Our Successful Partnerships
Design freedom and lightweighting
Through topology optimization, a key element of additive manufacturing, we dramatically reduce weight while maintaining strength. Maximize energy efficiency by expanding the robot arm’s range of motion and reducing motor load
Part consolidation and miniaturization
We integrate complex joints, cooling channels, and cable routing previously requiring multiple components into a single printed part. By eliminating the assembly process, we prevent tolerance issues and enhance the robot’s durability
Rapid R&D and customized production
It is possible to print immediately after design changes without the need for expensive mold production. We flexibly respond to everything from prototypes for field testing to special-purpose robot parts that require high-mix low-volume production.
Application
3D Printed Parts for Robotics
Lighter and more efficient
Robotic finger
PA12 offers superior mechanical strength and toughness, making it ideal for components subjected to repetitive bending and friction, such as robotic fingers. Its high fatigue resistance ensures minimal cracking or deformation over long-term use, providing reliable support during grasping operations for various objects.
MJF
PA12
PA12S
Image and contents courtesy of Lincsolution
Humanoid wrist bracket
By lightweighting the joint brackets of the robotic arm, we reduce motor load and increase operating speed
PBF(Powder Bed Fusion)
ALSi10Mg
Image and contents courtesy of Lincsolution
Force/Torque Sensor
Solving the challenge of fingertip force sensing with a miniature 6-axis force/torque sensor for finger joints.
PBF(Powder Bed Fusion)
Maraging steel
Image and contents courtesy of BLT
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No matter how complex the challenge, we can solve it together
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Materials
Materials for Robotic Components
We recommend the optimal material for your needs
PA12S
PA12S boasts a range of properties, including superior mechanical strength, excellent chemical resistance, and outstanding thermal stability
Superior mechanical strength
Chemical resistance
Thermal stability
Image and contents courtesy of HP
Aluminum
With its exceptional lightweight properties and high thermal conductivity, this material is ideal for robotic frames, as it enhances mobility while effectively dissipating heat from drive motors.
Lightweight
Thermal Conductivity
Corrosion Resistance
Image and contents courtesy of BLT
Titanium
Lightweight, strong, and highly resistant to both corrosion and heat.
Specific Strength
Corrosion Resistance
Thermal Expansion
Image and contents courtesy of BLT