Tyrida Laser Shock Peening Machine

TECHNICAL SPECIFICATIONS:

    • Pulse Energy: 5-15J
    • Wave Length: 1064nm
    • Laser Output Pulse Width: 10-20ns
    • Pulse Rate: 1-10Hz
    • Positioning Accuracy: ≤0.10mm
    • Overall Demission: 7m*3.5m*2.8m (L*W*H)
    • Gross Weight: 12 Tons
    • Humidity Requirement:<60% RH
    • Laser Warm Up Time: <20 mins
    • Operation Temperature: 15℃-25℃
    • Applicable to process blisk, blades and critical metal components infactory

TECHNICAL SPECIFICATIONS:

    • Pulse energy: <200 mJ
    • Wave Length: 532nm
    • Laser Output Pulse Width: 10ns
    • Pulse Rate: >300Hz
    • Processing Precision: ±0.020mm
    • Overall Demission: 2.4*2.4m*2.4m (L*W*H)
    • Gross Weight: 1.8 Tons
    • Humidity Requirement:<60% RH
    • Laser Warm Up Time: <20 mins
    • Operation Temperature: 15℃-25℃
    • Applicable to replace shot peening to some degree and achieve more effective result than shot peening

TECHNICAL PAPERS:  LSP on Ti-6Al-4V Sample

Pristine Ti-6Al-4V

Peening toolpath

Ti-6Al-4V peened with Tyrida YS120-R200A machine

Residual stress measurement:

To obtain the complete residual stress (RS) distribution profile:

  • X-ray Diffraction (XRD) for surface stress (depth = 0μm) and
  • Prism Hole Drilling for sub-surface stress
    (depth = 50, 100, 200, 300, 500, 700, 800, 900, 1000 and 1100μm)

LSP on Ti-6Al-4V Sample

PEEN FORMINGAPPLICATIONS

Laser shock peening (LSP) is a high-tech surface engineering solution created to increase the fatigue resistance of metallic components through the application of high-energy laser pulse onto their surfaces. At Tyrida, we provide value-added services to our customers by helping them reduce maintenance cost and improve turnaround time in the LSP process.