies and improved economic conditions for end-user industries like automotive, metallurgy, solar, electronics, and others.

By Product Type - Segment Analysis

Graphite anodes dominated the artificial graphite market in 2023. since the invention of lithium-ion batteries, graphite has dominated anode materials due to its unmatched combination of low cost, abundance, high energy density, high power density, and extremely long cycle life. graphite is an ideal anode. recent studies show that graphite's lithium storage capacity can be further enhanced, highlighting the material's significant potential for use in advanced libs for electric vehicles and grid-scale energy storage facilities. according to the most recent data from the China association of automobile manufacturers, China’s Nev output climbed by 167.40% from January to November 2021 to 3.02 million units, while total sales increased by 166.80% compared to the first 11 months of 2020 to 2.99 million units (CAAM).

By Type - Segment Analysis

Synthetic graphite dominated the artificial graphite market in 2023. high-purity carbon makes up synthetic graphite, which is prized for its resistance to corrosion and extreme temperatures. a few extremely niche sectors heavily rely on synthetic graphite. due to its use in lucrative industries with increasing demand, synthetic graphite is attractive to investors. but before exploring the area, it's critical to comprehend the subtleties of synthetic graphite and some common misconceptions about it. because synthetic graphite has a purer carbon composition and exhibits more predictable behavior, it has found applications in solar energy storage and arc furnaces. given that the process requires a large amount of energy, synthetic graphite can be significantly more expensive to make than natural graphite. the price can be double or triple what raw graphite is typically sold for.

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By Form - Segment Analysis

Secondary synthetic graphite dominated the artificial graphite market in 2023. electrodes used in heavy industry and manufacturing result in the production of secondary synthetic graphite as a by-product. secondary synthetic graphite, which is frequently produced as a powder, is another byproduct of the production of synthetic graphite. it is regarded as a low-cost version of graphite, and in some applications, such as brake linings and lubricants, it can compete with natural graphite.

By Application - Segment Analysis

Electrodes and electrolytic processes dominated the artificial graphite market in 2023. because graphite is such a good conductor, graphite electrodes are typically used in electrolysis. because of the way that its atoms are organized, graphite has a lot of free-floating electrons between its various layers (graphite bonds are formed of only three out of the four electron shells of the carbon atom, leaving the fourth electron to move freely). the electrolysis process can go without interruption because of these electrons' strong conductivity. graphite is also inexpensive, stable at high temperatures, and durable. graphite electrodes are widely used in electrolysis due to all of these factors. since many electrons are not linked in graphite due to their atomic structure, they can move freely between its layers. the abundance of free electrons (also known as electron delocalization) in graphite is what gives it exceptional conductivity. in addition to being a strong conductor, graphite is also inexpensive, durable, and widely available, which are all further reasons why it is frequently employed as an electrode.

By End User- Segment Analysis

Automotive dominated the artificial graphite market in 2023. one kilogram of graphite is required to produce one kilowatt-hour (kwh) of battery energy, making it the most significant component of the battery cell by weight. graphite makes up the great majority of the anode (95%) of a typical Li-ion battery installed in a battery electric vehicle (BEV). A memorandum of understanding [MoU] for the provision of synthetic graphite and silicon oxide to be utilized in specific stages of Britishvolt's battery production processes was signed in 2022 by Britishvolt, a battery manufacturer, and BTR, a company based in China.

By Geography - Segment Analysis

APAC artificial graphite market generated a revenue of $2 Billion in 2023 and is projected to reach a revenue of $5 Billion by 2030 growing at a CAGR of 13.88% during 2024-2030. China produces the majority of the artificial graphite that is produced in the Asia Pacific. For the development of their infrastructure and industrial expansion, countries like China are receiving significant investments. additionally, it is anticipated that during the forecast period, the growth of the industrial sector, particularly in this area, will fuel the market for artificial graphite. Chinese battery anode manufacturers revealed intentions to invest more than $3.9 billion in artificial graphite projects in 2022 in May as they seek to streamline their supply chains and cut prices. among the announcements is a new facility in Sichuan Province, Southwest China, whose operations can be fueled by renewable energy, assisting in lowering the carbon intensity of artificial graphite, which makes up a significant component of a battery's carbon footprint.

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Drivers – Artificial Graphite Market

Growing application in the automotive industry is a significant aspect

As the anode content usage of lithium-ion batteries rises in tandem with the adoption of electric vehicles and lithium-ion battery applications, demand has been expanding in recent years. In the auto industry, artificial graphite is a solution for producing lithium-ion batteries, which are used to power newer electric cars and boost energy density while shortening charging times. Additionally, it is utilized to create thermally conductive polymers, which are increasingly employed to build automotive parts instead of metal. China is also the world's largest producer of batteries, with the energy storage system and automotive industries experiencing the highest growth rates for lithium-ion battery production in the future years. Chinese anode suppliers have the biggest installed capacities internationally, and China is the main hub of the lithium-ion battery value chain.

Market growth is driven by the metallurgy industry

In metallurgical applications, graphite is utilized in a variety of forms, including electrodes, refractories, bricks, monolithic crucibles, etc. artificial graphite is used as an anode in the electric arc furnace (eaf) process to produce steel, ferroalloys, and aluminum. in metallurgical processes, such as melting scrap iron in an electric furnace, polishing ceramics, producing compounds like calcium carbide, and others that call for high-temperature and clean energy sources, artificial graphite electrodes are used as a source of energy. the use of artificial graphite in metallurgical applications is anticipated to be driven by the increasing global production of crude steel and aluminum. however, it is anticipated that the market demand would be unpredictable due to erratic trends in the production of these metals. accordingly, based on the aforementioned factors, it is anticipated that as the production of important metals and alloys like steel and aluminum rises, artificial graphite will as well, drive the market.

Challenges – Artificial Graphite Market  

The manufacture of artificial graphite comes with health risks that could restrict the market growth.

Calcined petroleum coke and coal tar pitch are the main ingredients used to make artificial graphite. these raw ingredients, though, are harmful to people's health. petroleum coke and coal tar pitch can irritate the eyes as well as cause a rash, inflammation, and burning on the skin in the event of contact. it can irritate the lungs, nose, and throat when inhaled. long-term exposure to these basic materials can also result in moderate symptoms like weariness, headache, and dizziness as well as severe ones like fainting and coma. additionally, occupational exposure to coal tar pitches raises the risk of developing skin cancer in addition to other cancers, such as lung, kidney, bladder, and, in some cases, digestive system cancer. therefore, the health risks related to using these raw materials to make artificial graphite may restrain market expansion.

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Market Landscape

Technology launches, acquisitions, and R&D activities are key strategies adopted by players in the artificial graphite market. in 2023, the artificial graphite market share has been consolidated by the top seven players accounting for 65% of the share. major players in the artificial graphite market are SGL Carbon, Tokai Carbon, Elkem (Vianode), Imerys, Showa Denko, Toyo Tanso, Nippon Carbon Co Ltd, and Others.

Developments:

Ø In January 2021, Showa Denko announced the merger of between its consolidated branches, Showa Denko Carbon Holding GmbH (SDCH), and Showa Denko Europe GmbH (SDE). By combining the business management and business support functions of the two subsidiaries into one, this merger is expected to further expand the company’s business operation in Europe.

Ø In January 2021, Imerys Graphite & Carbon Ltd. launched its two new primary synthetic graphite namely KS6L and SFG6L. The main objective of the product development was to increase the company’s product portfolio.

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Thermal Management Market Driven by Electronics Demand

Thermal management solutions encompass a diverse range of products including heat sinks, thermal interface materials, liquid cooling systems, thermo-electric modules and heat exchangers. These technologies deliver reliable heat dissipation, improved system stability and enhanced performance in critical applications spanning consumer electronics, telecommunications, data centers, electric vehicles and aerospace. As power densities rise and devices become more compact, the need for efficient thermal solutions becomes paramount to mitigate overheating risks and ensure consistent operation under demanding conditions.

Advanced materials such as graphite, phase-change composites and metal ceramics enable lightweight, high-conductivity designs that optimize thermal transfer while maintaining structural integrity. Integrated cooling strategies combining passive and active methods support energy-efficient operations and align with global sustainability targets by reducing power consumption and carbon footprint. Market research indicates that evolving market trends—including rapid digitalization and 5G infrastructure deployment—are driving significant Thermal Management Market­­­ growth and expanding market segments. Companies leverage cutting-edge market analysis and in-depth market insights to identify emerging market opportunities and address market challenges such as cost management and stringent regulatory standards. Continuous innovation in thermal management products supports higher computing performance, faster battery charging and enhanced safety protocols across various end-use industries.

