Laser cutting sheet metal is no longer just a "separation" process. In the era of Semiconductors and Aerospace, it is a surgical-grade manufacturing method. By utilizing fiber laser technology, we achieve tolerances within ±0.01mm, critical for heat-sensitive alloys like Kovar and Titanium.
Our facility integrates AI-driven nesting algorithms to minimize waste and optimize grain orientation in sheet metal. This ensures that every bracket, housing, and frame maintains structural integrity under extreme thermal cycling.
With a decade of experience in Kovar precision processing, we offer more than just a product. We provide documented material traceability, RoHS compliance, and ESG-validated supply chains.
Founded in November 2014, Xinyunyang has adhered to the core business principles of Integrity, Innovation, Cooperation, and Sharing. We specialize in Kovar precision processing, providing miniaturized and customized high-reliability metal packaging solutions.
High-precision processing capability Advanced technology and equipment Strict quality control (ISO 9001) Flexible customized servicesOur location in the heart of China’s manufacturing hub allows us to source raw Kovar, Stainless Steel, and Titanium at competitive rates while maintaining immediate access to advanced surface treatment facilities (Gold plating, Nickel plating, Electropolishing).
We bridge the gap between R&D and scale. Our CNC and Laser Cutting departments work in tandem to deliver samples in as little as 3-5 days, with the capacity to scale to millions of units for 5G and EV sectors.
We understand the complexities of global trade. From Conflict-Free material sourcing to RoHS and REACH certification, our products are ready for the EU, North American, and Asian markets with full documentation.
The Laser Cutting Sheet Metal Process is often misunderstood as a simple thermal process. However, for precision electronics, the "Heat Affected Zone" (HAZ) is the enemy. At Xinyunyang, we utilize Fiber Laser Oscillators which offer a shorter wavelength compared to traditional CO2 lasers. This results in higher absorption rates in reflective metals like Copper and Aluminum, reducing dross and edge roughness.
Furthermore, our Oxygen-Free Nitrogen Cutting technique prevents oxidation on the cut edge. For components like metal frame components or CNC connectors, this means they are ready for immediate welding or hermetic sealing without secondary abrasive cleaning. This "Information Gain" in our process translates directly to cost savings for our clients in the semiconductor and medical device fields.
We also specialize in the 4J29 Kovar Alloy. This alloy requires specific laser power modulation to prevent micro-cracking during the cutting phase. Our proprietary power-pulsing parameters ensure that the thermal expansion characteristics of the Kovar remain unchanged, which is vital for vacuum-tight seals in military-grade connectors.
High-speed signal transmission requires EMI/RFI shielding. Our laser-cut housings provide the precise geometry needed for high-frequency shielding in AI servers and 5G base stations.
From busbars to battery cooling frames, our lightweight yet durable sheet metal components support the thermal management systems of modern electric vehicles.
Miniaturization is the trend. We produce micron-level precision parts for surgical tools and implantable sensor housings using ultra-fine laser kerf widths.
The industry is moving towards Green Manufacturing. Xinyunyang is ahead of the curve by implementing ESG-validated workflows, reducing energy consumption in laser operations by 25% through high-efficiency fiber sources and optimizing material usage through AI-nesting. We are not just a manufacturer; we are a partner in your sustainability goals.
Xinyunyang Precision
