Core Viewpoint - Ruike Laser has disclosed that it has delivered 120 units of aerospace 3D printing laser orders by the end of 2024, as per the contract with a state-owned enterprise, aimed at the production of precision core components [1][8]. Group 1: Product Development and Strategy - Ruike Laser's product strategy has shifted towards specialized laser models to meet diverse application scenarios, moving away from traditional general-purpose lasers that cannot effectively serve the precision processing market [3][10]. - The company has launched a dual-mode output laser for additive manufacturing, addressing issues such as low single-mode efficiency and poor multi-mode quality, achieving output power of up to 1kW in Gaussian mode and 3kW in flat-top mode [4][11]. - The company has completed the development of next-generation laser products tailored to the needs of leading customers and is collaborating closely with top domestic 3D printing equipment manufacturers [3][10]. Group 2: Industry Trends and Market Demand - The Ministry of Industry and Information Technology has identified additive manufacturing as a core area of national technology strategy, indicating a rising focus on this sector [3][10]. - The year 2026 is anticipated to be a pivotal year for China's commercial space industry, with multiple companies accelerating the development of reusable rockets, creating a surge in demand for upstream manufacturing capabilities [6][13]. - The high costs associated with rocket launches have historically constrained industry growth, but advancements in reusable rocket technology are expected to significantly reduce these costs, thereby stimulating market demand [6][13]. Group 3: Applications in Aerospace - Ruike Laser's products are utilized in large aircraft manufacturing, including the use of welding instead of riveting, and in the additive manufacturing of aerospace engines [7][14]. - The company's lasers are essential for 3D printing key structural components of launch vehicles, precision welding, and surface cleaning of parts, ensuring high performance and reliability in aerospace equipment [7][14]. - Ruike Laser has developed specialized lasers for the additive manufacturing of complex components, including those made from titanium alloys and high-temperature alloys, to meet the rigorous demands of aerospace applications [15].