Group 1 - The core material being developed is PEKC (Phenolphthalein-based Polyaryletherketone), which exhibits high strength, fatigue resistance, corrosion resistance, and thermal stability, making it suitable for applications in robotic structural components [1][2] - The "High-Performance Materials Joint Laboratory" established by the company is currently in the sample preparation and testing phase, with initial experimental data showing outstanding performance indicators for PEKC [1][3] - The development of PEKC is expected to significantly reduce manufacturing costs while enhancing the performance and durability of robots, facilitating a transition from traditional metal components to plastic alternatives [1][4] Group 2 - PEKC is recognized for its excellent properties across various fields, including water treatment, electronics, and aerospace, and is particularly advantageous for producing lightweight robotic components [2][3] - The material's promotion is anticipated to address issues associated with traditional metal parts, such as weight, energy consumption, and corrosion, thereby improving the dynamic performance and energy efficiency of robots in industrial applications [2][3] - The market for PEKC in China is projected to grow significantly, with the material being a key choice for next-generation industrial robots, driven by its unique performance advantages [3][4] Group 3 - The breakthrough in PEKC material signifies a shift towards industrialization of the "plastic instead of steel" technology, which is expected to revolutionize lightweight manufacturing in robotics and high-end manufacturing sectors [4] - As PEKC continues to be integrated into various applications, its potential will be further realized, positioning it as a cornerstone material for advancing China's manufacturing capabilities [4] - The ongoing research and development efforts by the company aim to optimize production processes and reduce material costs, accelerating the industrialization of PEKC [1][3]