Academic-Industrial Collaborations

As a leading laser micro-processing solutions provider, YueQian Laser leverages deep expertise in laser technology and advanced manufacturing to empower academic research. We specialize in addressing the unique challenges of university R&D projects—innovation-driven design, multi-process integration, and small-batch production—by delivering tailored, high-precision solutions.

Custom R&D Support：End-to-end development of novel industrial products/processes, from conceptual design to rapid prototyping and small-batch manufacturing.

Laser Micro/Nano Processing：Micron-scale precision machining for cutting-edge applications in microelectronics, biomedical devices, and advanced materials.

Advanced Welding Technologies：High-stability welding solutions for complex materials (metals/non-metals) and critical components in research instruments.

Analytical Testing：Comprehensive material characterization and performance validation, ensuring data integrity for research publications.

Case Studies

1. Graphene Membrane Laser Micro-Hole Drilling

Challenge: A university team required defect-free, micron-scale perforations on thin graphene sheets.
Solution: Proprietary nanosecond-pulse laser process achieving ≤5μm aperture consistency with zero thermal damage.
Outcome: Delivered batch-qualified samples within 3 weeks, accelerating subsequent device testing phases.

2. Low-Resistance Silicon Wafer Angled Cutting

Challenge: Precision 27.72° inclined cuts on conductive silicon wafers without compromising surface metallization.
Solution: Real-time parameter-optimized laser cutting with ±0.1° angular accuracy and protective gas shielding.
Outcome: Achieved 100% metal layer integrity, enabling next-gen MEMS sensor prototyping.

3. Nuclear Fuel Rod Hermetic Welding

Challenge: Sub-millimeter thermal management during continuous seal welding of zirconium alloy rods.
Solution: Closed-loop laser power modulation system with <50μm heat-affected zone control.
Outcome: 99.8% leak-tight weld qualification, surpassing traditional arc welding performance.