GMG's THERMAL-XR(R) Demonstrates Potential for Electronics Heat Sink Miniaturization and Efficiency
GMG's THERMAL-XR(R) Demonstrates Potential for Electronics Heat Sink Miniaturization and Efficiency
Figure 1: THERMAL-XR Coated Electronics Heat SinkBrisbane, Queensland, Australia--(Newsfile Corp. - December 11, 2024) - Graphene Manufacturing Group Ltd. (TSXV: GMG) (OTCQX: GMGMF) ("GMG" or the "Company") is pleased to provide a business update on the commercialisation progress of THERMAL-XR Powered by GMG Graphene.
澳大利亚昆士兰州布里斯班--(资讯公司 - 2024年12月11日)- 石墨烯制造集团有限公司(TSXV: GMG)(OTCQX: GMGMF)("GMG"或"公司")很高兴提供关于THERMAL-XR由GMG石墨烯驱动的商业化进展的业务更新。
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GMG continues to make progress in testing with companies in multiple industries for the use of THERMAL-XR in their products, including on heat sinks for electronics. Figure 1 shows an aluminium heat sink that is commonly used in electronics for removing heat from printed circuit boards, electrical circuits and processing silicon chips, and that has been coated with THERMAL-XR.
GMG在与多个行业的公司合作测试THERMAL-XR用于他们的产品方面不断取得进展,包括用于电子产品的散热器。图1显示了一种常用于电子产品中去除印刷电路板、电路和处理硅芯片热量的铝散热器,并且该散热器已涂覆THERMAL-XR。
Figure 1: THERMAL-XR Coated Electronics Heat Sink
图1:涂覆THERMAL-XR的电子散热器
HEAT SINK MINIATURISATION:
散热器小型化:
Third-party verified modelling demonstrates that applying THERMAL-XR to a heat sink could reduce its size by up to 39%, while maintaining equivalent thermal performance, offering the potential for weight and material cost savings. Figure 2 shows that the maximum temperature reached by a heat sink coated with THERMAL-XR is 62 degrees centigrade, 23% lower than the maximum temperature of 80 degrees Celsius reached by a heat sink of equal size that has not been coated with THERMAL-XR. Figure 3 shows that a heat sink coated with THERMAL-XR that is 39% smaller in terms of width achieves the same performance as a heat sink that has not been coated with THERMAL-XR.
第三方验证的建模表明,将THERMAL-XR应用于散热器可以将其体积缩小多达39%,同时保持相同的热性能,从而提供减轻重量和材料成本的潜力。图2显示涂覆THERMAL-XR的散热器达到的最高温度为62摄氏度,比未涂覆THERMAL-XR的相同大小的散热器最高达到的80摄氏度低23%。图3显示,在宽度上比未涂覆THERMAL-XR的散热器小39%的散热器能够实现与未涂覆的散热器相同的性能。
| Material | Ambient Temp. ( ̊C) | Power (W) | Emissivity | Convection Type | Heat Sink Dimensions (mm) | Max Temp. ( ̊C) | Temperature Difference Between Aluminium and THERMAL-XR | |||
| Width | Length | Height | ΔT( ̊C) | ΔT% | ||||||
| Aluminium | 25 | 80 | 0.11 | Natural Convection | 62 | 58 | 38 | 80 | -18 | 23% |
| THERMAL-XR | 0.95 | 62 | ||||||||
| 材料 | 环境温度 ( ̊C) | 功率 (W) | 发射率 | 对流类型 | 散热器尺寸 (mm) | 最大温度 ( ̊C) | 铝和THERMAL-XR之间的温差 | |||
| 宽度 | 长度 | 高度 | ΔT( ̊C) | ΔT% | ||||||
| 铝 | 25 | 80 | 0.11 | 自然对流 | 62 | 58 | 38 | 80 | -18 | 23% |
| THERMAL-XR | 0.95 | 62 | ||||||||
Figure 2: Modelling of an Electronic Heat Sink with THERMAL-XR coated on all sides, excluding the base, shows a 23% reduction in maximum temperature reached.
