2019 Physical Metallurgy GRC & GRS

2019物理冶金GRC

• 批准号: 1930043
• 负责人: Carol Handwerker
• 金额: $ 1.5万
• 依托单位: Gordon Research Conferences
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-07-01 至 2020-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1930043&HistoricalAwards=false
• 关键词: 2019; Physical; Metallurgy; GRC; &amp

This project is providing funding for registration and travel support to early career scientists, including assistant professors, post-docs, and graduate students, to attend the 2019 Gordon Research Conference (GRC) and Gordon Research Seminar (GRS) in Physical Metallurgy. The Physical Metallurgy GRC is well-known for providing a leading international forum for the presentation and discussion of research at the frontier of materials science and engineering and for providing networking opportunities for research collaborations and career development. This year's Physical Metallurgy GRC is subtitled Frontiers of Coupling Computation, Data Science, and Experiments in Physical Metallurgy, reflecting the community's commitment to the principles of the US Materials Genome Initiative(MGI) and the National Science Foundation's DMREF, MIP, and cross-cutting data science programs. The GRC will be preceded by an associated GRS) where early career researchers present and discuss their work and participate in mentoring and career-building activities. The GRS will be held on July 6-7, 2019 and the GRC will be on July 7-12, 2019, at Southern New Hampshire University, Hooksett NH. The GRC and GRC program chairs and vice-chairs have engaged in extensive outreach within the community to attract a diverse group of attendees, as well as creating a program with speakers and discussion leaders who are not only scientific leaders in the field, but also have a reputation for building the broader community, welcoming innovative ideas, and engaging well with early career scientists and engineers. A primary goal of the Physical Metallurgy GRC is to explore some of the most important advances in coupling computation, data science and experiments to enhance depth of our scientific understanding and the rate of its acquisition. Another aim is to explore potential intersections of emerging technologies and methods to frame essential questions regarding how these intersections might further develop and how collaborative efforts might be configured to take full advantage of the power of their coupling. The GRC and the associated GRS will help accelerate the design and development of advanced materials to enhance US manufacturing competitiveness, in strong support of the NSF focus on MGI, embodied in the DMREF, MIP, and other cross-cutting programs.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

该项目正在为早期职业科学家（包括助理教授，博士后和研究生）提供资金，以参加2019年戈登研究会议（GRC）和戈登研究研讨会（GRS）的物理冶金学研讨会（GRS）。 物理冶金GRC以提供一个领先的国际论坛来介绍和讨论材料科学和工程领域的研究，并为研究合作和职业发展提供网络机会。今年的物理冶金GRC是耦合计算，数据科学和实验实验的边界，这反映了社区对美国材料基因组倡议（MGI）和国家科学基金会的原理的承诺，以及国家科学基金会的DMREF，MIP，MIP，MIP和跨审核数据科学计划。 GRC将在相关的GRS之前），早期职业研究人员在其中展示并讨论他们的工作，并参与指导和职业建设活动。 GRS将于2019年7月6日至7日举行，GRC将于2019年7月7日至12日在新罕布什尔州南部新罕布什尔大学（Hooksett NH）举行。 GRC和GRC计划椅子和副主持人在社区内进行了广泛的外展活动，以吸引一群不同的参与者，并与演讲者和讨论领袖一起制定计划，他们不仅是该领域的科学领导者，而且在建立更广泛的社区，欢迎与早期的创新思想以及与早期的职业科学家和工程师一起互动。物理冶金GRC的主要目标是探索耦合计算，数据科学和实验的一些最重要的进步，以增强我们的科学理解深度及其获取率。 另一个目的是探索新兴技术和方法的潜在交集，以构成有关这些交叉点如何进一步发展以及如何将协作努力配置为充分利用其耦合力量的基本问题。 The GRC and the associated GRS will help accelerate the design and development of advanced materials to enhance US manufacturing competitiveness, in strong support of the NSF focus on MGI, embodied in the DMREF, MIP, and other cross-cutting programs.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.