LaboratoryIntroduction
Shenzhen University Advanced Ceramics Joint Development Laboratory
OverviewThe construction of the “Longci-Shenzhen University Advanced Ceramics Joint Development Laboratory” began in 2012. The main purpose of the establishment is to make breakthroughs in several advanced ceramic preparation technologies, establish an advanced ceramic material and application engineering platform, promote the application of advanced ceramic materials in aerospace, electronic information, optoelectronics, machinery, new energy and biomedical fields, and promote technological progress in related industries. Through the joint efforts of all scientific researchers in the laboratory, the construction of the laboratory has been continuously improved.
The construction of the laboratory project focuses on the basic conditions, innovative teams and engineering research of core technologies such as microwave deposition and sintering technology, pulsed laser deposition technology (PLD), nano self-assembly technology, and spark plasma sintering technology (SPS). By adding key instruments and equipment to build a good research platform, a high-level, well-structured, innovative research team with a good research foundation is established to carry out basic and engineering research on core technologies.
The construction of the laboratory project focuses on the basic conditions, innovative teams and engineering research of core technologies such as microwave deposition and sintering technology, pulsed laser deposition technology (PLD), nano self-assembly technology, and spark plasma sintering technology (SPS). By adding key instruments and equipment to build a good research platform, a high-level, well-structured, innovative research team with a good research foundation is established to carry out basic and engineering research on core technologies.
Material Analysis
The Advanced Ceramic Materials Laboratory is a comprehensive research platform integrating…
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Failure analysis
The Advanced Ceramics Failure Analysis Laboratory is dedicated to researching the fundamental…
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Reliability Test
Focus on evaluating and enhancing the long-term stability of advanced ceramic…
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Electrical measurement
The Electrical Properties Laboratory of the Advanced Ceramics Laboratory is the core platform dedicated to the…
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Material Analysis
The Advanced Ceramic Materials Laboratory is a comprehensive research platform integrating material design, preparation, characterization, performance optimization and application development, dedicated to promoting innovative breakthroughs in the structure, function and multidisciplinary fields of advanced ceramics. The laboratory focuses on basic research and industrialization technology of high-performance ceramics, covering the entire chain of R&D processes from powder synthesis, molding and sintering to device integration, aiming to solve key scientific problems and meet high-end manufacturing.
- Material composition analysis, phase analysis
- Material mechanical properties analysis
- Material thermal properties analysis
Failure Analysis
The Advanced Ceramics Failure Analysis Laboratory is a professional research platform dedicated to studying the fundamental causes, evolution mechanisms, and prevention strategies of failures in advanced ceramic materials and devices during their service life. Its core task is to reveal the complete chain of materials from microscopic defects to macroscopic failures through multi-scale and multi-dimensional analysis techniques, providing a scientific basis for optimizing material design, improving manufacturing processes, and enhancing product reliability.
Reliability Test
It is a core research platform dedicated to evaluating and enhancing the long-term stability, durability and failure mechanism of advanced ceramic materials and their products under complex working conditions. The core objective is to reveal the performance degradation laws of materials in multi-field coupling environments such as heat, force, electricity and chemistry through systematic testing and simulation, providing reliability guarantees for material design optimization, process improvement and engineering applications.
Electrical Measurement
The Electrical Properties Laboratory of the Advanced Ceramics Laboratory is the core platform dedicated to the research on the electrical properties of advanced ceramic materials. Its main objective is to promote the application of advanced ceramics in fields such as electronic devices, energy storage, sensors, and communication technologies through in-depth analysis of the material’s electrical conductivity, dielectric properties, piezoelectric effect, ferroelectricity, thermoelectricity, and other properties.
LaboratoryIntroduction
The main tasks of the laboratory
The main tasks of the laboratory are to carry out research and development on core advanced ceramic preparation technologies such as microwave deposition and sintering technology, PLD thin film technology, nano self-assembly technology, and SPS technology, as well as experimental research on key processes. It also focuses on the development of related core technology equipment and facilities. We will carry out research and development on several advanced ceramic devices and components that meet the urgent demands of the development of industries such as ultra-large-sized silicon nitride ceramics, sintered silicon carbide ceramics, high thermal conductivity AlN, large-sized AZO targets, ZnO photoelectric films, and nanomaterials, to achieve the industrialization technology development of high-tech industries. Based on this, we will continue to carry out strategic and forward-looking research and development of core technologies for advanced ceramics.
The laboratory has carried out cooperative research and development with Shenzhen Longci, established a rapid transformation mechanism for scientific and technological achievements, and provided technical services to Shenzhen Longci. Meanwhile, relying on the School of Materials Science and Engineering of Shenzhen University, it aims to cultivate high-level technological innovation talents for Shenzhen Longci and become a base for training technological innovation talents.
The laboratory has carried out cooperative research and development with Shenzhen Longci, established a rapid transformation mechanism for scientific and technological achievements, and provided technical services to Shenzhen Longci. Meanwhile, relying on the School of Materials Science and Engineering of Shenzhen University, it aims to cultivate high-level technological innovation talents for Shenzhen Longci and become a base for training technological innovation talents.
LaboratoryIntroduction
The Main Development Directions Of The Laboratory
The main development direction of the laboratory is to focus on several advanced ceramic materials such as silicon nitride ceramics, silicon carbide ceramics, AlN ceramics, AZO targets, photoelectric films, and nanomaterials as the main research objects, and carry out the following research on new preparation and forming technologies of advanced ceramics:
For the above core technologies, carry out systematic and in-depth research on key material preparation processes and powder, forming, macro and micro structures, macro and micro properties, cross-scale simulation, and practical applications, conduct research on advanced key processes, achieve breakthroughs in the core technologies of advanced ceramic preparation, obtain technological achievements with independent intellectual property rights, and realize the promotion and application of new technologies. Play an important role in the research and production of new materials.
- Microstructure and microstructure properties of advanced ceramics
- Cross-scale simulation of advanced ceramics
- Practical applications of advanced ceramics
For the above core technologies, carry out systematic and in-depth research on key material preparation processes and powder, forming, macro and micro structures, macro and micro properties, cross-scale simulation, and practical applications, conduct research on advanced key processes, achieve breakthroughs in the core technologies of advanced ceramic preparation, obtain technological achievements with independent intellectual property rights, and realize the promotion and application of new technologies. Play an important role in the research and production of new materials.
