WARRENDALE, PA – The current COVID-19 pandemic, and the worldwide emergency response, is unmatched in recent memory. Scientists and epidemiologists are learning in real time how the virus spreads and what is needed to mitigate exposure. While protection
of frontline health care workers is of primary importance, shortages of medical and Personal Protective Devices (PPEs) such as masks, suits, face-shields, as well as critical clinical care equipment such as ventilators, respirators, and other medical
devices, are of global concern. Efforts to produce and stockpile adequate supplies, while at the same time managing quarantine and lockdown orders, have produced a tremendous strain in economic activity and has affected the supply chain for equipment
and components, exposing the need for new manufacturing models.
A new Prospective article—Additive Manufacturing for COVID-19: Devices, Materials, Prospects and Challenges—published in MRS Communications, looks at these critical supply issues and provides an overview of 3D printing
and how coupling the tools in additive manufacturing (AM) and advanced materials has provided a viable alternative for rapid production and distribution of PPEs and medical devices. Authors include MRS Communications Editor-in-Chief Rigoberto C. Advincula,
University of Tennessee, Knoxville and Oak Ridge National Laboratory; John Ryan C. Dizon, Bataan Peninsula State University; Qiyi Chen, Oak Ridge National Laboratory; and Ivy Niu, Jason Chung, Lucas Kilpatrick and Reagan Newman, all of University of Tennessee, Knoxville.
According to the authors, this Open Access prospective article “gives an unprecedented picture of the 3D printing ecosystem and how it can be used to meet national and worldwide emergency needs such as a pandemic. Addressing the supply chain for
PPEs, devices and medical consumables in this pandemic has shown the importance of AM in bringing together the academic and industry communities to help the needs. Moreover, it has shown the true potential for rapid prototyping, manufacturing, and
repair in real time.”
Advincula adds that “we are now seeing increased volunteerism in many 3D printing focus groups, universities, companies, and others to provide for emergency needs of frontline workers and hospitals. A new model has emerged in that design, materials,
distributed manufacturing, repairs and rapid deployment will be used for risk mitigation for many emergency situations.” For additional insights on this research by Advincula, view this video.
MRS Communications is a full-color, high-impact journal focused on rapid publication of completed research with broad appeal to the materials community. It offers a rapid but rigorous peer-review process and time to publication. Leveraging its
access to the far-reaching technical expertise of MRS members and leading materials researchers from around the world, the journal boasts an experienced and highly respected board of principal editors and reviewers.
Prospective articles are a unique feature of MRS Communications, offering succinct and forward-looking reviews of topics of interest to a broad materials research readership. Authoritative and balanced, they may deal with controversies or
new and speculative areas of research for future consideration. Most Prospective articles are invited by the editorial board. However, interested authors can complete a proposal form and submit to email@example.com.
About the Materials Research Society
MRS is an organization of more than 11,500 materials researchers from academia, industry and government worldwide, and a recognized leader in promoting the advancement of interdisciplinary materials research and technology to improve the quality of life. MRS members are students and professionals hailing from physics, chemistry, biology, mathematics and engineering—the full spectrum of materials research. Headquartered in Warrendale, Pennsylvania (USA), MRS membership now spans over 80 countries, with 45 percent of members residing outside the United States.
MRS serves and engages members across generations to advance their careers and promote materials research and innovation. The Society produces high-quality meetings and publications, assuring that members of all career stages can present and publish their most important and timely work to an international and interdisciplinary audience. MRS continues to expand its professional development portfolio, as well as promote diversity and inclusion in the scientific workforce, with career services for researchers worldwide. The Society advocates for the importance of scientific research and innovation to policymakers and the community. And the MRS Awards program honors those whose work has already had a major impact in the field, as well as those whose work shows great promise for future leadership.
For more information about the Materials Research Society visit mrs.org
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