Recently, a significant milestone has been achieved in the field of materials science with the official release of Volume 1, Issue 2 of the renowned journal Materials and Solidification. This academic publication is co-sponsored by the prestigious Tsinghua University Press and is academically supported by the State Key Laboratory of Solidification Processing at Northwestern Polytechnical University. Under the leadership of Editor-in-Chief Professor Jinshan Li and Executive Editor-in-Chief Professor Junjie Wang, both affiliated with the State Key Laboratory of Solidification Processing, the journal endeavors to create a vibrant academic exchange platform. It facilitates the sharing of pioneering research and technological advancements among scholars and engineers focused on the complex realms of solidification theory, material design, and microstructural evolution.
The latest issue of Materials and Solidification showcases a collection of high-caliber academic papers that delve into the forefront of research concerning solidification processes. Among these contributions is a comprehensive Review article that synthesizes recent advancements in understanding crystalline materials with unique thermal properties. Co-authored by a team of eminent researchers, including Yixiang Huang and Zhaojie Zhu, the Review article highlights the significance of these materials in various industrial applications, addressing their increasing relevance in modern technological environments.
In addition to the Review, the issue includes five rigorous Research Articles that represent diverse explorations within the field. One particularly noteworthy article investigates the preferred orientation and microstructure evolution of the Al3Ni phase in the Al–18 atom percent Ni alloy during directional solidification in a high magnetic field. This work, authored by Baoze Zhang and colleagues, provides new insights into the interplay between external magnetic fields and material properties, paving the way for enhanced control over solidification processes in practical applications.
Another Research Article, led by Yongjia Zhang and characterized by its innovative use of machine learning, tackles the complex problem of phase equilibrium prediction in multicomponent alloys through phase field simulations. This groundbreaking approach not only demonstrates the power of computational techniques in materials discovery but also opens new avenues for research in alloy design, ultimately promising enhanced material performance.
The issue further includes an investigation into the effects of SiC whiskers and AlPO4 particles on the durability of a bi-layer mullite/SiC coating subjected to rigorous burner rig tests. Authored by a diverse team including Tian Tian and Pengju Chen, this study presents experimental findings that could lead to advances in materials used in extreme environments, showcasing the importance of reinforcing materials for applications in combustion and aerospace engineering.
Environmental considerations are not overlooked, as one article addresses the onset mechanism of flash sintering dense 8YSZ, presenting findings that have implications for energy-efficient manufacturing processes. The research team led by Jinling Liu sheds light on the rapid sintering phenomenon that could revolutionize how materials are processed at high temperatures, offering invaluable insights for industries focused on reducing energy consumption during manufacturing.
Materials and Solidification positions itself as a pivotal platform for communicating cutting-edge research from around the globe, particularly in the area of solidification technology. What sets this journal apart is its commitment to open access; all articles published are available for free, thereby broadening their reach and ensuring that the latest research findings can benefit the widest possible audience. This open-access model, sustained by Tsinghua University Press, significantly contributes to the dissemination of knowledge and the growth of the academic community’s understanding of materials science.
Moreover, the distinctiveness of the journal is amplified by its favorable submission policies. In 2025, the journal waives all Article Processing Charges for manuscripts submitted throughout the year, thereby alleviating financial burdens on researchers and promoting a more inclusive academic environment. This initiative encourages submissions from a diverse range of authors, enriching the academic pool and fostering collaboration among scientists from different backgrounds and institutions.
The journal actively invites submissions that encompass not only traditional research topics but also innovative ideas and interdisciplinary approaches. By broadening its scope to include fresh theories and critical insights in the field of materials solidification, Materials and Solidification appeals to a vast audience and positions itself as an essential contributor to the advancement of materials research.
As part of its future vision, Materials and Solidification aims to solidify its status as a leading international journal by regularly featuring high-quality studies that challenge conventional understanding and push the boundaries of what is known in materials science. With its high standards for peer review and commitment to rigor, the journal ensures that only the most significant contributions make it to publication, thus maintaining the integrity and academic excellence associated with Tsinghua University Press.
In a constantly evolving field like materials science, where advancements can emerge from unexpected collaborations across disciplines, the role of a dedicated journal cannot be understated. Materials and Solidification is poised to play a crucial role in shaping the landscape of solidification research, bridging gaps in knowledge, and inspiring future innovations that will undoubtedly lead to industrial developments, technological progress, and a sustainable future.
Its commitment to fostering academic dialogue among researchers and practitioners worldwide echoes the journal’s mission to not only highlight groundbreaking work but also to address pressing issues faced by the materials science community. By connecting researchers, engineers, and industrial experts, Materials and Solidification is paving the way for a dynamic exchange of ideas that will ultimately enhance technological advancements and drive progress in material applications for diverse fields, from aerospace to electronics.
In conclusion, the launch of Volume 1, Issue 2 marks a significant step forward for the field of materials solidification, presenting a wealth of knowledge and innovative research that will shape the future of the discipline. As contributors and readers alike engage with this vital resource, the journey toward deeper understanding and application of solidification theory promises exciting developments in the years to come.
Subject of Research: Materials Solidification
Article Title: Recently Published: Insights from Volume 1, Issue 2 of Materials and Solidification
News Publication Date: October 2023
Web References: Materials and Solidification Journal
References: To be provided by original authors
Image Credits: Tsinghua University Press
Keywords
Materials science, solidification theory, crystalline materials, alloy phase equilibrium, open access research.
