Main advantages

  • High precision
  • Non contact
  • Any material

Laser Micromachining Technology​

Laser micromachining enables high speed, high precision, non-contact and high repeatability fabrication capabilities for virtually any material including metals, ceramics, composites, glasses, crystals, plastics and more.

High-tech industries including biomedical, semiconductor, electronics, automotive, tooling, watch and many more are already benefiting from increased efficiency, improved quality and greater flexibility in their manufacturing processes using lasers.

Typical processes include

Micro-Marking
Micro-drilling
Micro-Cutting
Micro-welding
surface texturing
volume modifications

What We Offer

Having a solid research background in laser microfabrication, optical sensing and parts inspection as well as hands-on experience in custom system development for semiconductor, hard disk and medtech industries, we offer full support from laser process development to high-throughput production system design and contract manufacturing service and multiple options in between.

Custom Laser Micromachining Systems

Production Services

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Why Quoba Systems

The Benefits of Working with Quoba Systems
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FULL LOCAL SUPPORT

from idea to solution
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CUSTOM SYSTEMS

build for Your application
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INDUSTRIAL SOLUTIONS

5+ years experience
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PROCESS DEVELOPMENT

10+ years experience
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COLLABORATION

open for novel opportunities
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HIGH QUALITY COMPONENTS

from world leading suppliers

PROCESS FLOW

During initial consultation we learn about your task or idea, agree on main requirements and testing methods. It is helpful to discuss early on how ideal solution may look like: R&D system, production system, contract manufacturing etc

Stage Stage 1 Stage 2 Stage 3 Stage 4 Stage 5
Activities The Task / Initial Consultation Proof-of-concept / Which Laser? Prototype System Design / Provide Samples Fabricated To Specification Small-scale Production System Design High-throughput Production System Design
Description Discuss the task or idea Collect main requirements Discuss possible solutions and steps Review relevant literature including scientific publications, patents, whitepapers, books and consult with research collaborators Collect all required specifications related to sample processing quality Design a prototype system (or upgrade the existing R&D system) integrating the selected laser with optimized optical inspection, sample positioning, beam scanning, software, sample holding and other Upgrade the system to small- scale production capability with emphasis on process repeatability and system reliability Small-scale manufacturing demonstration Upgrade the system to high-throughput manufacturing capability with emphasis on process repeatability, system reliability and high throughput High-throughput manufacturing demonstration
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PROCESS FLOW

To provide the optimal solution for your application we use a cost-effective step-by-step approach. We start with a free consultation and a proof-of-concept trial to assess whether laser technology aligns with your needs. If required, we conduct an in-depth feasibility study. This includes testing different fabrication techniques, optimising laser parameters, and identifying key system requirements. We use flexible and customisable laser micromachining setups to accommodate a range of fabrication requirements. For more challenging applications we develop dedicated prototypes.The solution stage includes finalising system or production requirements, designing and building dedicated system and optimising its performance.

Our approach ensures that you receive the most effective and tailored solution for your specific application.

Feasibility Studies
  • Review literature
  • Perform experiments
  • Find optimal laser parameters
System Prototype
  • Finalise sample specifications
  • Design and build a prototype system
  • Fabricate final sample to specifications
Optimal Solution
  • Decide system or production
  • Finalise requirements
  • Build a custom system

Industrial Applications

Tooling
Industry

Watch and Jewelry Manufacturing

Electronic Components Manufacturing

Semiconductor
Industry

Automotive
Industry

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the team

director

Ricardas Buividas
Adam Chrimes

director

scientific advisor

ARNAN MITCHELL
SAULIUS JUODKAZIS

Scientific advisor

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