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J. Exp. Theor. Anal., Volume 2, Issue 1 (March 2024) – 3 articles

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15 pages, 4558 KiB  
Review
Precepts for Designing Sandwich Materials
by Gargi Shankar Nayak, Heinz Palkowski and Adele Carradò
J. Exp. Theor. Anal. 2024, 2(1), 31-45; https://doi.org/10.3390/jeta2010003 - 20 Mar 2024
Viewed by 1181
Abstract
The demand for innovative materials has been a significant driving force in material development in a variety of industries, including automotive, structural, and biomedical. Even though a tremendous amount of research has already been conducted on metallic, polymeric, and ceramic materials, they all [...] Read more.
The demand for innovative materials has been a significant driving force in material development in a variety of industries, including automotive, structural, and biomedical. Even though a tremendous amount of research has already been conducted on metallic, polymeric, and ceramic materials, they all have distinct drawbacks when used as mono-materials. This gave rise to the development of nature-inspired sandwich-structured composite materials. The combination of strong metallic skins with soft polymeric cores provides several advantages over mono-materials in terms of weight, damping, and mechanical property tuning. With this in mind, this review focuses on the various aspects of MPM SMs (Metal/polymer/metal Sandwich Materials). The reasons for the improved qualities of MPM SMs have been discussed, as well as the numerous approaches to producing such SMs. This review shows the various possibilities of achieving such SMs in complicated forms via different shaping techniques and intends to highlight the properties of MPM SMs’ remarkable qualities, the current trend in this field, and their potential to meet the demands of many industries. Full article
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3 pages, 176 KiB  
Editorial
Journal of Experimental and Theoretical Analyses: The Journey from Research to Solutions
by Marco Rossi
J. Exp. Theor. Anal. 2024, 2(1), 28-30; https://doi.org/10.3390/jeta2010002 - 20 Mar 2024
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Abstract
Six months ago (September 2023), we began the journey of publishing a new and unique Open Access journal dedicated to publishing papers on the methods and applications of analysis science in both experimental and theoretical aspects in the more relevant fields of engineering, [...] Read more.
Six months ago (September 2023), we began the journey of publishing a new and unique Open Access journal dedicated to publishing papers on the methods and applications of analysis science in both experimental and theoretical aspects in the more relevant fields of engineering, with a focus on its hottest specialized areas [...] Full article
27 pages, 3165 KiB  
Review
Active Brazing for Energy Devices Sealing
by Jian Feng, Marion Herrmann, Anne-Maria Reinecke and Antonio Hurtado
J. Exp. Theor. Anal. 2024, 2(1), 1-27; https://doi.org/10.3390/jeta2010001 - 12 Jan 2024
Cited by 2 | Viewed by 1785
Abstract
The pursuit of reliable energy devices sealing solutions stands as a paramount engineering challenge for ensuring energy safety and dependability. This review focuses on an examination of recent scientific publications, primarily within the last decade, with a central aim to grasp and apply [...] Read more.
The pursuit of reliable energy devices sealing solutions stands as a paramount engineering challenge for ensuring energy safety and dependability. This review focuses on an examination of recent scientific publications, primarily within the last decade, with a central aim to grasp and apply critical concepts relevant to the efficient design and specification of brazements for ceramic–metal active-brazed assemblies, emphasizing the sealing of energy devices. The goal is to establish robust and enduring joints capable of withstanding water-vapor and hydrogen environments. The review commences with a concise recapitulation of the fundamental principles of active brazing, followed by an in-depth exploration of material selection, illustrated using water-vapor-resistant sensors as illustrative examples. Furthermore, the review presents practical solutions for the sealing of energy devices while also scrutinizing the factors that exert significant influence on the deterioration of these active-brazed connections. Ultimately, the review culminates in a comprehensive discussion of emerging trends and developments in active brazing techniques for energy-related applications. Full article
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