The thermal management market is estimated to be valued at USD 16.84 Bn in 2025 and is expected to reach USD 33.45 Bn by 2032, growing at a compound annual growth rate (CAGR) of 10.3% from 2025 to 2032. Key Takeaways

Key players operating in the Thermal Management Market are:

-Honeywell International Inc.

-Vertiv Holdings Co.

-Boyd Corporation

-Laird Thermal Systems

-Advanced Cooling Technologies, Inc.

These market leaders hold a significant market share through robust product portfolios, technology innovation and global reach. Honeywell International Inc. continues to expand its industry size by integrating smart thermal controls and advanced sensors into aerospace and industrial automation offerings. Vertiv Holdings Co. leverages its liquid cooling systems and data-driven analytics to address rising demand in data center infrastructures, contributing to substantial business growth. Boyd Corporation distinguishes itself with high-performance thermal materials and customized heat exchangers, while Laird Thermal Systems specializes in thermal interface materials and liquid cooling platforms. Advanced Cooling Technologies, Inc. drives its market revenue through strategic research collaborations and tailored solutions for electric vehicles and renewable energy applications. These market companies employ mergers and acquisitions, strategic partnerships and aggressive market growth strategies to strengthen their competitive positions. The collective efforts of these key players shape overall market dynamics and set the direction for future innovations in the thermal management industry. Rapid advancements in semiconductor technology, coupled with the proliferation of 5G networks and artificial intelligence applications, have created strong demand for high-efficiency thermal solutions. The accelerating adoption of electric vehicles necessitates sophisticated cooling systems to manage battery temperatures, while consumer electronics manufacturers seek compact, lightweight thermal interface materials to improve device performance and prolong battery life. This surging need is reflected in comprehensive market research reports highlighting evolving market trends toward higher power density, modular cooling architectures and multi-element thermal stacks. Enterprises are increasingly investing in thermal management solutions to optimize system reliability, reduce downtime and enhance safety standards. As digital transformation initiatives gain momentum across telecommunications, automotive, healthcare and renewable energy sectors, industry leaders recognize the critical role of thermal control in ensuring operational continuity and sustaining business growth. The growing focus on energy efficiency and stringent environmental regulations further reinforce the importance of innovative cooling technologies, driving a positive trajectory for market growth over the forecast period.

‣ Get More Insights On: Thermal Management Market­­­

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Lithium-Ion Battery Market Comprehensive Analysis of the Key Drivers, Industrial Challenges, and Opportunities

The Lithium-ion Battery Market is anticipated to grow at a CAGR of 13.1% during the forecast period, with the market size expected to reach USD 135.1 billion by 2031 from USD 48.6 billion in 2023.

Introduction: The lithium-ion battery market has seen remarkable growth over the past decade, driven by the increasing demand for efficient energy storage solutions across various applications. From consumer electronics to electric vehicles and renewable energy storage, lithium-ion batteries have become the cornerstone of modern energy systems. This report delves into the current state of the lithium-ion battery market, examining key trends, growth drivers, challenges, and prospects.

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Top 5 Key Players in the Li-ion Battery Industry: ★ LG Chem (South Korea) ★ Samsung SDI CO. LTD. (South Korea) ★ Contemporary Amperex Technology Co., Limited (China) ★ BYD Company Ltd. (China) ★ Panasonic Holding Corporation (Japan)

Research Methodology: Our research methodology is grounded in a combination of primary and secondary research. Primary research involves direct interviews with industry experts, manufacturers, and stakeholders, while secondary research includes extensive analysis of industry reports, white papers, and academic publications. We utilize market modeling and forecasting techniques to provide accurate and comprehensive insights into market dynamics, trends, and projections.

The Report Offers: ➧ Market Overview: A detailed analysis of the current market scenario, including market size, growth rate, and key trends. ➧ Key Drivers and Challenges: An in-depth look at the factors propelling market growth and the challenges hindering it. ➧ Segmentation Analysis: Comprehensive segmentation of the market by battery type, application, and region. ➧ Competitive Landscape: Profiles of leading market players, their strategies, and market share analysis. ➧ Future Outlook: Projections for market growth and opportunities over the next five to ten years. ➧ Technological Advancements: Insights into the latest innovations and advancements in lithium-ion battery technology.

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Based on Material, the Lithium-ion Battery Market has been Segmented as follows:

▸ Cathode Material

▸ Cathode Material for Lithium-Ion Batteries

▸ Lithium iron phosphate

▸Lithium iron cobalt oxide

▸Lithium nickel manganese cobalt

▸Lithium nickel cobalt aluminum

▸ Lithium manganese oxide

▸ Anode Materials

▸ Anode Material for Lithium-Ion Batteries

▸ Natural graphite

▸ Artificial graphite

▸ Another anode material

▸ Electrolyte Material

▸ Separator Material

▸ Current collector Materials

▸ Other Materials

Based on Product Type, the Lithium-ion Battery Market has been Segmented as follows:

▸ Components of Lithium-ion Battery

▸ Cells

▸ Battery Packs

▸ Portability

▸ Stationary

▸ Portable

Based on Type, the Lithium-ion Battery Market has been Segmented as follows:

▸ Lithium Nickel Manganese Cobalt oxide

▸ Lithium Iron Phosphate

▸ Lithium Cobalt Oxide

▸ Lithium Titanate Oxide

▸ Lithium Manganese Oxide

▸ Lithium Nickel Cobalt Aluminum Oxide

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Based on Capacity, the Lithium-ion Battery Market has been Segmented as follows:

▸ 0 to 3,000 mAh

▸ 3,000 to 10,000 mAh

▸ 10,000 to 60,000 mAh

▸ 60,000 mAh and Above

Based on Voltage, the Lithium-ion Battery Market has been Segmented as follows:

▸ Low (Below 12 V)

▸ Medium (12 V-36 V)

▸ High (Above 36 V)

Based on Industry, the Lithium-ion Battery Market has been Segmented as follows:

▸ Consumer Electronics

▸ Smartphones

▸ UPS

▸ Laptops

▸ Others

▸ Automotive

▸ Plug-in Hybrid Vehicles

▸ Aerospace

▸ Commercial Aircraft

▸ Marine

▸ Commercial

▸ Tourism

▸ Medical

▸ Industrial

▸ Mining Equipment

▸Construction Equipment

▸ Forklifts, automated guided vehicles (AGV), and automated mobile robots (AMR)

▸ Power

▸ Telecommunications

Based on Region, the Lithium-ion Battery Market has been Segmented as follows:

▸ North America

▸ Europe

▸ Asia Pacific (APAC)

▸ Rest of the World (RoW)

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Why Should Access to This Report? Access to this report provides valuable insights and data that can help businesses, investors, and stakeholders make informed decisions. Understanding market dynamics, trends, and competitive landscapes is crucial for developing strategies, identifying opportunities, and staying ahead in the rapidly evolving lithium-ion battery market. Whether you are a manufacturer, supplier, investor, or policymaker, this report offers the comprehensive analysis and actionable insights needed to navigate this dynamic market.

Conclusion: The lithium-ion battery market is poised for significant growth, driven by the rising demand for efficient energy storage solutions in various sectors. As technological advancements continue to enhance battery performance and reduce costs, the market offers vast opportunities for innovation and expansion. 

This report provides a thorough analysis of the market landscape, helping stakeholders understand key trends, challenges, and growth prospects. By leveraging the insights provided in this report, businesses can strategically position themselves to capitalize on the emerging opportunities in the lithium-ion battery market.

Future of Batteries Market Size, Share, Industry Trends by 2035

The global future of batteries market size was valued at 16 million units in 2024 and is expected to reach 62 million units by 2035, at a CAGR of 12.7% during the forecast period 2024-2035.The growing consciousness among consumers regarding environmental issues and their preference for eco-friendly modes of transportation is propelling the demand for electric vehicles. Increased driving range, quicker charging times, and longer battery life impact consumer choices. Furthermore, improvements in lithium-ion, solid-state, and other developing battery technologies have increased EVs' efficiency, range, and affordability. Well-known automakers have committed to converting their fleets to electric vehicles and are making significant investments in electric car technologies. This dedication to EVs drives market expansion and battery development.

