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Titanium

Cannondale MOMO Design Titanium 3D Print Computer Mount | SystemBar R-One Carbon One-Piece Handlebar Supersix Evo Himod Garmin 1050 Wahoo

Cannondale MOMO Design Titanium 3D Print Computer Mount | SystemBar R-One Carbon One-Piece Handlebar Supersix Evo Himod Garmin 1050 Wahoo

Κανονική τιμή $249.89 SGD
Κανονική τιμή $249.89 SGD Τιμή έκπτωσης $249.89 SGD
Έκπτωση Εξαντλήθηκε
Τα έξοδα αποστολής υπολογίζονται κατά την ολοκλήρωση της αγοράς.
Option
Colour

[Made to order] 5 weeks

Titanium 3D Print Computer Mount for Cannondale MOMO Design Integrated Handlebar

-Short version 10.9gram
for Garmin Edge 540 840 530 830 130

for Wahoo Elemnt Bolt, V2, Mini

-Long version 12.9gram
for Garmin 1050 1040 1030 Explore2 Hammerhead

for Wahoo Elemnt, Elemnt Roam, V2


-Come with GoPro/ Light mount bracket, 2.3g/pc

-Come with Garmin, Wahoo, Bryton base plate

*For custom colour will take additional 2 weeks to complete.

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• Anti-rust and anti-corrosion, embracing enduring freshness.

• Half the weight reduction compare to stock mount, incredibly lightweight.

• Harder, stronger, and feather-light, a perfect blend of strength and agility.

• Incredibly thin 1mm Ti thickness with I-beam structure design, a balanced between weigh & strength of material

• Crafted from Grade 5 Titanium, boasting high tensile strength for quality and durability.

Warranty policies:
*Limited 2 years warranty for mount & bracket (With return of original damaged components)

*What not cover by warranty :
-Crash
-Overtighten cause thread rounded
-Install with incomparable tool
-Unable provide original purchase receipt (screenshot), return damage parts

For post warranty replacement, we can provide discounted price

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Quick introduction about our 3D Ti Printing

Particle Size Distribution | Material and Performance

  • The titanium alloy powder undergoes rigorous screening to ensure an optimal particle size distribution, providing uniform powder spreading and consistent part formation.
  • Low oxygen content further enhances material toughness and ductility, while a dense and homogeneous microstructure improves the mechanical properties of each component.
  • By optimizing the alloy composition, the parts achieve an ideal balance of strength and corrosion resistance, meeting the demands of cycling components in diverse environments.

Laser Power Density | Printing Process and Parameters

  • Precise laser power density control, combined with optimized scanning strategies, ensures uniform and stable melting during each layer’s formation.
  • Carefully calibrated layer thickness and spot size adjustments result in highly accurate and detailed components.
  • Enhanced powder bed uniformity improves the density and quality of printed parts, establishing a solid foundation for high-performance cycling components.

Internal Porosity | Print Quality and Performance Testing

  • Advanced process control minimizes internal porosity, ensuring unparalleled density throughout the parts. Residual stress is significantly reduced through process optimization, effectively mitigating potential stress concentration issues.
  • Stringent mechanical property evaluations, including tensile strength and fatigue life, ensure reliability under demanding conditions.
  • Surface roughness is precisely refined to meet assembly standards, enhancing both the functionality and appearance of the final product.

Multi-Laser System | Equipment and Process Improvements

  • A multi-laser system enhances production efficiency, while in-situ monitoring technology dynamically adjusts printing parameters to maintain optimal melt pool conditions.
  • Precise control over cooling rates results in more stable microstructures. Continuous advancements in processing stability enable consistent quality output, even for components with complex geometries, meeting both performance and aesthetic requirements.

Lightweight Design

  • Using topology optimization, parts are designed to achieve lightweight structures while meeting strength requirements.
  • Digital twin technology further enhances monitoring and performance evaluation, ensuring reliability and stability under demanding cycling conditions. By merging innovative design with precise manufacturing, cycling components deliver exceptional lightweight performance and meet the dual demands for strength and aesthetics in premium bike parts
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