newsonline24

1.2 Objective
Today, earmolds and titanium earmolds are predominantly manufactured using additive manufacturing (3D printing), resulting in raw parts with inherent surface roughness. The goal of this application optimization was to eliminate this roughness and achieve a high-gloss finish that eliminates the need for manual rework while meeting the highest aesthetic and functional standards.

2. METHODOLOGY AND CHALLENGES

2.1 Challenges in Processing Plastics and Titanium
The processing of materials like acrylic, silicone, and titanium presents distinct yet equally demanding challenges in mass finishing:

Plastics:

Cloudiness: Surfaces become matte or appear "milky" after processing.
Loss of Geometry: Aggressive processing can alter the fit of these custom parts.
Residues: Process media can become lodged in fine channels.

Titanium:

Mirror Finish Without Form Loss: Titanium requires extremely gentle processing to ensure minimal material removal while preserving intricate geometries
Process Reliability: Results must be reproducible and stable to ensure consistently high quality.

2.2 Experimental Setup
To address these challenges, the OTEC Finishing Center conducted comprehensive test series, evaluating various process parameters:

Plastics: Testing innovative combinations of process media, adjusting flow dynamics in CF-Series machines, and optimizing the interaction between abrasive media and workpiece surfaces.
Titanium: Developing a specialized process media mix that enables minimal material removal while achieving maximum gloss, alongside fine-tuning machine parameters for uniform processing. The focus was on identifying a process that delivers reproducible, top-tier quality for both milled and printed parts.

3. Results

Arguably the most significant achievement of the new process is its optical quality:

3.1 Exceptional Transparency and Mirror Finish

Plastics: Achieved brilliance and transparency comparable to or surpassing manual polishing.
Titanium: Delivered a flawless mirror finish without significant form loss.

3.2 Preservation of Geometry

By fine-tuning machine parameters and using specially tailored media, material removal was controlled to ensure extremely gentle processing. This is essential for achieving a perfect fit in the ear canal.

3.3 Process Stability

The test series demonstrated that the new process is highly stable. Both plastics and titanium achieved homogeneous surface structures free from disruptive deposits or inclusions.

4. ANALYSIS OF BENEFITS

4.1 For Manufacturers (Economic Efficiency)

• Reduction in Manual Labor
  The need for manual pre- or post-processing is minimized.
• Efficiency
  The OTEC CF-Series enables the processing of larger batch sizes in a single operation.
• No Mandatory Coating:
  Due to the high surface quality, optional coatings are now an aesthetic choice rather than a technical necessity for achieving biocompatibility.

4.2 For End Users (Quality)

• Wearing Comfort
  Perfectly smoothed surfaces prevent skin irritation in the sensitive ear area.
• Aesthetics
  High transparency in plastics and the mirror finish in titanium make the earmold nearly invisible when worn.
• Hygiene
  Smoother surfaces reduce the accumulation of earwax and bacteria, making cleaning easier.

5. CONCLUSION AND RECOMMENDATION

The new insights from the OTEC Finishing Center have revolutionized the automated processing of earmolds and titanium earmolds. The developed process combines economic efficiency with the highest quality standards.
We recommend that manufacturers of earmolds and titanium earmolds adopt the optimized process parameters of the CF-series to remain competitive and deliver products that delight end users both functionally and aesthetically. The synergy between the machine and the newly defined process media mix guarantees results that truly "stand out" – or, in the best sense, remain invisible.