Market Dynamics:

Driver: Advancements in battery technology

A number of companies have achieved significant advancements in EV battery technology, enabling EVs to become a competitive alternative to traditional automobiles. Continuous advancements in electric vehicle (EV) battery technology aim to increase the range of EVs. Most large EV battery manufacturers innovate in battery chemistry and design to increase EV range and reduce the need for frequent charging. The battery's cathode chemistry is a major factor in its performance. Three major groups of cathode chemistries are currently in widespread use in the automobile industry: lithium nickel manganese cobalt oxide (NMC), lithium nickel cobalt aluminum oxide (NCA), and lithium iron phosphate (LFP). Because of their higher nickel content, NMC and NCA cathodes are in the most demand out of all of them. They provide high energy density. In addition, since 2020, LFP has gained popularity because of its nickel- and cobalt-free composition and the high cost of battery metals. Unlike hydroxide, which is used for nickel-rich chemistries, LFP uses lithium carbonate.

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Opportunity: Increase in R&D efforts toward creating more advanced battery chemistries

As the world moves toward adopting clean energy, battery manufacturers are increasing their R&D efforts to develop different battery chemistries. For instance, major players like Amprius Inc. (US) and Nexeon Corporation (UK) are developing silicon anode batteries with enhanced features. These advanced silicon anode batteries are expected to be widely adopted in the coming years. Tesla, Inc. (US) and Panasonic Holdings Corporation (Japan) are also researching and developing silicon anode and lithium-air batteries to power EVs. In June 2023, LG Energy Solution (South Korea) and NOVONIX (Australia) entered into a Joint Research and Development Agreement (JDA) to collaborate on the development of artificial graphite anode material for lithium-ion batteries. VARTA AG (Germany) is also involved in international research projects. Its R&D project, SintBat, aims to develop energy-efficient, cheap, and maintenance-free lithium-ion-based energy storage systems using silicon-based materials and new processing technologies.

“Cylindrical segment is expected to grow at the fastest rate during the forecast period.”

The cylindrical segment is projected to register the highest CAGR during the forecast period. Durable and long-lasting are two characteristics of cylindrical batteries. Due to their excellent confinement and effective mechanical resistance against internal and external pressures, cylindrical cells are the least expensive to manufacture compared to alternative EV battery types. Manufacturers are starting to use cylindrical batteries as well. Tesla, for instance, uses cylindrical batteries due to their dependability and robustness. The new generation of cylindrical batteries, like the 4680 format pioneered by Tesla, boasts significant improvements in range and efficiency compared to older models.

“Solid state battery expected to be the next big shift during forecast period.”

Emerging solid-state battery technology has various potential benefits for electric vehicles. Unlike traditional lithium-ion batteries, which utilize liquid electrolytes, they use solid electrolytes. Because solid electrolytes are less likely to experience problems like leaking, overheating, and fire hazards, they are considered safer overall for electric vehicles. Faster charging times could be possible using solid-state batteries as opposed to lithium-ion batteries. Because of their enhanced conductivity and capacity to tolerate higher charging rates, EVs may require fewer charging cycles, saving users time and increasing convenience. For instance, In October 2023, Toyota secured a deal to mass-produce solid-state EV batteries with a 932-mile range. Using materials developed by Idemitsu Kosan will allow Toyota to commercialize these energy-dense batteries by 2028. Solid-state batteries can significantly extend a vehicle's driving range as well. It is projected that a solid-state battery replacement may quadruple the driving range of the Tesla Roadster. Such benefits will help the solid state battery market grow over the projected period.

“North America to be the prominent growing market for EV batteries during the forecast period.”

The automotive sector in North America is one of the most developed worldwide. Major commercial automakers like Tesla, Proterra, MAN, and NFI Group are based in the region, which makes it well-known for its cutting-edge EV R&D, inventions, and technological advancements. These businesses are investing in constructing and expanding battery production plants in North America. To meet the growing demand for electric vehicles, these facilities produce sophisticated battery technology, including lithium-ion batteries. The US has historically led the way in technology in North America. Leading EV battery suppliers and startups have partnered with OEMs in the North American EV market. For example, GM and LG Chem have partnered.

Key Players

The major players in Future of Batteries market include CATL (China), BYD Company Ltd. (China), LG Energy Solution Ltd. (South Korea), Panasonic Holdings Corporation (Japan), and SK Innovation Co., Ltd. (South Korea). These companies adopted various strategies, such as new product developments and deals, to gain traction in the market.

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How HONOR Magic6 Pro’s AI features drive the smartphone brand to be no.1 in China

Manila, Philippines, May 3, 2024 – HONOR, the eminent global provider of smart devices, clinched the top spot among leading smartphone brands in the latest study conducted by the International Data Corporation (IDC). According to Antonio Wang, Vice President at IDC, HONOR secured a remarkable 17% share in the charts, with a staggering Year-over-Year (YoY) shipments surge of 123.3% in Quarter 1, 2024.

"Being part of a prestigious and competitive global technology company like HONOR, it's truly an honor for us. We're excited about the challenge ahead and fully committed to bringing technological breakthroughs and innovation to the Philippines. We aim to achieve significant milestones in this dynamic market,” said Stephen Cheng, Vice President of HONOR Philippines.

Moreover, HONOR’s overseas market has gained significant growth during the past year with a 200% growth rate. By Q1 2024, HONOR has entered more than 100 markets and ranked Top 5 in many markets including Europe, Midde East, Latin America and Malaysia.

An HONOR Smartphone Produced Every 28.5 Seconds

HONOR consistently dedicates over 10% of its annual income to Research and Development (R&D), with this commitment growing each year. In the realm of AI exploration alone, HONOR has invested upwards of 10 billion CNY.

At present, HONOR boasts world-class R&D and innovation capabilities, sustained by a team of over 8000 R&D professionals spread across 7 R&D centers and over 100 innovative laboratories. The pace of innovation is evident in the company's submission of over 300 new patent applications monthly.

Notably, HONOR has achieved an impressive 85% automation rate in its intelligent production line. This level of efficiency enables the manufacturing of a smartphone every 28.5 seconds, showcasing the brand's commitment to cutting-edge technology and streamlined production processes.

Emerging Battery Innovations from Automobile Industry to Smartphones

HONOR has unveiled its innovative approach to pushing the boundaries of material and structural technology, particularly evident in the Magic Series.

Breaking new ground, HONOR became the first brand to integrate emerging battery innovations from the automotive industry into smartphones, introducing the all-new Second-generation Silicon-carbon Battery to the HONOR Magic6 Series. With a theoretical capacity of 3579mAh/g for a pure silicon-based anode, this technology surpasses graphite by a remarkable tenfold. This development, akin to advancements seen in companies like Tesla, promises exceptional battery life and consistent performance.

Additionally, the Nano Crystal Shield featured in the HONOR Magic6 Pro is another testament to the brand's commitment to innovation. Through the utilization of advanced materials boasting a 50% improvement in crystal density, the Magic6 Pro achieves a shock absorption capability up to ten times greater than before. This enhancement ensures unparalleled durability, securing the device against accidental drops and impacts.

AI Falcon Camera System

Responding to the surge in popularity of "sportography" and the escalating importance of Artificial Intelligence (AI), smartphone manufacturers are doubling down on efforts to enhance capture speed and image clarity. With this, HONOR has taken proactive strides to spearhead camera innovation in the industry, with the HONOR Magic Series boasting a distinctive AI falcon camera system.

In the Image Lab located in Shenzhen, HONOR has embraced the All-scenarios Automated Comprehensive Photographic Testing System. This revolutionary approach enables the optimization of the HONOR Image Engine across an extensive array of anticipated scenarios, ensuring unparalleled performance in diverse shooting conditions. Additionally, HONOR has introduced proprietary testing equipment, a pivotal contribution to achieving the industry-leading focus accuracy of the 1200-point LiDAR Matrix Auto Focus System, notably featured in the Porsche Design HONOR Magic6 RSR.

The most awaited World’s Top 1 AI Camera Phone, HONOR Magic6 Pro, is coming officially to the Philippines on May 8, 7 PM. The latest device from HONOR is equipped with the best AI Integration and Falcon Camera System. #MagicAICameraPhone #HONORMagic6Pro

Awarded as the leading mobile phone in Camera, Battery, Audio, Display, and Selfie by DxOMark, this flagship device features a groundbreaking HONOR Falcon Camera System, boasting a 50MP Wide camera, 50MP Ultra-wide camera, and a staggering 180MP Periscope Telephoto camera, this device harnesses the power of AI to deliver unparalleled imaging experiences.

