本期 “博士招生”為大家推薦美國賓夕法尼亞州立大學、南卡羅來納大學博士招生項目~

1

Pennsylvania State University

賓夕法尼亞州立大學

賓夕法尼亞州立大學帕克分校（Pennsylvania State University—University Park），是一所世界頂尖公立大學，坐落于美國賓夕法尼亞州，在全美公立大學中排名持續(xù)穩(wěn)定放前十。被稱作美國“公辦常春藤”。

2020軟科世界大學學術排名第101-150，2021泰晤士高等教育世界大學排名第114，2021QS世界大學排名第101，2021U.S. News世界大學排名第75。

Development of Advanced Concrete Materials for Additive Manufacturing of Novel Radiation-Resistant Structures in Reactor Environments

1? Dr Juan Pablo Gevaudan

2? Applications accepted all year round

3? Competition Funded PhD Project

About the Project

How can concrete materials (the most utilized material in the world) be additively manufactured to reduce the construction cost of nuclear energy facilities? How can we leverage modern cement chemistries to improve the neutron degradation of these materials? How does embedded steel reinforcement corrode in near-reactor environments? This project seeks to answer these questions by transforming the nuclear manufacturing cost curve of both traditional and advanced/small modular reactors through the development of additively manufactured concrete (AMC) structures that are functionally graded for ease of fabrication, novel irradiation shielding, thermal resistance, and environmental stability in both new construction and repair applications.

To accomplish this transformative goal, the primary aim of this project is to develop unique layer-by-layer additive manufacturing concrete technologies (3D printed concrete) with detailed assessments of their long-term degradation mechanisms when exposed to neutron and gamma irradiation – an imperative step towards the construction of AMC structures (e.g., bio-shields) with superior radiation stability. Specifically, this project extends upon cutting-edge advancements in neutron- and gamma-resistant concrete formulations to develop unique iron-rich limestone calcined clay cement (Fe-LC3) concretes to meet the primary aim. This project’s secondary aim is to employ advanced in-situ monitoring systems to understand the environmental material performance in reactor environments due to thermal (>300°C) and environmental (RH > 40%) conditions of AMC structures with embedded steel reinforcements. In situ monitoring results will begin to address the current lack of data regarding reactor environmental effects, such as coupled thermal-mechanical-moisture-radiation degradation of concrete or accelerated corrosion at steel-concrete interfaces, on AMC structures. This project will provide a first-of-its-kind database documenting the neutron and gamma irradiation degradation of the cement matrix, aggregates, and steel-concrete interface of AMC structures in reactor environments. These innovative results will advance programmatic efforts to develop materials and advance manufacturing technologies that can significantly reduce the cost of nuclear infrastructure while considering environmental effects; hence, directly supporting the continued operation of existing nuclear reactor designs and novel reactor designs as part of the Nuclear Energy Office mission.

The innovative aims of this scientific study will be accomplished with three main research phases, namely: (Phase I) material development and characterization of novel Fe-LC3 materials; (Phase II) functional-grading additive manufacturing of rheologically-compatible Fe-LC3 materials; (Phase III) neutron and gamma irradiation of Fe-LC3 AMC at the Breazeale Nuclear Reactor Facility; and, (Phase IV) in-reactor environmental performance of reinforced Fe-LC3 materials at PSU and PNNL facilities. These phases will leverage unique multi-disciplinary research facilities at the Pennsylvania State University, such as the Center for Quantitative Imaging – world-leading facilities for the characterization of time-based pore structure degradation mechanisms. Lastly, this research is supported by the Responsive and Adaptive Infrastructure Materials Laboratory - a unique cement chemistry laboratory for the in-depth characterization of new low-CO2 and sustainable cementitious materials - as well as the Materials Characterization Laboratory - world-renowned materials characterization multi-user facility with 50,000 square feet dedicated to current and future generations of characterization and fabrication tools.

Applying for this position:

If you are interested in this research for your Ph.D., we are looking for creative, curious, and gritty student researchers to join our team. Send the PI, Dr. Juan Pablo Gevaudan (e: jp.gevaudan@psu.edu), an email with your CV and a 1-2 page research interest statement where you explain your main research interests, your research approach, and how Penn State can help this research. Include a paragraph about how the envisioned Ph.D. project links to your vision, personal motivation, or career ambition. This will allow us to assess your research and professional development as well as the curiosity, critical thinking, and creativity that you will bring to our research group.

Funding Notes

This project is supported by the U.S. Department of Energy Office of Nuclear Energy.

2

University of South Carolina

南卡羅來納大學

南卡羅來納大學（University of South Carolina）是位于美國南卡羅來納州的一個公立大學系統(tǒng)?？▋然虒W促進基金會將南卡羅來納大學列為全美優(yōu)秀的研究型大學之一。

南卡羅來納大學在商學、公共衛(wèi)生，商學和音樂學院都有很強高的聲譽。商學院的國際商務專業(yè)連續(xù)17年全美第1，國際MBA連續(xù)25年全美排名第3，酒店餐飲專業(yè)，旅游管理課程，風險管理與保險課程全美前10。南卡音樂學院于福布斯音樂院校排行榜列為第十名，其中鋼琴教育學科位列全美第三名，是美國高等音樂學院聯盟成員之一。

Childhood Obesity - Fully Funded Graduate Research Position

1? Assoc Prof RW Weaver

2? Applications accepted all year round

3? Competition Funded PhD Project

About the Project

The Arnold School of Public Health at the University of South Carolina is currently seeking a PhD level applicant who are interested in pursuing a research‐focused doctoral degree on the topic of childhood obesity. The candidate, with a focus on children, overweight or obesity, obesogenic behaviours that include diet, sleep, physical activity, screen time, or sedentary behaviour, and their measurement are invited to apply. PhD students will be integrally involved in the studies conducted by the Arnold Childhood Obesity Initiative research group and the Research Center for Child Wellbeing. These include measurement, observational, and intervention studies that are funded by the National Institutes of Health and are designed to understand the etiology, prevention, and treatment of childhood obesity and its associated behaviours. The candidate will have the opportunity to be part of a vibrant team of faculty, staff, and students located within the Arnold School of Public Health. The position is fully funded and include tuition and a stipend that is commensurate with the NIH rate.

Highlights of the Position:

·Fully funded tuition and health insurance ·Stipend at the current NIH rate ($27,144 for 2023)

·Joining a vibrant and growing team of 19 creative & fun researchers

·Mentorship from 1 primary and 4 secondary tenure track faculty with a history of NIH funding Over the last 4 years 66% of our PhD students have received NIH funding as a PI

Skills Developed:

·Proficiency in basic and complex statistical modelling

·Process evaluation/implementation science

·Written and verbal communication skills

·Designing and implementing community‐ based interventions

·State‐of‐the‐art behavioural assessments

·Grant writing Ability to work effectively both independently and with a team

To apply, please send a statement of interest and CV to one or all of the following Acoi Faculty Members:

Dr. Bridget Armstrong Email: BA12@mailbox.sc.edu

Dr. Elizabeth Adams Email: elizabeth-adams@sc.edu

Dr. Sarah Burkart Email: sburkart@mailbox.sc.edu

Dr. R. Glenn Weaver Email: weaverrg@mailbox.sc.edu

Dr. Michael Beets Email: beets@mailbox.sc.edu