More Like this

1. External promotion and tenure review letters at research-intensive institutions: A critical communication analysis of external review practices

   https://doi.org/10.5399/osu/ADVJRNL.4.2.1  

   Cervato, Cinzia ; Bilen-Green, Canan ; Cockrell, Malia ; Johnson, Carrie Ann ; Koretsky, Carla ; Minerick, Adrienne ( January 2024 , ADVANCE Journal)
2. External Review Letters in Promotion and Tenure: Recommendations for Chairs

   Cervato, C ; Bilen_Green, C ; Johnson, CA ; Koretsky, C ; Minerick, A ( April 2024 , The Department chair)
3. External Review Letters in Promotion and Tenure: Recommendations for Chairs

   https://doi.org/10.1002/dch.30571  

   Cervato, Cinzia ; Bilen‐Green, Canan ; Johnson, Carrie Ann ; Koretsky, Carla ; Minerick, Adrienne ( March 2024 , The Department Chair)
4. External review letters in academic promotion and tenure decisions are reflective of reviewer characteristics

   https://doi.org/10.1016/j.respol.2023.104939  

   Madera, Juan M ; Spitzmueller, Christiane ; Yu, Heyao ; Edema-Sillo, Ebenezer ; Clarke, Mark SF ( March 2024 , Research Policy)
5. Review of internal and external surface finishing technologies for additively manufactured metallic alloys components and new frontiers

   https://doi.org/10.1007/s40964-023-00412-z  

   Demisse, Wondwosen ; Xu, Jiajun ; Rice, Lucas ; Tyagi, Pawan ( February 2023 , Progress in Additive Manufacturing)

   Surface finishing in additive manufacturing (AM) is a technological bottleneck. The field of surface finishing of AM parts is vast because it not only focuses on roughness reduction in the hard-to-access internal surfaces but also includes the scope of adding coatings and sensors. Even though metal AM component is reaching the density and bulk microstructure at par or even better than conventionally produced components, adverse impact of surface roughness and imperfections is becoming the major obstruction. It is observed that external and internal surface roughness of AM components is a high probability cause of many unavoidable issues such as corrosion, incorrect tolerance estimations during the build stage, and the fatigue failure of parts before the expected life cycle. At present, AM field mainly focuses on improving and enhancing the internal and external surface roughness to pass the stringent qualification requirements for actual applications. To address these challenges, researchers worldwide are conducting many experiments and developing different surface finishing techniques. This paper reviews the state-of-the-art knowledge and processes of different surface finishing technology that can be applied to AM metal components. This article mainly highlights several liquid-based surfaces finishing approaches to develop promising surface microstructures on interior and exterior surfaces as a micromachining tool. The future of making strong and self-monitoring AM component requires broadening of surface finishing field and including advanced topics such as coatings and adding sensor technology. We also discuss new frontiers and the scope of future work in the surface finishing field to bring attention to related concerns and possibilities associated with making smart and strong AM components for twenty-first-century integrated engineering systems. 

   more » « less