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it’s only sharing a disgustingly sweet milkshake at the local college town diner after both of your evening classes that suna graciously provides the answers to the math homework.

the spongy pencil eraser is easy for you to sink your teeth into as you puzzle over his handwriting. “you know,” you mumble around the nib, trying to figure out if that’s a 5 or a 6, “i never know why you do this to me every week.” this time the drink with two plastic straws floating in an unhealthy heaping of whip cream is a syrupy strawberry flavor.

rintarou tips forward to sip at one of them and in your peripheral, chunky pink-coated fruit pieces travel up the clear tube and disappear between his lips. he releases the straw with an annoying ah that makes you frown, even if you weren’t concentrating in the first place. “aw, don’t tell me you don’t like hanging out with me.” he feigns hurt.

a well placed sip of your own allows you to avoid having to answer that—you have a personal rule of never being sappy in the presence of calculus. if you didn’t like him, suna knows you wouldn’t be hanging out with him—there are just some things you can’t do, even if it’s for the sake of your grade. none of this has to be said out loud of course, but he decides to be annoying and ask anyway.

actually—well... maybe hanging out is... not exactly how this appears to bystanders.

sharing a drink like this, you two probably look more like a couple on a (terribly cheap) afternoon date, rather than two broke college students that split meals to save money and believe that sharing answers for homework isn’t cheating, it’s collaboration.

ha, as if it would ever be different—things like the former never come true. maybe in movies, but that’s about where the line is drawn.

as if he knows what you’re thinking, suna raises an eyebrow at you over the glass, a smile playing on his lips—the same stupid look he always gives you. it feels particularly worse this evening.

it’s hard to avoid eye contact with him mere inches away, but you manage when a car painted a very interesting shade of red rumbles past the fingerprint covered window. you’re grateful for the distraction.

the subject changes when you realize suna has terrible taste when it comes to ordering milkshakes. “what flavor is this?” you spit out the word as though the very concept of calling this a real flavor is more disgusting than the drink itself, smacking your lips and screwing up your face at the excessively saccharine, artificial strawberry aftertaste.

this is no ordinary strawberry milkshake. no, this is a so-bad-only-suna-rintarou-would-order-something-this-horrible-(and-not-necessarily-on-purpose-either) strawberry milkshake.

“valentine’s valor,” he states matter-of-factly like those words mean anything to you. you stare at him until he elaborates. “their valentine’s special,” he clarifies and is gifted with a sarcastic thumbs-up from you in thanks—it is pointedly ignored and suna slings an arm over back of his seat. “dunno the exact flavor though. forgot.”

it tastes like the embodiment of pink, you decide. valentine’s valor. what a stupid name. there are a million and one better words that start with v... you can name at least five with a little thinking. you should ask them to hire you as part of their marketing team, you decide.

maybe it’s fitting title though. you certainly need valor to even think about taking another sip of that... concoction—which you do because you are obsessed with getting your money’s worth.

“valentine’s day was half a week ago?” your mental calendar helpfully supplies.

the clatter of pans in the back kitchen somehow mingles charmingly with the way rintarou throws his head back to laugh—a scene straight out of a movie really. you decide you hate him in the moment. “right you are. want a prize?” ugh. you stick your tongue out at his tone.

great. as if to add insult to injury, of course you’re sharing an out-of-date love holiday special with suna of all people. valentine’s was four days ago and this is where you are on a thursday night. the sticky upholstery of the booth seat, ripped and fraying at the corners, squeaks and groans and attaches itself to the fabric of your jeans as you shift around, suddenly hot. what a strange situation to be in, you think. this has to be a metaphor for life—then again, you’d been thinking this whole... thing has been a metaphor anyway.

yup, ever since suna sat next to you in a calculus II lecture all those fated months ago and took pity on how much you fucking sucked at math, up until the present where he takes slightly less pity on you but does enjoy emptying your dorm mini-fridge and making you pay for his milkshakes—all of it. this entire thing with him. one big stupid metaphor.

the specifics of how you came to have a routine like this are certainly murky, but two things are for certain—one, your calculus grade is certainly a lot better than it would have been otherwise, and two, you have one friend more than you did at the start of the school year. (that last one is kind of a big deal, you think. the college social scene is brutal. the word friend has started to become more disappointing than exhilarating lately though.)

rin reaches to your left to pick at the fries you’d ordered as a side—you’ve learned not to try and stop him. “also,” he adds, mouth full, “you’re totally getting me a new pencil after this.” yes, true, the pencil you’re currently leaving frustrated teeth marks all over isn’t yours. very easy to forget in the moment. you’ve probably destroyed 15 of his pencils by now for the 15 weeks of the last semester—only 7 so far for the current one. you do the mental math.

instead of drawing in the sharp lines of the differential equation that should be going in the question box, you lightly trace in the curves of a 2 and then another one next to it in the corner of the worksheet, graphite underlining them both in one swoop. the horribly thin paper of the school library’s printer is scratchy as you write but soon you flip the pencil over and under your fingers to tap the eraser (that has seen better days) just below what you wrote. “this is pencil number 22.”

suna leans over to look at the number as if you hadn’t just told him what it said. what an idiot. “glad you’re keeping count.” he settles back into his seat. “when can i expect my reimbursement?”

“you’re funny,” you say, without a hint of humor in your voice. the pretty 22 you had written now has flower petals growing off of the sides as you get distracted doodling along the edges of your work. it’s quiet for a moment as he watches you, or maybe as he takes the chance while you’re distracted to shove more french fries down his throat—either option is plausible and you don’t lift your eyes to check.

something occurs to you.

“rin.” you take an extended pause in between the words as you continue drawing, just to annoy him. you don’t continue speaking until he grumbles in acknowledgment (you try to hide your smile). “do you ever doodle in your notebooks?” now that you thought about it, suna was surprisingly pretty straight-laced when it came to class—you couldn’t ever recall him ever slacking off to the degree that meant his pages were filled with hearts and stars and flowers and suns and atomically inaccurate animals and tiny people in different colored ink. your work was always certainly the more vibrant out of the two (perhaps that could explain your grades and how you understand like... nothing in your lectures, but you decide correlation does not equal causation).

“waste of time,” he says around another mouthful of fries, another one already halfway there to his mouth.

suna is also surprisingly negative at times—but the blue book flipped open to his homework says maybe he’s just a liar though. you squint at it.

“it’s still pretty early but we probably should get out of here soon,” suna says, pulling his phone out from his pocket to check the time and leaning his elbows on the table. “i’ll walk you back. your roomie doesn’t leave the gym until 9—before you ask, yes i’ve been keeping track. it’s not stalking if it’s for my own sake.”—rin is, of course, referring to the long standing rivalry between him and your (very nice, might you add) roommate you don’t really understand but which has cumulated in him deciding he would avoid them as much as humanly possible purely out of spite. (“the only person i like in dorm 302 is you,” he’d told you one time and the throwaway sentence maybe made your heart flutter more than it probably should’ve.)

the bell above the front door jingles behind you as another patron enters. rin glances up at the sound and then returns to his phone with a bored bat of his eyes, probably scrolling through twitter or replying to texts, and picking at his teeth with a toothpick (where did he even get that?).

you try to get back to work (copying) but something in your gut tells you there’s more to his notebook than the messy handwriting and crossed out words that meet the eye.

with suna distracted, you take the chance to carefully slide the book towards you and then, in a single quick swipe, pull it into your lap under the table, already leafing to the back pages—everyone knows that’s where the real secrets are—not sure what to expect. a flash of color makes you pause and you flip back to a page that has the corner folded into a tiny, crisp triangle.

whatever you were thinking suna had stashed in the back of his calculus notebook certainly does not match up with what’s staring you in the face currently. sparkly, gel-inked hearts in neon colors glitter under the fluorescent overheads. in each of them, written in capital letters neater than you thought possible for suna, is your initials, a small plus sign in the middle, and then S.R. (for none other than suna rinatoru) next to it. it instantly makes sense to you. “rin, what the fuck.” one side of the book dangles from your hand, pages fluttering, and you hold it up for him to see, other hand flying to cover your mouth because you don’t know whether to laugh or pretend to be mortified or what.

it’s very amusing to watch how suna goes from a disinterested stare, to widened eyes, to reaching over the heaps of school supplies to attempt to grab the book from you, frantic. you hold it just out of reach. “what are you—” an old lady at a table shushes him when he half-screams. “—give that back,” suna whisper-yells instead in the greatest verbal equivalent of tiny caps you’ve ever heard.

