MSME 2023 : The 5th International Conference on Materials Science and Manufacturing Engineering (MSME 2023)
Call For Papers
Call For Papers
The 5th International Conference on Materials Science and Manufacturing Engineering (MSME 2023)
May. 12-14, 2023 | Sanya, China
The conference will serve as an international forum for the presentation and exchange of technological advances and research results in the broad fields of Materials Science and Manufacturing Engineering. The conference will bring together leading researchers, engineers and scientists in the domain of interest from around the world.We warmly welcome prospective authors to submit your research papers to MSME 2023, and share your latest research results and valuable experiences with other top-scientists, engineers and scholars from all over the world.
●Publication and Indexing
All the registered and presented papers will be published in Conference Proceeding, which will be submitted to Engineering Village, Scopus, Web of Science and other databases for review and indexing.
Prof. Cuie Wen, RMIT University, Australia
Zinc (Zn)-based biomaterials are receiving increasing attention as biodegradable metals due to their more suitable degradation rate than magnesium, iron, and their alloys. In this study, zinc phosphate (ZnP), zinc oxide (ZnO), and their dual-phase coatings were fabricated on a pure Zn foam via electrochemical anodization and subsequent phosphating. The dual-phase-coated foam sample showed a regular, almost spherical open-cellular interconnected porous structure with ~ 8 μm thick surface layer of ZnO and ZnP. Compressive test results showed that the dual-phase-coated foam sample exhibited a compressive yield strength of 1.8 and 1.1 MPa, a plateau strength of 2.9 and 2.7 MPa, and a compressive strain of 90% before and after 30 d immersion in Hanks’ solution. Biocompatibility assessment showed that the dual-phase-coated foam sample showed excellent cell viability toward MC3T3-E1 and MG 63 cells in both direct and indirect cell assays, and its 12.5% concentration extract showed ~ 107% cell viability of MC3T3-E1 cells and ~ 101% cell viability of MG 63 cells, indicating a positive effect on cell survival and proliferation. Moreover, the dual-phase-coated Zn foam sample exhibited effective antibacterial ability against S. aureus. Overall, the ZnO-ZnP dual-phase-coated Zn foam can be considered a promising biodegradable scaffold biomaterial for orthopedic applications.
●Topics（Topics of interest for submission include, but are not limited to:）
Smart/Intelligent Materials/Intelligent Systems
Please visit the conference website for more topics: https://www.msme2023.org/cfp.html
Submission Web: https://cmt3.research.microsoft.com/MSME2023
●Call for participants
1, Presenter: If you are interested in giving presentation on conference, without publishing your paper in the proceeding, you need to submit the abstract and title of your presentation to us: email@example.com.
2, Listener: You are welcome to attend this great event. You need to complete the registration as Listener before the registration deadline.
3, Reviewer: We sincerely welcome professors, associate professors, teachers and other experts in the areas of Materials Science and Manufacturing Engineering Processing join the conference as a reviewer.
If you have any question, please feel free to contact our conference secretary.
Ms. Coral Lu
Tel: +852-30506862(English)| +86-18200296850 (Chinese)