Black
MATERIAL PERFORMANCE
High-Strength
Printing Material
PETG-HS filament is designed for applications that require both strength and flexibility. It maintains stable extrusion at higher speeds while delivering durable and impact-resistant prints across functional use cases.
Strong Bonding
Enhanced layer adhesion
Flexible Strength
Balanced rigidity control
Impact Resistance
Handles mechanical stress
- • PETG-HS filament is developed to support faster printing while maintaining structural reliability. It offers strong interlayer bonding, helping prints retain strength under regular use.
- • The material allows controlled extrusion at higher speeds, reducing print time without affecting output stability. This makes it suitable for functional parts and production-focused applications.
- • Its balanced flexibility prevents brittleness, allowing printed parts to withstand moderate stress and movement. This improves durability in components that require both strength and slight flexibility.
- • With its stable performance and strength-focused properties, PETG-HS is widely used for mechanical parts and utility prints. It delivers dependable results without requiring complex print adjustments.
Key Highlights
High Speed Capability
Supports faster printing while maintaining stable material flow and output quality.
Strong Layer Adhesion
Ensures firm bonding between layers for improved structural integrity.
Balanced Flexibility Range
Provides slight flexibility to reduce brittleness in printed components.
Durable Print Output
Delivers strong and impact-resistant parts for functional use cases.
| Available Colors | Black, Light Gray, White |
| Material Type | PETG-HS (High-Speed Polyethylene Terephthalate Glycol) |
| Printing Temperature | 220°C – 250°C |
| Bed Requirement | Recommended (Heated bed improves adhesion) |
| Printing Characteristics | Strong layer bonding with stable extrusion at higher speeds |
| Surface Quality | Produces a semi-gloss surface with durable finish |
| Usage Type | Suitable for functional parts and strength-based applications |