“not a chance.”

he looks like he wants to lunge across the table and pry his prized possession from your meddling hands, but also has half the mind not to make a scene. getting kicked out and then subsequently banned from his favorite diner all on a noise complaint and disorderly conduct accusation was not ideal.

you hum, flip back to your place, and observe the drawings covering the lined pages. you shoot him a venomous smirk over the edge of the cover, one that’s more theatrics than anything, and say with all the satisfaction of someone who knows they have all the power, “oh, this is gold.” he deflates and you feel grateful he doesn’t see right through your facade because oh man are you sweating inside right now. what the fuck? no way suna rintarou is drawing little hearts with both of your initials in it like a lovesick middle schooler. no fucking way. you almost want to tell him that you did the same thing once when the thoughts about him had gotten especially bad (you felt guilty afterwards though, thinking you never had a chance with him, but... now... if he’s doing the same—well, that kind of changes everything).

suna is utterly defeated you think—doesn’t even try to defend himself, just slumps in his seat with a groan. you at least expected a “i can explain!” from him, a last attempt at dignity, not the resigned “i’m never going to live this down, am i?” he mumbles after a few seconds. well, either works for you.

“nope,” you quip, maybe a little too cheerfully because the response you receive is a distressed wail and him banging his head against the table. the old lady shushes him again. you chuckle at that (it feels a little wobbly though because once again, freaking out here) and flip the page. you stop.

this one has similar perfect little hearts drawn all over it, but there are other things. cute, standard shaky drawings of misshapen dogs and volleyballs and other things you never thought suna would take it upon himself to create but all of which make sense are there. but there’s something else. little scribbles in the corners with your last name swapped with his and even him trying out his name with your last one—all of them are scratched out but not so much you can’t read them. a list on the right in a very tiny font that makes you think he was embarrassed even penning the words is titled “date ideas?” (the question mark is in red and the dot is a heart) and has several popular spots around town written down in the local lingo of unofficial names for them.

“listen... please let’s forget about this.” rin’s voice is muffled and he’s still faceplanted. “it’s fine if you don’t... you know... yeah.” if you don’t feel that way, he means. true, the doodles were a pretty good indication of his feelings.

what to do...

well... you take pity on him, let your lips upturn and your eyes soften to reflect the sentiment, and shut the book with a quiet thud. you slide it back across the table from where it came and back to him silently. you give it a resounding pat when suna peeks up at you, expression saying it all—he was so going to get you back for this. you stick your tongue out—acceptance of the challenge. and just like that, you’re friends again—maybe that’s what’s so great about suna.

as you get ready to leave and slowly begin the trek back to the dorm buildings with him, street lamps glimmering a pasty yellow, there’s no awkward tension, no need to ask questions, no verbal wonderings about what ifs between you two. it’s just joking and shoving each other around and challenges to see who can run to the next tree the fastest in the middle of the chilly february night. you know, maybe for now you’ll keep your own thoughts a secret.

Canada Concrete Admixtures and Concrete Repair Mortars (CRM) Market 2023: Current and Future Market Potential by types and by end Canadae indCanadatries

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Carbon Black Market: Expanding Use in Packaging & Printing

Distinguished by its high elemental carbon (EC) content and well-controlled properties, carbon black is a popular additive mainly used for the reinforcement of rubber and plastic products, as well as coloring. Its widespread applications range from electrical conductivity in high-technology materials to the black coloring pigment of newspaper inks.

As per Inkwood Research, the global carbon black market is forecasted to grow with a CAGR of 5.14% during the projection period 2023 to 2032, capturing a revenue share of $17990.52 million by 2032.

Carbon Black: The Bold Choice in Packaging & Printing Ink Applications

The unique properties of carbon black make it an important component of many packaging as well as printing ink formulations, providing benefits such as safety elements and deep black coloration. For example, carbon black can be used in the printing of security features, such as watermarks and holograms, on packaging materials. These features help prevent counterfeiting and protect the integrity of the product.

Let’s take a look at the use of carbon black as a widely used element in the packaging and printing industries –

Anti-Static Packaging: Carbon black can be added to packaging materials such as polyethylene to provide anti-static properties. In this regard, the primary role of carbon black is to dissipate electricity in a controlled and safe manner to safeguard against static electrical discharge. This is particularly important in the packaging of electronic components, which can be damaged by static electricity. For instance, since PLA, a biodegradable aliphatic polymer obtained from renewable sources, has no conductive characteristics, it requires the inclusion of conductive carbon black. The addition makes the polymer less resistive as the dissipative material, thereby making it suitable for the manufacture of anti-static packaging.

UV Protection: Long-term exposure to sunlight can result in the degradation of surface materials leading to a deterioration of physical properties, chalking, or changes in color. Carbon black, in this regard, is widely recognized for its potential to stabilize polyolefins against ultraviolet degradation. It can also be utilized as a UV absorber in packaging materials such as polypropylene and polyethylene. Moreover, as per an article titled, ‘Effect of Carbon Black on UV stability of LLDPE Films Under Artificial Weathering Conditions,’ the presence of carbon black depicted significant improvement in UV stabilization when compared to clear films, especially for those with small particle sizes. Carbon black also helps slow down or prevent the destructive absorption of radiation that can subsequently impact the mechanical strength, flexibility, as well as opacity of the polymer. This factor plays an important role in protecting the contents of the package from the harmful effects of UV radiation.

Conductivity: Conductive inks are the primary building blocks of all printed electronic devices as well as circuit boards. Accordingly, conductive inks based on carbon black and graphite are mainly utilized in a wide range of applications, including energy harvesting, energy storage, printed heaters, and electrochemical sensors. Moreover, as per research, carbon-based aqueous inks also demonstrate high electrical conductivity coupled with excellent mechanical stability. This makes them ideal for applications such as flexible wearable electronics, printed capacitive sensors, and electroluminescent (EL) devices. With a graphite-type crystalline structure, carbon black particles also provide excellent electric conductivity and are thus utilized as conductive fillers mixed in plastics, paints, adhesives, elastomers, films, and pastes.

Black Coloration: Carbon black possesses higher tinting strength as compared to organic pigments or iron black. As a result, it is widely used for printing inks, newspaper inks, as well as paints. Moreover, the material is used as a black pigment for toners and inkjet inks. In the printing industry, carbon black is used as a pigment and to attain the viscosity for optimum print quality, as well. In this regard, post-treating carbon black facilitates the effective use of binding agents in ink for optimum system properties. On the other hand, coarse carbon blacks, also known as tinting blacks, are indispensable in terms of obtaining a desired grey color hue. The material’s deep black color also offers excellent contrast and visibility, thereby making it ideal for use in high-quality printing applications.

Carbon Black vs. Specialty Carbon Black: What’s the Difference?

Carbon black is a form of elemental carbon that is produced by the incomplete combustion or thermal decomposition of hydrocarbons. It is used in a wide range of applications, including tires, plastics, inks, coatings, and batteries. Specialty carbon black, on the other hand, is the purest form of carbon black with a lower level of ash, sulfur, metals, and other impurities, designed for specific applications.

The main distinction between carbon black and specialty carbon black is in terms of their properties and uses. Specialty carbon black has unique properties that make it suitable for specific applications, such as conductivity, tinting strength, UV resistance, and dispersibility. Some examples of specialty carbon black include conductive carbon black, used in electronic applications, and pigment carbon black, used in the production of black pigments in the printing and packaging industry. In essence, while both carbon black and specialty carbon black are forms of elemental carbon, specialty carbon black is specifically engineered to meet the needs of particular applications or industries.

Future of Carbon Black: Fortifying Specialty Carbon Black

The performance of specialty carbon black is mainly determined by its fundamental properties and the level of dispersion achieved during the application. The important chemical and physical properties include porosity, particle size, surface chemistry, and structure, which have a notable impact on the overall performance. Moreover, the level of dispersion is highly induced by the formulation (dispersant selection), physical form, and mixing equipment.

In terms of specialty carbon black usage, dispersion is a pivotal property for inks and coatings applications. However, rheological properties are also highly essential in the mixing and coating process; small particle size increases blackness, tint, and viscosity, while lowering dispersibility. Therefore, choosing the correct grade of specialty carbon black, aligning with the final application process, is important.

