3D printed parts are anisotropic, meaning their strength varies depending on direction. Understanding this concept is critical for engineering-grade parts.

What Is Anisotropy?

Unlike injection-moulded parts, 3D prints have directional strength:

• X/Y plane: strongest
• Z axis: weakest (layer adhesion)

Ignoring anisotropy leads to unexpected failures.

Designing With the Load Path

Always align your print so the load path runs parallel to layers, not across them.

Examples:

• Brackets should lie flat
• Hooks should print sideways
• Shafts should not be printed upright

Using Geometry to Improve Strength

Strength isn’t just about settings geometry matters.

Effective design features:

• Fillets instead of sharp corners
• Ribs instead of solid blocks
• Gradual transitions in thickness
• Hollow structures with thick walls

These reduce stress concentration and improve performance.

Support vs Strength Trade-Offs

Reorienting for strength sometimes requires more support material.

Tips:

• Accept supports if strength improves
• Remove supports carefully to avoid scars
• Consider splitting and bonding parts

Professional Print Strategy

At BritForge3D, orientation is selected based on:

• Load direction
• Surface finish requirements
• Post-processing needs
• Material behaviour

Get expert orientation applied automatically when you upload your file.