DLyte Healthcare

The Ultimate Solution for Healthcare Applications

DLyte Healthcare Compact Series provides a surface finishing solution for common healthcare applications with proprietary dry electrolyte media.

It is specially designed for high-value, very small, fragile and delicate pieces with demanding finishing requirements.

Common applications include Stents, Medical implants, Medical instruments.

Available in three configurations depending on the capacity you need – DLyte1H, DLyte10H, DLyte100H.

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Description

FROM SMALL TO LARGE PRODUCTIONS

DLyte1H

The smallest available machine for healthcare applications.

Maximum working volume:
Up to 75mmØ x 50mm

DLyte10H

The second smallest machinery for healthcare applications.

Maximum working volume:
Up to 120mmØ x 50mm

DLyte100H

The biggest compact machine for healthcare applications.

Maximum working volume:
Up to 180mmØ x 80mm

Each machine can be further configured into three different versions, based on the materials that are to be treated:

H (low frequency)
For treatment materials included in Steel group and Cobalt-chrome group with Low Frequency parameters.

 

HHF (high frequency)
For treatment materials included in Steel group and Titanium group with High Frequency parameters.

 

H+HG (full frequency)
For treatment materials included in Steel group, Cobalt-chrome group and Titanium group with High Frequency and Low Frequency parameters.

Specifications

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Why Choose DLyte

WHAT MAKES DLYTE DIFFERENT

Besides being the only automated system that provides better results than traditional hand polishing, DLyte also provides several benefits:

  • Reduce costs by up to 80%
  • Flexible and controlled production
  • Processes inner cavities that cannot be accessed mechanically
  • Reaches every corner of the piece
  • Respects tolerances
  • Preserves the initial shape
  • Achieve mirror finish and homogeneous results
  • Save time with an automated process


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The Process

HOW DOES IT WORK?

Step 1
For the maximum efficiency and best results, the holders are developed based on the geometry of each piece with the intention of getting the most out of the electrical flow.


Step 2
The machine includes a high-performance cathode inside the perimeter of the drum allowing uniform electrical fields to achieve homogeneous results across the surface.


Step 3
The program is selected with custom parameters
depending on the media used for optimized polishing.


Step 4 - Process runs for average 50 - 60 minutes per cycle.

Step 4
The process runs for an average of 15 – 60 minutes per cycle, depending on user requirements.


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