MLCC Nickel Paste: Innovation and Breakthrough of Advanced Institute Technology

In the field of electronic components, multilayer ceramic capacitors (MLCC) have become an indispensable part of circuit design due to their high capacity, high reliability, and small size. And one of the core components of MLCC,nickel pasteThis is a key factor affecting its performance. Advanced Institute Technology, with its profound accumulation in the field of materials science, has successfully developed a high-performance and highly stable nickel paste for MLCC, injecting new vitality into the development of the electronics industry.

MLCC uses nickel paste as the main material for manufacturing base metal internal electrodes (BME) MLCCconductive pastePlays a crucial role in the manufacturing process of capacitors. The quality of nickel paste not only determines the conductivity of capacitors, but also affects key indicators such as reliability and withstand voltage strength of capacitors. Therefore, the development of high-performance nickel paste for MLCC is of great significance for improving capacitor performance and promoting the development of the electronics industry.

The MLCC nickel slurry developed by Advanced Institute Technology adopts advanced preparation technology and precise formula design. Its raw materials mainly include ultrafine nickel powder, organic carriers, and inorganic additives. As a conductive material, ultrafine nickel powder has excellent conductivity and small particle size, which can form thin and uniform electrode layers on ceramic green sheets, thereby improving the capacity and performance of capacitors. The organic carrier ensures the printing performance and stability of the nickel paste after sintering, allowing the electrode layer and ceramic dielectric layer to tightly bond and form a complete capacitor structure. The addition of inorganic additives further improves the performance of nickel paste, enhances the reliability and withstand voltage strength of capacitors.

During the preparation process, Advanced Institute Technology strictly controls every step to ensure the quality and performance of the nickel slurry. By optimizing the preparation process and formula design, Advanced Institute Technology has successfully solved the process problems of nanoscale nickel powder agglomeration and electrode discontinuity. The agglomeration problem of nanoscale nickel powder has always been a difficult point in the preparation process of nickel slurry for MLCC. Advanced Institute Technology has successfully achieved uniform distribution of nickel powder and improved the conductivity and stability of nickel slurry by adding additives with good dispersibility. At the same time, by adjusting parameters such as the proportion of additives and sintering temperature, Advanced Institute Technology has successfully solved problems such as electrode discontinuity and unevenness, further improving the reliability and withstand voltage strength of capacitors.

In addition to excellent performance, the nickel slurry for MLCC developed by Advanced Institute Technology also has broad application prospects. With the development of electronic products towards miniaturization and high performance, the performance requirements for capacitors are also increasing. The nickel paste for MLCC developed by Advanced Institute Technology can meet the demand for conductive paste in high-performance capacitors, providing strong support for the upgrading and replacement of electronic products. Meanwhile, the nickel slurry can also be applied to other fields such as solar cells, fuel cells, etc., providing new solutions for the development of these fields.

In short,Advanced Institute of TechnologyThe nickel paste developed for MLCC has demonstrated strong competitiveness in the field of electronic components due to its excellent performance and wide application prospects. In the future, Advanced Institute Technology will continue to devote itself to the research and innovation of materials science, contributing more to the development of the electronics industry.