Velo3D Reports $46 Million in Total Revenue for 2025 Fiscal Year

Velo3D, headquartered in Campbell, California, has officially reported $46 million in total revenue for the 2025 fiscal year. The company continues to focus on its proprietary Laser Powder Bed Fusion (LPBF) technology, specifically targeting high-end industrial applications such as aerospace, defense, and energy. This financial disclosure reflects the firm's ongoing efforts to stabilize its market position while delivering metal additive manufacturing systems capable of printing complex geometries without traditional support structures. The results underscore the company's commitment to its core hardware business model, which centers on high-performance metal printing for mission-critical components.

This revenue figure places Velo3D in a competitive landscape alongside established metal AM providers like EOS, SLM Solutions, and Additive Industries. The company's focus on high-complexity, low-volume production addresses the specific market gap for parts that are otherwise impossible to manufacture using conventional subtractive methods or standard LPBF systems. While the broader metal AM market is experiencing a shift toward production-scale reliability, Velo3D remains positioned as a specialized hardware provider for sectors requiring high-precision alloys like Inconel 718 and Ti-6Al-4V. The current revenue performance highlights the challenges of scaling specialized hardware sales in a market increasingly sensitive to capital expenditure cycles and operational efficiency.

For stakeholders, this $46 million revenue figure serves as a baseline for assessing the company's operational efficiency and its ability to manage cash flow in a capital-intensive sector. The immediate priority for Velo3D is to demonstrate consistent margin improvement and sustained demand for its Sapphire printer series among its core aerospace and defense client base. Buyers and industrial users should focus on the company's ability to maintain system uptime and provide reliable post-processing support for complex geometries as they integrate these units into existing production workflows.