In order to achieve this, research and development activities are rapidly shifting towards advancements in nanotechnology and the development of high-viscosity specialty carbon black. For example, with two state-of-the-art technology centers at Marietta, Georgia and Taloja, Maharashtra, Birla Carbon (India), a leading player operating in the global carbon black market, strongly focuses on the research and development of specialty carbon black products. Hence, these factors are set to direct the notable growth of the global carbon black market during the forecast period.

By Shruti Vanjare

FAQs:

What are the main manufacturing processes of carbon black?

According to its manufacturing process, carbon black can be categorized into furnace black, gas black, lamp black, and thermal black. Inkwood Research anticipates that the furnace black segment, under the manufacturing process category, is set to grow with the highest CAGR of 5.28% between 2023-2032.

What are the key companies operating in the global carbon black market?

Cabot Corporation, Tokai Carbon Co Ltd, Imersys Graphite & Carbon, Mitsubishi Chemical Corporation, and others are among the key companies operating in the global carbon black market.

Synthetic Graphite Market to Register Incremental Dollar Opportunity During 2027

Stratview Research has launched a new report on the Synthetic Graphite Market, which is segmented by Product Type, by Application Type, by Material Type, and by Region (North America, Europe, Asia-Pacific, and Rest of the World).

Download Sample Report @

The Synthetic Graphite Market is likely to witness an impressive CAGR of 6.7% during the forecast period. The prime factor that is contributing to the demand for Synthetic Graphite is the increasing demand for Synthetic Graphite in various industries.

This report on the Synthetic Graphite Market has been put together covering various companies of the industry from different geographies. The study is a perfect blend of qualitative and quantitative research highlighting vital market developments, challenges and competition that the industry might face, along with opportunities and trends available in the Synthetic Graphite Market. The report intends to present a thorough analysis of the Synthetic Graphite Market and provide cutting-edge market intelligence to help decision makers undertake a sound investment evaluation. Besides, the report also classifies and analyses the emerging trends along with major growth drivers.

Synthetic Graphite Market Outlook

In the report, the market outlook section mainly encompasses fundamental dynamics of the market which include drivers, restraints, opportunities and challenges faced by the industry. Drivers and Restraints are intrinsic factors whereas opportunities and challenges act as extrinsic factors affecting the market. The report aims at answering several key questions concerning the overall profitability in the market.

Few key players operating in the Synthetic Graphite Market are-

SGL Carbon SE

GrafTech International Holdings Inc

Mersen Group

Nippon Graphite Industries

Tokai Carbon Co.

Toray Industries

Toho Tenax

Toyo Tanso

Mitsubishi Rayon Co.

Baofeng Five-star Graphite

IBIDEN CO

Showa Denko K.K.

Graphite India.

Growth drivers and Market Value:

This report, from Stratview Research, studies the Synthetic Graphite Market value and growth drivers over the trend period of 2022-27. According to the report -

Synthetic graphite, also called as artificial graphite, is a man-made substance manufactured by the high temperature treatment (2,500 to 3,000 degree Celsius) of amorphous carbon materials. It is manufactured by calcination and subsequent graphitization of petroleum coke and can achieve purity of 99.9% carbon. The types of amorphous carbon used as precursors to graphite are many, and can be derived from petroleum, coal, or natural and synthetic organic materials. Synthetic graphite holds major share in the pie of the global graphite market.

The global synthetic graphite market offers a good growth opportunity during the forecast period of 2020 to 2025. Carbon fiber and synthetic blocks are expected to experience the fastest growth in the next five years driven by increasing penetration of carbon composites in aerospace and automotive industries and double digit growth of lithium-ion batteries in the electric vehicles.

Segment Analysis:

Based on Form Type:

Synthetic graphite has four principal types; electrode, block, powder, and fiber. The largest type of the synthetic graphite is graphite electrode that is predominately used in the electric arc furnaces for melting steel & iron and producing alloys.

Synthetic graphite blocks are also man-made products and are made using petroleum coke. Blocks are produced from isostatic, extruded, die molded, and vibration molded process. All these processes offer distinctive benefits and are used for producing graphite for different applications. Synthetic blocks are used in the large variety of applications ranging from polysilicon production for photovoltaic industry to high temperature reactors in nuclear industry.

Based on Application Type:

Graphite electrodes are the largest application of synthetic graphite and is expected to remain the largest application in the next five years. Asia-Pacific region is the major consumer of the graphite electrode driven by rising demand for steel and other metals, mainly in China and India.

Battery is currently the hot topic in the graphite market. Battery is an application where both natural and synthetic graphite are used and truly compete with each other. There will be a continuous shift in graphite market away from amorphous natural graphite towards flake and synthetic graphite as emerging applications like batteries typically require large flake and high-purity grades.

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To know more about the Research Methodology and other aspects of the research study, kindly get in touch with our sales team at – [email protected]

Customization of the Report

Along with this market report, our team provides a customization according to the client’s requirement. In case of any queries or customization requirements, please connect with our sales team, who will ensure that your requirements are met.

Connect with us at – Stratview Research Call @:  +1-313-307-4176 Mail Us:  [email protected]

Global Carbon Graphite Brush Market Outlook, Industry Analysis and Prospect 2026

Carbon Graphite Brush Market in Brazil - Manufacturing and Consumption, Outlook and Forecast 2020-2026 Carbon Brush is a device which conducts current between stationary wires and moving parts, most commonly in a rotating shaft. Its basic applications are electric motors, alternators and electric generators. Also Read: http://www.marketwatch.com/story/earth-observation-market-analysis-2021-growth-trends-price-share-revenue-top-companies-and-more-2021-02-01 The characteristics of carbon brush material measured by carbon brush manufacturers are as follows: self-lubrication, conductivity, durability, and rid ability during sliding contact. Also Read: http://www.marketwatch.com/story/artificial-intelligence-in-healthcare-market-global-industry-analysis-size-share-growth-trends-and-forecast-2021---2026-2021-02-04 This report contains market size and forecasts of Carbon Graphite Brush in China, including the following market information: Brazil Carbon Graphite Brush Market Revenue, 2015-2020, 2021-2026, ($ millions) Brazil Carbon Graphite Brush Market Consumption, 2015-2020, 2021-2026, (M Units) Brazil Carbon Graphite Brush Production Capacity, 2015-2020, 2021-2026, (M Units) Top Five Competitors in Brazil Carbon Graphite Brush Market 2019 (%) The global Carbon Graphite Brush market was valued at 2270.5 million in 2019 and is projected to reach US$ 2449.4 million by 2026, at a CAGR of 1.9% during the forecast period. While the Carbon Graphite Brush market size in Brazil was US$ XX million in 2019, and it is expected to reach US$ XX million by the end of 2026, with a CAGR of XX% during 2020-2026. Also Read: http://www.marketwatch.com/story/global-electronic-straight-hair-combs-market-get-market-research-business-risk-industry-analysis-reports-2021-2021-02-08 MARKET MONITOR GLOBAL, INC (MMG) has surveyed the Carbon Graphite Brush manufacturers, suppliers, distributors and industry experts on the impacts of the COVID-19 pandemic on businesses, with top challenges including ingredients and raw material delays, component and packaging shortages, reduced/cancelled orders from clients and consumers, and closures of production lines in some impacted areas. This report also analyses and evaluates the COVID-19 impact on Carbon Graphite Brush production and consumption in China Total Market by Segment: Brazil Carbon Graphite Brush Market, By Type, 2015-2020, 2021-2026 ($ millions) & (M Units) Brazil Carbon Graphite Brush Market Segment Percentages, By Type, 2019 (%) Electrographite Brush Graphite Brush Metal graphite Brush Silver graphite Brush Also Read: http://www.marketwatch.com/story/global-razors-market-projection-by-regional-analysis-demand-growth-technology-application-forecast-to-2026-2021-02-10 Brazil Carbon Graphite Brush Market, By Application, 2015-2020, 2021-2026 ($ millions) & (M Units) Brazil Carbon Graphite Brush Market Segment Percentages, By Application, 2019 (%) Industrial Equipment Automotive application Home application Micro motors Competitor Analysis The report also provides analysis of leading market participants including: Total Carbon Graphite Brush Market Competitors Revenues in China, by Players 2015-2020 (Estimated), ($ millions) Total Carbon Graphite Brush Market Competitors Revenues Share in China, by Players 2019 (%) Total Brazil Carbon Graphite Brush Market Competitors Sales, by Players 2015-2020 (Estimated), (M Units) Total Brazil Carbon Graphite Brush Market Competitors Sales Market Share by Players 2019 ($ millions) Further, the report presents profiles of competitors in the market, including the following: Mersen Morgan Also Read: http://www.marketwatch.com/story/expanded-polytetrafluoroethylene-market-global-industry-analysis-size-share-growth-trends-and-forecast-2021---2027-2021-02-11 Schunk AVO Helwig Carbon Products GERKEN Ohio Fuji Tris Toyo Tanso Dremel Harbin Electric Carbon Factory Donon Sunki Nantong Kangda FOR MORE DETAILS : https://www.wiseguyreports.com/reports/5795946-global-online-education-market-report-2026-market-size About Us: Wise Guy Reports is part of the Wise Guy R