图2:电子散热器的建模,所有侧面涂覆THERMAL-XR,底部除外,显示出最大温度降低了23%。
| Material | Ambient Temp. ( ̊C) | Power (W) | Emissivity | Convection Type | No. of Fins | Heat Sink Size (mm) | Temperature ( ̊C) | ||||
| Width | Length | Height | ΔW% | Max | Min | ||||||
| Aluminium | 25 | 80 | 0.11 | Natural Convection | 8 | 62 | 58 | 38 | - | 80 | 76.7 |
| THERMAL-XR | 0.95 | 5 | 38 | 58 | 38 | -39% | 80 | 75 | |||
| 材料 | 环境温度 ( ̊C) | 功率 (W) | 发射率 | 对流类型 | 鳍片数量 | 散热器尺寸(毫米) | 温度(°C) | ||||
| 宽度 | 长度 | 高度 | ΔW% | 最大值 | 最小值 | ||||||
| 铝 | 25 | 80 | 0.11 | 自然对流 | 8 | 62 | 58 | 38 | - | 80 | 76.7 |
| THERMAL-XR | 0.95 | 5 | 38 | 58 | 38 | -39% | 80 | 75 | |||
Figure 3: A heat sink coated with THERMAL-XR on all sides, excluding the base, that is 39% smaller achieves the same results and temperature as the bare aluminium heat sink depicted in Figure 1.
图3:一个在所有侧面涂覆THERMAL-XR的散热器,底部除外,尺寸减少了39%,与图1所示的裸铝散热器达成相同的效果和温度。
Global Printed Circuit Board (PCB) production is projected[1] to reach 530 million square meters annually by the year 2030, or about 5.3 trillion printed circuit boards. As PCB density increases, higher current loads lead to more heat, with 5.2 billion units expected to require heat sinks for cooling. THERMAL-XR coated on the heat sinks, enhances the heat sink efficiency, enabling smaller heat sinks and more compact PCB assemblies. The total amount of THERMAL-XR that could be used for this application to improve performance is 26.5 million litres per annum by 2030, assuming 0.1% will use the coating.
全球印刷电路板(PCB)预计到2030年年产量将达到53000万平方米,约为5.3万亿块印刷电路板。随着PCB密度的增加,更高的电流负荷会导致更多的热量,预计520亿个单元将需要散热器进行冷却。涂覆THERMAL-XR的散热器提高了散热器的效率,使得更小的散热器和更紧凑的PCB组件成为可能。假设0.1%将使用涂层,到2030年用于该应用以改善性能的THERMAL-XR总量预计为2650万升每年。
GMG's Managing Director and CEO, Craig Nicol, commented: "Heat sinks are a critical component of modern electronics, but they come with various challenges, especially as devices become smaller, faster, and more powerful. GMG's THERMAL-XR offers a potential solution in heat sink miniaturization, enabling up to 39% size reduction while maintaining thermal performance. This has the potential to not only cut material costs but also unlock new opportunities for compact and efficient electronics designs, addressing the rising thermal management demands of the global printed circuit board market."
GMG的董事总经理兼首席执行官Craig Nicol评论道:"散热器是现代电子产品的关键组成部分,但它们也面临各种挑战,特别是随着设备变得更小、更快、更强大。GMG的THERMAL-XR为散热器的小型化提供了潜在解决方案,能够在保持热性能的同时实现多达39%的尺寸减少。这不仅有可能降低材料成本,还能为紧凑高效的电子设计开启新的机会,以应对全球印刷电路板市场日益增长的热管理需求。"
About THERMAL-XR powered by GMG Graphene:
关于由GMG石墨烯提供动力的THERMAL-XR:
THERMAL-XR COATING SYSTEM is a unique method of improving the thermal heat transfer of heat exchange surfaces. The process coats and protects heat exchange surfaces while increasing the heat transfer rate by leveraging the physics of GMG Graphene, resulting in an efficiency improvement and a potential power reduction.
THERMAL-XR涂层系统是一种独特的方法,用于改善热交换表面的热量传递。该工艺为热交换表面涂层和保护,同时通过利用GMG石墨烯的物理特性提高热传递率,从而实现效率提升和潜在的功耗减少。
THERMAL-XR is powered by GMG Graphene. PATENT PENDING
THERMAL-XR由GMG石墨烯提供动力。 专利待批
About GMG
关于GMG
GMG is a clean-technology company which seeks to offer energy saving and energy storage solutions, enabled by graphene, including that manufactured in-house via a proprietary production process. GMG has developed a proprietary production process to decompose natural gas (i.e. methane) into its elements, carbon (as graphene), hydrogen and some residual hydrocarbon gases. This process produces high quality, low cost, scalable, 'tuneable' and low/no contaminant graphene suitable for use in clean-technology and other applications.
