Made Smarter Innovation - Materials Made Smarter Research Centre

更智能的创新 - 更智能的材料研究中心

• 批准号: EP/V061798/1
• 负责人: Iain Todd
• 金额: $ 515.95万
• 依托单位: University of Sheffield
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FV061798%2F1
• 关键词: Made; Smarter; Innovation; Materials; Research

The Materials Made Smarter Centre has been co-created by Academia and Industry as a response to the pressing need to revolutionise the way we manufacture and value materials in our economy. The UK's ability to manufacture advanced materials underpins our ambitions to move towards cleaner growth and a more resource efficient economy. Innovation towards a net zero-carbon economy needs new materials with enhanced properties, performance and functionality and new processing technologies, with enhanced manufacturing capability, to make and deliver economic and societal benefit to the UK. However, significant technological challenges must still be overcome before we can benefit fully from the transformative technical and environmental benefits that new materials and manufacturing processes may bring. Our capacity to monitor and control material properties both during manufacture and through into service affect our ability to deliver a tailored and guaranteed performance that is 'right-first-time' and limit capacity to manage materials as assets through their lifetime. This reduces materials to the status of a commodity - a status which is both undeserved and unsustainable. Future materials intensive manufacturing needs to add greater value to the materials we use, be that through reduction of environmental impact, extension of product life or via enhanced functionality. Digitalisation of the materials thread will help to enhance their value by developing the tools and means to certify, monitor and control materials in-process and in-service improving productivity and stimulating new business models.Our vision is to put the UK's materials intensive manufacturing industries at the forefront of the UK's technological advancement and green recovery from the dual impacts of COVID and rapid environmental change. We will develop the advanced digital technologies and tools to enable the verification, validation, certification and traceability of materials manufacturing and work with partners to address the challenges of digital adoption. Digitisation of the materials thread will drive productivity improvements in materials intensive industries, realise new business models and change the way we value and use materials.

材料制造智能中心由学术界和工业界共同创建，以响应我们在经济中制造和评估材料的迫切需要。英国制造先进材料的能力支撑着我们向更清洁的增长和更高效的资源经济迈进的雄心。实现净零碳经济的创新需要具有增强性能、性能和功能的新材料，以及具有增强制造能力的新加工技术，从而为英国带来经济和社会效益。然而，在我们能够充分受益于新材料和制造工艺可能带来的变革性技术和环境效益之前，仍必须克服重大的技术挑战。我们在制造和使用过程中监测和控制材料性能的能力影响了我们提供量身定制和有保证的性能的能力，即“首次正确”，并限制了将材料作为资产管理整个生命周期的能力。这使材料沦为一种商品——一种既不值得也不可持续的地位。未来的材料密集型制造需要为我们使用的材料增加更大的价值，无论是通过减少对环境的影响，延长产品寿命还是通过增强功能。材料线的数字化将有助于通过开发工具和手段来认证、监控和控制在加工和在用材料，从而提高生产率和刺激新的商业模式，从而提高其价值。我们的愿景是使英国的材料密集型制造业处于英国技术进步和绿色复苏的前沿，摆脱新冠肺炎和快速环境变化的双重影响。我们将开发先进的数字技术和工具，以实现材料制造的验证、确认、认证和可追溯性，并与合作伙伴合作，应对数字化采用的挑战。材料线的数字化将推动材料密集型行业的生产率提高，实现新的商业模式，并改变我们重视和使用材料的方式。

项目成果

Synchrotron validation of inline coherent imaging for tracking laser keyhole depth

用于跟踪激光小孔深度的内联相干成像的同步加速器验证

• DOI: 10.1016/j.addma.2023.103798
• 发表时间: 2023
• 期刊: Additive Manufacturing
• 影响因子: 11
• 作者: Fleming T

Characterisation of Surface Roughness and its Amplification During Multilayer Laser Powder Bed Fusion Additive Manufacturing

多层激光粉末床熔融增材制造过程中表面粗糙度的表征及其放大

• DOI: 10.2139/ssrn.4471603
• 发表时间: 2023
• 作者: Bhatt A

An assessment of statistical models of competitive growth during transient Ostwald ripening in turbine disc nickel-based superalloys

• DOI: 10.1088/1361-651x/ac8c5d
• 发表时间: 2022-08
• 期刊: Modelling and Simulation in Materials Science and Engineering
• 影响因子: 1.8
• 作者: M. Anderson;L. Liao;H. Basoalto

In situ characterisation of surface roughness and its amplification during multilayer single-track laser powder bed fusion additive manufacturing

• DOI: 10.1016/j.addma.2023.103809
• 发表时间: 2023-10
• 期刊: Additive Manufacturing
• 影响因子: 11
• 作者: Alisha Bhatt;Yuze Huang;C. L. Leung;Gowtham Soundarapandiyan;S. Marussi;Saurabh Shah;Robert C. Atwood-Robe

In situ Correlative Observation of Humping-Induced Cracking in Directed Energy Deposition of Nickel-Based Superalloys

• DOI: 10.1016/j.addma.2023.103579
• 发表时间: 2023-04
• 期刊: Additive Manufacturing
• 影响因子: 11
• 作者: Tristan G. Fleming;David Tien Rees;S. Marussi;T. Connolley;R. Atwood;M. Jones;J. Fraser;Chu Lun;Alex Leung;P. D. Lee