The Electrical Fishing Reel - Buyers Guide

Fishing reels can be found in numerous variations, with respect to the specific application for which the fishing reel is to be used. Each type of reel belongs to three main types of fishing reels; Casting, Spinning & Fly Fishing Reels. Many of the very recognized names in the tackle industry like Daiwa, Shimano and Penn create a full distinct these kind of reels for both freshwater and saltwater anglers. Over time, fishermen have come to label the three forms of reels according to descriptive characteristics of a certain reel. This has lead to confusion as to the proper terminology that should be used when referring to a particular reel. I will try and explain why a reel is defined as such and why the exact same kind of reel, will often be assigned two different labels, one for freshwater and another for saltwater fishing.

릴게임

Casting Reels: When fished in freshwater, this sort of fishing reel is commonly known as a baitcast, baitcaster or baitcasting reel. Many people have a tendency to separation the 2 words into bait-cast, caster and casting. Whichever your preference is, you're still discussing the same reel. When these types of reels are fished in saltwater, they are typically characterized by function and features. For deep sea fishing, casting reels are called conventional fishing reels and anglers have created descriptive labels for these such as for instance star-drag, lever-drags, high-speed, jigging, big-game, two-speed & trolling reels. Spinning Reels: You will find two forms of spinning reels which make up this category of reels, which happens to be the most used group of reels. There is the enclosed-spool spincast, spincaster or spincasting reel, that ought to be used for freshwater fishing and teaching kids or novice anglers just how to fish. The more common version, the spinning reel, which includes an open spool and bail, may be utilized in both freshwater or saltwater applications. From ultra-light tackle, to heavy duty saltwater jigging, spinning rods and reels are present in most fishing arsenals. Fly Reels: These reels are designed to cast both freshwater and saltwater flies, wet or dry. They're usually spooled with a support, line, fly tippet and then a leader, which your fly is then tied to. Normally employed for freshwater fishing, fly rod and reel combos are continually becoming stronger and better, creating saltwater opportunities that have been never considered possible. Saltwater fly fishing combos have now been gaining a tremendous following of anglers and are increasingly being used to create new angling world records for saltwater fish species.

The current weather, not enough resources, and proper venue should not be seen as immovable obstacles to your fishing goals. If you truly desire to bait, hook and catch fishes today, then so you need to! But this time around, you'll be doing it on TV. Wear your favorite fishing outfit when it makes you comfortable then take the very best seat in the house. Pick one from the fishing games reviewed below, attach your PlayStation 2 to the TV, and you're prepared to own one of the very most exciting fishing challenges in your life! Nowadays, people who have busy careers and hectic lives are forced to invest only a few minutes fishing and achieve this in artificial settings. With Reel Fishing III, however, you can fish anytime, and feel like oahu is the real thing. Reel Fishing III provides its users with an incomparable connection with nature fishing; a few minutes into the game, and you might forget you're certainly not out enjoying the sweetness and peace that only Mother Nature can provides us.

Spinning reels, whether freshwater or saltwater spinning reels, share something in common that differs from conventional fishing reels. When casting a spinning fishing reel, the fishing line is cast off the reel spool in a circular unraveling, around a fixed spool. Casting reels on another hand unravel with a straighter motion, with the spool of the reel in freespool, where the spool of the reel spins as the line comes off. This free-spinning motion of the conventional casting reel spool often contributes to messy line tangles if the spool is not controlled with the right thumb pressure. The tangle free casting is what probably makes spinning fishing reels typically the most popular type of fishing reel. Spincasting reels change from normal spinning reels for the reason that the spool of the fishing reel is normally encased. This sort of reel is usually cast with a press of a button, which disengages the line. To activate the line, all of the angler does is turn the handle only a little to re-engage the spool. The limited line capacity, size and overall utility of this type of fishing reel ought to be on a freshwater fishing applications as well as teaching novices the fine art of casting and fishing. Another important note is a spin casting reel should sit atop the fishing rod and the handle of the reel on the right side of the reel for right-handed anglers.

Spinning reels, on the other hand, can handle freshwater lunker bass fishing, big-game saltwater jigging, in addition to freshwater and saltwater tournament style fishing. Spinning reels should hang below the spinning rod, with the handle of the reel on the left side of the reel for right-handed fishermen. Spinning fishing reels have an open spool, with the fishing line thread through a bail, which is designed to support the line. To cast, the angler must open the bail, grab the fishing line with a hand, cast, and then either manually close the bail or turn the handle a half revolution to automatically close the bail. Please, when casting a spinning reel, DO NOT FORGET to open the bail. I have experienced many expensive lures go flying in to the deep sea with the familiar pop or snap of the fishing line because the angler forgot this critical part of casting these reels. The subject of selecting a fly rod and a fly reel is of controversial nature. It's probably as a result of different opinions that anglers hold near and dear for their hearts. Also, fly fishing dates back to several centuries ago, therefore the rod and reel combo has undergone a lot of changes over the past few decades.

Hence, in order to achieve success, you'll need to precept your needs first of all. Are you currently trying to hunt down some of those giant marlin that 4 fishermen hold in a normal group photo? Have you been trying to look for a salmon small enough to fit your grasp easily? Keep wondering such questions and your answers will lie in the huge variance of fly rods and fly reels. For instance, a dual handed fly rod is generally regarded as being perfect for monstrous fish gaming. These rods have big reels with giant arbors and the entire line diameter is usually above the notch, when compared with a tiny reel. Likewise, the topic of reels is also quite deep. Fly reels are noted for their drag system and their arbors.

Specifically speaking, a broad choice of fly reels could have two forms of drag systems: The Spin and Pawl and The Disc Drag. The first variety is practically obsolete now, probably your great grandfather includes a classic brand with spin and pawl system based fly reel. The current versions of reels are increasingly being introduced in compliance with the drag systems, which utilize the apparatus that's situated in the fly wheel. This gear helps the fly line to produce or unravel itself at a constant and a predefined rate. Trouts simply love to hang onto drag system fly reels. Some reel models allow you to adjust the "drag", to be able to apply a specific number of resistance to the reel line. The whole system works like padded brakes of a car, but that's just a rough explanation. You haven't seen any fly reels, the size of a vehicle rim, maybe you have?

Never make the assumption that the fishing gear may be the best. Yes, you can rely on a particular rod for quite a while, but there's always something new and updated in the market. Hence, it'd be better to help keep visiting the neighborhood fishery vendor to purchase the current products. Fair enough? Okay, let's see the rod category. Fly rods within the $200 - $150 range are regarded as being entry level product. These rods aren't that shabby and are normally created from graphite, high modulus carbon fiber or aluminum. Tom Morgan, a fly fishing expert, once said, "During the last forty years, most of the fishies have been obtained from 20'to 40 '. I expect the same from the following 50 years." He explained so in the context of long casting, which explains why his statement is normally misunderstood by lots of people out there. In order to select a fly rod or a fly reel, you must take its material and overall performance into account. For rods, graphite has a tendency to go far and feels lighter. Normally graphite based products have a quick tip or mid tip action, which is most effective to low level fishing.

Road Trip? New Record-Crushing Battery Lasts 1.2 Million Miles in Electric Cars

Electric cars had their biggest year ever in 2019. As of the end of the year, 2.5 percent of the world’s total cars were electric. It’s a small percentage, but represents significant growth for the electric vehicle industry.

Before electric cars become more widespread, they have some technological hurdles left to clear, including the distance drivers can go before having to re-charge the car’s battery (also known as range anxiety!), and the life of the battery itself. Range currently runs from around 100 miles on the low end up to 200+ miles in newer models, and most warranties run out after 150,000 miles or 8 years.

