E-raamat: Proceedings of Chinese Materials Conference 2025

Chapter
1. Investigation of the Effect of Unit Cell Volume on the
Compressive Strength of Lattice Structure Materials.
Chapter
2. Influence of
pretreatment on carbonization performance of steel slag sand.
Chapter
3. Hot
deformation behavior of Ti particles reinforced AZ91D composites.
Chapter
4.
Enhancing Silicon Carbide Crystal Growth Rate by Pr, Ce and La Solvent
Additives in Top-Seeded Solution Growth.
Chapter
5. Full-scale Burst Test
Validation of DWTT Index for Thick-walled Steel Pipes.
Chapter
6. Mechanical
Properties of Polyurethane Foam-Filled Corrugated Structures with Different
Webs.
Chapter
7. Experimental investigation on compression response of
sandwich honeycomb composites fabricated by 3D printing.
Chapter
8. Effect
of Magnetic Liquid Sealed Spindle Eccentricity on Pressure Resistance and
Rotational Torque.
Chapter
9. Optimizing Composite Magnetic Field Ferrofluid
Seal for Hydrogen Energy Systems.
Chapter
10. Research Progress on
Intelligent Image Recognition of Engineering Material Failure Cracks.-
Chapter
11. Research Progress on Prediction of Mechanical Properties of
Materials Based on Materials Genome Engineering.
Chapter
12. Effect of
solution cooling rate on the microstructure and properties of a third
generation single crystal superalloy and its turbine blade.
Chapter
13.
Surface strengthening on fretting fatigue crack propagation of Ti-6Al-4V
dovetail slots.
Chapter
14. Analysis on Green Product Assessment Indexes for
Thermal Insulation Aerogel Products.
Chapter
15. Effect of Spray Distance on
Microstructure and Thermal Shock Resistance of Feather-like Structured 7YSZ
Thermal Barrier Coating Prepared by Plasma Spray Physical Vapor Deposition.-
Chapter
16. Influence of mica in artificial sand on the performance of dam
concrete.
Chapter
17. Microstructure and soft magnetic properties of iron
nitride nanoparticles via gas nitridation.
Chapter
18. Research on Accurate
Measurement Method of Crude Oil Water Content Based on Image Recognition.-
Chapter
19. Magnetron Sputtering Deposition of Al, AlSi and AlSiCu Thin Films
and Their Surface Properties.
Chapter
20. Research on the Full-Lifecycle
Performance Assessment Technology for Aerogel Materials and Products.-
Chapter
21. Multi-Tooth Magnetic Fluid Seals with Small Tooth Pitch: Pressure
Transfer.
Chapter
22. Research Progress on Assessment Methods for Greenhouse
Gas Reduction Potential of Low-Carbon Building Materials.
Chapter
23.
Research on Medical Isotope Target Technology.
Chapter
24. Additive-Free
Hydrothermal Synthesis of Hydroxyapatite Nanofibers for Enhanced Copper Ion
(Cu(II)) Adsorption.
Chapter
25. The Corrosion Behavior of Ti-6A1-4V-1Mo-1Zr
Titanium Alloy Drill Pipe Materials in High-Salt Environments at Different
Temperatures.

Yanan Chen



Mainly engaged in the research of ultrafast preparation of new materials and their application in the field of new energy. In 2016, Professor Chen Yanan and Professor Hu Liangbing first proposed the concept of high-temperature thermal shock and pioneered the emerging research field of ultrafast synthesis of nanomaterials based on the concept of high-temperature thermal shock. As the first/corresponding author (including co-author), he has published more than 70 research papers in top journals such as Nature Sustainability, Nature Comm. (2), JACS (2), Adv. Mater. (4), Angew. Chem., NSR, Materials Today (2), Nano Letters (3), ACS Nano, AEM (12), AFM (2), etc., and many of his papers have been selected as highly cited papers. His research results have been reported many times by media such as Guangming.com, Guangming Daily, Peoples Daily, Zhonghong.com, Science and Technology Daily, China Daily, Beijing Daily, etc. He has been authorized with more than 10 national invention patents and US invention patents and has converted many patents (conversion amount of 4 million).