Core Viewpoint - The article discusses the accelerating exploration of mass production in all-solid-state battery technology, highlighting the emerging demand for new processes and equipment to address unique manufacturing challenges [2][6]. Group 1: Event Overview - The 2025 (15th) High-tech Lithium Battery Annual Conference will be held from November 18-20, 2025, at the JW Marriott Hotel in Shenzhen [2]. - The event will celebrate the 15th anniversary and include the High-tech Golden Ball Award ceremony [2]. Group 2: Manufacturing Challenges and Solutions - All-solid-state batteries face unique challenges during manufacturing, such as deformation and internal short circuits due to the absence of traditional separators and the need for high-pressure preparation [2]. - The introduction of the electrode frame printing process aims to support and insulate the battery, preventing direct contact between the positive and negative electrodes [2]. Group 3: Technology Routes for Frame Printing - Various frame printing technologies are being evaluated for yield, efficiency, and precision, including: - Screen printing, which offers high precision and fast production cycles, with single-piece printing times under 2 seconds [3]. - Pre-fabricated frame transfer, which improves uniformity but faces challenges with transfer yield [3]. - Dispensing technology, which has lower equipment costs but poorer size precision and lower production efficiency due to long curing times [3]. - UV printing, a new non-contact technology, is slower and requires further validation of process stability [3]. Group 4: Equipment Manufacturers' Strategies - Equipment manufacturers are betting on different technological paths: - Liyuanheng recommends screen printing for its high throughput and precision control [4]. - High-energy Digital integrates 3D frame printing with electrolyte printing to enhance production efficiency [4]. - Delong Laser and Matsui Co. are adopting UV printing technology, with Delong's laser groove-making and Matsui's production-level UV printing project [5]. Group 5: Laser Technology Applications - Laser technology is increasingly applied in solid-state battery manufacturing, including: - Laser drying, which is more efficient than traditional oven drying, saving 80% space and 50% energy [6]. - Laser cutting as a replacement for traditional tools and online cleaning of roller presses, enhancing the value of laser equipment in production lines [6]. - The transition from material research to production processes and equipment standardization in all-solid-state batteries opens new growth opportunities for upstream equipment manufacturers, particularly in high-precision printing and advanced laser applications [6].
锂电设备“抢滩”固态电池胶框打印