The latter figures are about to get a big boost after an announcement this week from Chinese company Contemporary Amperex Technology Co. Ltd. (CATL). The company says it has new battery technology that lasts up to 1.2 million miles (2 million kilometers) and 16 years—and it’s ready to manufacture the batteries on demand.

CATL is the world’s biggest manufacturer of electric vehicle batteries, and currently supplies them to a multitude of carmakers including Tesla, BMW, Toyota, Honda, and Volkswagen. Though sales of cars—like everything else—have slumped this year due to the coronavirus pandemic, CATL and its clients are counting on a demand spike in 2021, once there’s less uncertainty in the market and consumers feel more comfortable making big purchases. “The pandemic may have a lasting effect throughout 2020, but won’t be a major factor next year,” said CATL chairman Zeng Yuqun. “We have great confidence for the long run.”

Earth’s circumference at the equator is about 24,901 miles; that means a 1.2-million-mile battery could power a car for 50 trips around the world before it gave out. Whew—that’s some serious mileage. Given that there’s no car whose other components can come even close to lasting this long, CATL has already floated the idea that its new batteries could be used successively in multiple cars.

CATL hasn’t revealed details about the technology behind the extra-long-lasting batteries, but it’s likely they involve some of the measures described last year by a research team at Dalhousie University in Nova Scotia, Canada.

The team was led by Jeff Dahn, a physicist and professor who partnered with Tesla to help the company advance its battery research. In a paper published in September in the Journal of the Electrochemical Society, the authors described a battery that Dahn said “should be able to power an electric vehicle for over one million miles and last at least two decades in grid energy storage.”

The battery uses lithium nickel manganese cobalt oxide (NMC) for its cathode (positively-charged electrode) and artificial graphite for its anode (negatively-charged electrode). The cathodes of existing batteries use small NMC crystals, but this one uses larger crystals, resulting in a structure that one researcher explained is less likely to develop cracks while the battery charges; that was one of the primary improvements contributing to a longer overall lifespan.

The other was a reformulation of the material that carries ions between the battery’s cathode and its anode. Like its predecessors, the new battery uses a lithium salt with additives, and the Dalhousie team devoted a lot of research and time to optimizing the blend of ingredients.

The team openly shared details of their work in such a way that other researchers and companies could recreate the technology, saying they wanted it to serve as a benchmark in the field. In December of last year, however, Tesla patented new lithium-ion battery technology, and Dahn was one of its inventors. It’s possible, then, that CATL’s battery has a cathode made of large NMC crystals, but uses a different electrolyte/additive mixture.

Whatever the company’s formula, it seems it will be instrumental to making Elon Musk’s vision of a million-mile battery come true, and sooner rather than later. CATL will supply batteries to Tesla Model 3s made at the Gigafactory near Shanghai. Conveniently close to Tesla’s first European Gigafactory, which is under construction outside Berlin, CATL is building a factory in Erfurt, Germany that’s slated to start making batteries in 2021.

Last year BloombergNEF predicted electric cars would be cheaper than gas cars by 2022, largely thanks to the dropping cost of batteries. Though the coronavirus pandemic threw a wrench into manufacturing (and into predictions of all types), CATL’s million-mile battery points to progress pressing on.

Image Credit: ErikaWittlieb from Pixabay

The main battery electrode material

As a Car 18650 battery supplier, today we would like to share the main battery electrode material for you.

Carbon negative materials

The cathode materials used in lithium ion batteries are basically carbon materials, such as artificial graphite, natural graphite, mesophase carbon microspheres, petroleum coke, carbon fiber, pyrolysis resin carbon and so on.

Tin base anode material

Tin - based anode materials can be divided into tin oxides and tin - based composite oxides. Oxides are oxides of various valence metals of tin. No commercial products.

nitrides

There are no commercial products.

Alloy class

They include tin-based alloys, silicon-based alloys, germany-based alloys, aluminium-based alloys, antimony-based alloys, magnesium-based alloys and other alloys, and there are no commercial products.

nanoscale

Carbon nanotubes, nanometer alloy materials.

Nanometer oxide

At present, according to the latest market development trend of lithium battery new energy industry in 2009, many companies have begun to use nano titanium oxide and nano silicon oxide to add in the traditional graphite, tin oxide and carbon nanotubes, greatly increasing the charge and discharge amount and times of lithium battery.

That's all for the sharing, thanks for your reading, and we also supply car 18650 battery for sale, if you have any demand for our products, just feel free to contact us.

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Synthetic Graphite Market 2022 – 2027 | Prominent Players, Business Demand, Comprehensive Analysis, Global Prospect by Future Growth Analysis

Stratview Research delivers key insights on the global Synthetic Graphite Market. According to Stratview Research, the market is estimated to grow at a decent CAGR of 5.1% during the forecast period to reach a value of US$ 310 Million in 2027.

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The present report can be of high utility for the key decision-makers and growth strategists in terms of precise market insights, forthcoming growth opportunities, and key success factors. Especially, the report also analyses and mentions the possible impact of COVID-19 on the market dynamics. This will not only help in mitigating the uncertain business environment, but also help in rearranging the strategies and future- decisions in a fruitful manner.

Key Players

The following are some of the key players in the Synthetic Graphite Market:

SGL Carbon SE

GrafTech International Holdings Inc

Mersen Group

Nippon Graphite Industries

Tokai Carbon Co.

Toray Industries

Toho Tenax

Toyo Tanso

Mitsubishi Rayon Co.

Baofeng Five-star Graphite

IBIDEN CO

Showa Denko K.K.

Graphite India.

Growth drivers and Market Value:

This report, from Stratview Research, studies the Synthetic Graphite Market value and growth drivers over the trend period of 2022-27. According to the report -

Synthetic graphite, also called as artificial graphite, is a man-made substance manufactured by the high temperature treatment (2,500 to 3,000 degree Celsius) of amorphous carbon materials. It is manufactured by calcination and subsequent graphitization of petroleum coke and can achieve purity of 99.9% carbon. The types of amorphous carbon used as precursors to graphite are many, and can be derived from petroleum, coal, or natural and synthetic organic materials. Synthetic graphite holds major share in the pie of the global graphite market.

The global synthetic graphite market offers a good growth opportunity during the forecast period of 2020 to 2025. Carbon fiber and synthetic blocks are expected to experience the fastest growth in the next five years driven by increasing penetration of carbon composites in aerospace and automotive industries and double digit growth of lithium-ion batteries in the electric vehicles.

Segment Analysis:

Based on Form Type:

Synthetic graphite has four principal types; electrode, block, powder, and fiber. The largest type of the synthetic graphite is graphite electrode that is predominately used in the electric arc furnaces for melting steel & iron and producing alloys.

Synthetic graphite blocks are also man-made products and are made using petroleum coke. Blocks are produced from isostatic, extruded, die molded, and vibration molded process. All these processes offer distinctive benefits and are used for producing graphite for different applications. Synthetic blocks are used in the large variety of applications ranging from polysilicon production for photovoltaic industry to high temperature reactors in nuclear industry.

Based on Application Type:

Graphite electrodes are the largest application of synthetic graphite and is expected to remain the largest application in the next five years. Asia-Pacific region is the major consumer of the graphite electrode driven by rising demand for steel and other metals, mainly in China and India.

Battery is currently the hot topic in the graphite market. Battery is an application where both natural and synthetic graphite are used and truly compete with each other. There will be a continuous shift in graphite market away from amorphous natural graphite towards flake and synthetic graphite as emerging applications like batteries typically require large flake and high-purity grades.

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FREQUENTLY ASKED QUESTIONS

The report answers several questions related to the market. The user can get to know the answers to the following questions…

What is the global demand for Synthetic Graphite Market in terms of revenue?

Which are the prominent players in the market?

At what CAGR is the market projected to grow within the forecast period?

What are the driving factors fuelling the growth of the market?

Which region accounted for the largest share in the market?

How did the Covid19 impacted the market?

How long will it take to recover from the Covid impact?

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Stratview Research is a leading global market research firm providing expert research solutions, trusted by clients worldwide. To keep our clients ahead of the curve, we provide data backed by extensive market research and in-depth industry knowledge. The broad spectrum of integrated insights is referred to, and cited by press releases, interview with key players, white papers, journals, etc. Stratview research also offers custom research services across the sectors. In case of any custom research requirement related to market assessment, competitive benchmarking, sourcing and procurement, target screening, and others, please connect with our team.

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