GMG是一家清洁科技公司,致力于提供节能和储能解决方案,利用石墨烯,包括通过专有生产工艺在内部制造的石墨烯。GMG开发了一种专有生产工艺,将天然气(即甲烷)分解成其元素,碳(作为石墨烯)、氢和一些残余的碳氢气体。该工艺生产高质量、低成本、可扩展的“可调”低/无污染石墨烯,适用于清洁科技和其他应用。
The Company's present focus is to de-risk and develop commercial scale-up capabilities, and secure market applications. In the energy savings segment, GMG has focused on graphene enhanced heating, ventilation and air conditioning ("HVAC-R") coating (or energy-saving coating), lubricants and fluids.
公司目前的重点是降低风险,开发商业规模能力,并确保市场应用。在节能领域,GMG专注于石墨烯增强的供暖、通风和空气调节("HVAC-R")涂层(或节能涂层)、润滑剂和液体。
In the energy storage segment, GMG and the University of Queensland are working collaboratively with financial support from the Australian Government to progress R&D and commercialization of graphene aluminium-ion batteries ("G+AI Batteries").
在储能领域,GMG与昆士兰大学合作工作,并获得澳大利亚政府的财政支持,以推动石墨烯铝离子电池("G+AI电池")的研发和商业化。
GMG's 4 critical business objectives are:
GMG的四个关键业务目标是:
- Produce Graphene and improve/scale cell production processes
- Build Revenue from Energy Savings Products
- Develop Next-Generation Battery
- Develop Supply Chain, Partners & Project Execution Capability
- 生产石墨烯并改善/扩大电芯生产流程
- 通过能源节约产品创造营业收入
- 开发下一代电池
- 开发供应链、合作伙伴及项目执行能力
For further information please contact:
如需进一步信息,请联系:
- Craig Nicol, Chief Executive Officer & Managing Director of the Company at craig.nicol@graphenemg.com, +61 415 445 223
- Leo Karabelas at Focus Communications Investor Relations, leo@fcir.ca, +1 647 689 6041
- 公司首席执行官兼董事总经理Craig Nicol,电子邮件: craig.nicol@graphenemg.com,电话:+61415445223
- Focus Communications投资者关系Leo Karabelas,电子邮件:leo@fcir.ca,电话:+1 647 689 6041
Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accept responsibility for the adequacy or accuracy of this news release.
TSX创业公司交易所及其监管服务提供商(根据TSX创业公司交易所政策定义的术语)对本新闻稿的充分性或准确性不承担任何责任。
Cautionary Note Regarding Forward-Looking Statements
关于前瞻性声明的警示说明
This news release includes certain statements and information that may constitute forward-looking information within the meaning of applicable Canadian securities laws. Forward-looking statements relate to future events or future performance and reflect the expectations or beliefs of management of the Company regarding future events. Generally, forward-looking statements and information can be identified by the use of forward-looking terminology such as "intends", "expects" or "anticipates", or variations of such words and phrases or statements that certain actions, events or results "may", "could", "should", "would" or will "potentially" or "likely" occur. This information and these statements, referred to herein as "forward‐looking statements", are not historical facts, are made as of the date of this news release and include without limitation, the progression of testing and sales of THERMAL-XR in multiple industries, the benefits of using THERMAL-XR on heat sinks, the projected growth of PCB production, and the number of PCBs which will require heat sinks in the future.
