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MRI: Acquisition of a spark plasma sintering system for engineering advanced materials and composites for use in extreme environments

MRI：采购放电等离子烧结系统，用于设计用于极端环境的先进材料和复合材料

基本信息

批准号：
2116564
负责人：
Shane Catledge
金额：
$ 21.62万
依托单位：
University of Alabama at Birmingham
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2021
资助国家：
美国
起止时间：
2021-10-01 至 2024-09-30
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=2116564&HistoricalAwards=false
关键词：
MRI Acquisition spark plasma sintering

项目摘要

With this Major Research Instrumentation award, the University of Alabama at Birmingham (UAB) is acquiring a Spark Plasma Sintering (SPS) facility for advanced material synthesis and consolidation of a wide range of ceramic, metallo-ceramic, and composite powders. This facility enables cutting-edge research serving the College of Arts and Sciences as well as the School of Engineering, and it is available to researchers throughout the state of Alabama. The materials developed via SPS contribute to key technologies in the aerospace, defense, power generation, and industrial processing industries having significant national, economic, and environmental impact. A major objective is to develop novel materials primarily intended for use in extreme conditions of temperature, pressure, electric/magnetic fields, or harsh chemical environments. In addition to supporting several established research programs, the award aims to stimulate new research team projects for junior faculty and to foster collaboration across the state and beyond. The SPS facility is available to student and faculty researchers across the university and to other academic and industrial researchers across Alabama, where there is no instrument with its capabilities. It serves as a focal point of undergraduate/graduate teaching/training within the UAB materials engineering and physics departments leading to enhanced course development in advanced materials fabrication. In addition, the SPS facility is planned for ongoing integration into NSF-funded Research Experiences for Undergraduates (REU) projects. Community outreach efforts involve partnership with the local science center located in the heart of downtown Birmingham and focus on developing materials exhibits for a broader viewing audience including the general public and K-12 students.The spark plasma sintering facility features fast and efficient material consolidation (heating or cooling rates up to 1000 °C/min) to aid in the control or prevention of grain growth and ion diffusion. The speed of the process ensures it has the potential of densifying powders with nanosize or nanostructure while avoiding coarsening which accompanies standard densification routes. The facility satisfies the requirements for fabrication of advanced ceramics, namely combined elevated temperature (up to 3000 °C), pressure (up to 259 kN), and controlled environment (inert gas or vacuum) capability. It also features two pressing ranges in one hydraulic cylinder: a low range from 3 – 28 kN for sintering small samples and a high range from 22 – 259 kN for large geometries. The facility enables transformative research at UAB in ultrahigh temperature ceramics, superhard materials, high-pressure physics, plasma physics, laser physics, impurities/defects, nonlinear optics, material degradation in corrosive environments, and development of novel composites. These studies are led by an interdisciplinary team of faculty and will result in fundamental understanding in topics related to densification processes in high entropy ceramics and in metal-ceramic composites, oxidation behavior in high-temperature environments, power generation in middle infrared lasers, ultrafast nanophotonics, novel ternary superconducting thin films, and the role of low-temperature plasmas in materials synthesis.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.

凭借这一重大研究仪器奖，伯明翰亚拉巴马大学（UAB）正在收购一个火花等离子烧结（SPS）设施，用于先进的材料合成和广泛的陶瓷，金属陶瓷和复合粉末的固结。该设施使尖端研究服务于艺术与科学学院以及工程学院，它是提供给整个亚拉巴马州的研究人员。通过SPS开发的材料有助于航空航天、国防、发电和工业加工行业的关键技术，对国家、经济和环境产生重大影响。其主要目标是开发主要用于极端温度、压力、电场/磁场或恶劣化学环境条件下的新型材料。除了支持几个既定的研究计划，该奖项旨在刺激新的研究团队项目的初级教师，并促进整个国家和超越合作。SPS设施可供整个大学的学生和教师研究人员以及亚拉巴马的其他学术和工业研究人员使用，那里没有具有其能力的仪器。它作为UAB材料工程和物理系内的本科生/研究生教学/培训的焦点，从而增强了先进材料制造的课程开发。此外，SPS设施计划持续整合到NSF资助的本科生研究经验（REU）项目中。社区推广工作包括与位于伯明翰市中心的当地科学中心合作，并专注于为更广泛的观众（包括公众和K-12学生）开发材料展览。放电等离子烧结设备具有快速高效的材料固结（加热或冷却速率高达1000 °C/min），有助于控制或防止晶粒生长和离子扩散。该工艺的速度确保其具有使具有纳米尺寸或纳米结构的粉末致密化的潜力，同时避免伴随标准致密化路线的粗化。该设施满足先进陶瓷制造的要求，即高温（高达3000 °C），压力（高达259 kN）和受控环境（惰性气体或真空）的综合能力。它还在一个液压缸中具有两个压制范围：低范围为3 - 28 kN，用于烧结小样品，高范围为22 - 259 kN，用于大几何形状。该设施使UAB能够在高温陶瓷，超硬材料，高压物理，等离子体物理，激光物理，杂质/缺陷，非线性光学，腐蚀环境中的材料降解以及新型复合材料的开发方面进行变革性研究。这些研究由跨学科的教师团队领导，将导致对高熵陶瓷和金属陶瓷复合材料中的致密化过程，高温环境中的氧化行为，中红外激光发电，超快纳米光子学，新型三元超导薄膜，以及低温等离子体在材料合成中的作用。该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。