TechnologY

FEMTOsecond LASER

The FEMTOsecond LASER μ-machining technology consists of ultra-short pulses that hit the workpiece to vaporize a small amount of material.

About FEMTOsecond LASER

FEMTOsecond LASER μ-machining is the most advanced LASER technology to process a wide range of materials. Thanks to very low heat diffusion time (< 300 fs), thermal effects are avoided. High energy density improves surface and geometries quality, while a high repetition rate ensures excellent productivity.

Function

The FEMTOsecond LASER technology is a perfect match for all industries requiring the highest precision without compromising quality and productivity.

Miniaturized components are used in all kind of devices. Several applications – e.g. in the electronics or MedTech world – are not imaginable without very small and tiny parts. Thus, this requires new ways to produce and manufacture these parts. With FEMTO LASER μ-machining there are various processes possible like drilling, cutting and turning. It's compatible with almost all materials that are otherwise very difficult to machine with conventional tools.

With each FEMTOsecond LASER pulse that hits the work-piece, a small amount of material immediately vaporizes. The material removal occurs in a controlled manner leading to no damage, burrs or any negative influences to the material integrity.

Your benefits:

  • FEMTOsecond Laser source < 300 fs
  • Highest level of accuracy and productivity
  • Stable and repeatable quality
  • Cold ablation keeping material integrity (no HAZ)
  • Proven performance in 24/7 industrial environment

What we can do with FEMTOsecond LASER
FEMTOsecond LASER

Turning of contacts pins for IC substrates testing industry

Leveraging precision turning of contacts and pins, IC substrate testing challenges can be efficiently managed, enhancing test accuracy and overall efficiency.
FEMTOsecond LASER

Turning of contact pins (wires, bars and tubes) for semiconductors testing industry

The key challenge in turning and micromachining contact pins (wires, bars, and tubes) for the semiconductor testing industry lies in achieving microscopic precision while ensuring optimal electrical performance. These pins must be meticulously crafted to maintain consistent dimensions, intricate geometries, and exceptional surface finishes, all while guaranteeing reliable connectivity for accurate semiconductor testing.
FEMTOsecond LASER

Gear cutting operations for the watchmaking industry

In the watchmaking industry, gear cutting demands unparalleled precision and intricacy. Even slight imperfections can disrupt accurate timekeeping, especially given the precious materials and tiny size of the gears. Coupled with the aesthetic requirements of luxury timepieces, this task requires highly specialized micro machining expertise.

Answering your questions about FEMTOsecond LASER

To find out if FEMTOsecond LASER technology is the right fit for your application, we answer your questions on the subject. More questions about FEMTOsecond LASER? Our team of experts is there for you!

What material can be micromachined with FEMTO-second LASER technology ?

Materials family:

Metal alloys

  • Aluminium
  • Brass
  • Bronze
  • Non ferrous metals
  • Stainless steel

Precious metal

  • Copper
  • Palladium
  • Precious metals
  • Titanium
  • Tungsten carbide
  • Irridium

Bio-metal

  • Bio-compatible material
  • Nitinol

Engineering plastics

  • PEEK
  • Polymers
  • S1000
  • Torlon
  • Vespel
  • PPS
  • Miproplate

Ceramics

  • Ceramics
  • Hard ceramic
  • Photoveel IIs
  • Si3N4
  • Silicone nitride
  • Zirconia
  • Silicone carbide
  • SiC

Glass

  • Glass

Metal

  • Hardened metal
  • Hardened steel
  • Steel

Multi substrates material

  • IMS
  • Metal baked
  • PCB laminates

Gem

  • Ruby
  • Sapphire

Composite Materials

  • Delitt
  • FR4
  • FR5

What quality and expertise brings Posalux into the FEMTO-second LASER technology?

  • Optical and fiber non-destructive measurement to control hole diameter, shape and positioning
  • 2D video measuring system with image analysis
  • Surface roughness measurement (Confocal Laser 3D)
  • Study and trials on demand

What are the micro-machining capabilities of FEMTO-second LASER technology?

  • Diameter/ Dimensions down to 20 µm or less
  • Size tolerances < ±1.5 µm
  • Straightholes (no taper)
  • Wallthickness < 8 µm or less
  • Corner radius < 3 µm (square holes)
  • Orthogonality 89° < … < 91° (square holes)
  • Surface quality / Homogeneity of the hole
  • No damages, no micro cracks

What means FEMTO?

A FEMTO-LASER is a Laser which emits optical pulses with a duration well below 1 ps, i.e.,in the domain of femtoseconds (1 fs = 10−15 s = Onequadrillionth of one second). It thus also belongs to the category of ULTRAFAST LASERS or ULTRASHORT PULSE LASERS.

What micromachining challenges meets FEMTO-second LASER technology?

  • Increased number of holes per guide plate (> 100K) with reduced pitch
  • Productivity (square holes 20 x 20 µm < 1.2 sec/hole)
  • Repeatability, reproducibility, consistency (several days of production in a row)
  • High positioning accuracy (process accuracy within ± 2 µm)
  • Stability and reliability (running 24/7)

Posalux machines featuring FEMTOsecond LASER Technology

FEMTOsecond LASER

FEMTO

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µ-machining operations

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