本新闻稿包含某些可能构成符合适用的加拿大证券法的前瞻性信息的声明和信息。前瞻性声明与未来事件或未来表现有关,并反映了公司管理层对未来事件的期望或信念。通常,可以通过使用"计划"、"期望"或"预期"等前瞻性术语,或这些词语和短语的变体来识别前瞻性声明和信息,或者某些行动、事件或结果"可能"、"可以"、"应该"、"将"或者"潜在地"或"可能"发生的声明。本信息和这些声明在此称为"前瞻性声明",不是历史事实,所作时间为本新闻稿的日期,包括但不限于,在多个行业中对THERMAL-XR的测试和销售进展、在散热器上使用THERMAL-XR的好处、PCB生产的预期增长以及未来需要散热器的PCB数量。
Such forward-looking statements are based on a number of assumptions of management, including, without limitation, that the Company will continue to receive interest in testing and buying THERMAL-XR from multiple industries, that the use of THERMAL-XR on heat sinks will result in the benefits expected by management, that the use of THERMAL-XR will allow heat sinks to be smaller while delivering equivalent thermal performance, that PCB production will grow as currently projected, and that the number of PCBs requiring heat sinks in the future will align with current estimates. Additionally, forward-looking information involves a variety of known and unknown risks, uncertainties and other factors which may cause the actual plans, intentions, activities, results, performance or achievements of GMG to be materially different from any future plans, intentions, activities, results, performance or achievements expressed or implied by such forward-looking statements. Such risks include, without limitation: that the Company will not continue to receive interest in testing and purchasing THERMAL-XR from multiple industries, that THERMAL-XR will not have the expected benefits when applied to heat sinks, that the size of heat sinks will not be reduced, that PCB production will not grow as expected, that PCBs will not require heat sinks in the future, that THERMAL-XR coated heat sinks will not enable more compact printed circuit board assemblies, that there will not be demand for THERMAL-XR in the heat sink market, risks relating to the extent and duration of the conflict in Eastern Europe and its impact on global markets, the volatility of global capital markets, political instability, the failure of the Company to obtain regulatory approvals, attract and retain skilled personnel, unexpected development and production challenges, unanticipated costs and the risk factors set out under the heading "Risk Factors" in the Company's annual information form dated October 3, 2024 available for review on the Company's profile at .
这些前瞻性声明基于管理层的一些假设,包括但不限于,公司将继续获得来自多个行业对测试和购买THERMAL-XR的兴趣,使用THERMAL-XR在散热器上将带来管理层预期的好处,使用THERMAL-XR将使散热器在提供相同的热性能的同时体积更小,PCB生产将按目前预测增长,未来需要散热器的PCB数量将与当前估计一致。此外,前瞻性信息涉及多种已知和未知的风险、不确定性及其他因素,这些因素可能导致GMG的实际计划、意图、活动、结果、表现或成就与这些前瞻性声明所表达或暗示的任何未来计划、意图、活动、结果、表现或成就存在重大差异。这些风险包括但不限于:公司将不再继续获得来自多个行业对测试和采购THERMAL-XR的兴趣,THERMAL-XR在散热器上的应用不会带来预期的好处,散热器的尺寸不会减少,PCB生产不会按预期增长,未来的PCB不会需要散热器,涂有THERMAL-XR的散热器不会使印刷电路板组件更紧凑,散热器市场对THERMAL-XR不会有需求,与东欧冲突的程度和持续时间及其对全球市场的影响的风险,全球资本市场的波动性,政治不稳定,公司未能获得监管批准,吸引和留住熟练的人才,意外的开发和生产挑战,意外成本,以及公司2024年10月3日的年报信息表中标题为"风险因素"下陈述的风险因素。
Although management of the Company has attempted to identify important factors that could cause actual results to differ materially from those contained in forward-looking statements or forward-looking information, there may be other factors that cause results not to be as anticipated, estimated or intended. There can be no assurance that such statements will prove to be accurate, as actual results and future events could differ materially from those anticipated in such statements. Accordingly, readers should not place undue reliance on forward-looking statements and forward-looking information. Readers are cautioned that reliance on such information may not be appropriate for other purposes. The Company does not undertake to update any forward-looking statement, forward-looking information or financial out-look that are incorporated by reference herein, except in accordance with applicable securities laws. We seek safe harbor.
尽管公司的管理层已尝试识别可能导致实际结果与前瞻性声明或前瞻性信息中包含的结果有重大差异的重要因素,但可能还有其他因素导致结果未如预期、估计或意图。无法保证此类声明会被证明是准确的,因为实际结果和未来事件可能与这些声明中的预期有重大差异。因此,读者不应过度依赖前瞻性声明和前瞻性信息。提醒读者,依赖此类信息可能不适合其他目的。公司没有承诺更新本文件内引用的任何前瞻性声明、前瞻性信息或财务展望,除非符合适用的证券法。我们寻求安全港。
[1] Areas of PCB production projected from the source, Prismark Printed Circuit Board Market Report 2021, page 13
[1] 来自Prismark印刷电路板市场报告2021的PCB生产区域预测,第13页
