PA 11 HP is a sustainable 3D printing material manufactured from renewable biomass sources, specifically castor oil. This high-performance polyamide offers exceptional mechanical properties, including outstanding impact strength. PA 11 HP's combination of sustainability, strength, and versatility positions it as a leading choice for advanced manufacturing requirements, with technical capabilities that extend far beyond conventional materials.
PA 11 HP stands as a breakthrough sustainable 3D printing material derived entirely from renewable biomass sources, offering a more environmentally conscious alternative to traditional nylon materials. This versatile material combines exceptional mechanical properties, including high toughness and impact strength, with excellent surface quality and detail retention for superior print outcomes.
Its biocompatibility and approval for skin contact applications make it particularly valuable for medical devices, while its durability suits it perfectly for functional prototypes, end-use parts, and components requiring long-term performance.
The evolution of sustainable 3D printing materials has led to the development of PA 11 HP, a high-performance polymer derived entirely from renewable biomass sources. This innovative material represents a significant advancement in sustainable manufacturing, offering an environmentally conscious alternative to traditional Nylon PA 12 while maintaining exceptional performance characteristics.
PA 11 HP distinguishes itself through its impressive mechanical properties, featuring a density of 1.05 g/cm³ and a remarkable Charpy impact value of 198 kJ/m². These specifications translate into outstanding toughness, ductility, and impact resistance, making it particularly suitable for applications that demand durability and structural integrity. The material's versatility extends to its biocompatibility, as it has received approval for skin contact applications, opening up possibilities in medical device manufacturing and various industrial components.
Advanced manufacturing capabilities converge in PA 11 HP, offering five distinct advantages that position it as a leading choice for industrial 3D printing applications. The material's sustainable composition, derived entirely from renewable biomass sources, represents a significant advancement over traditional PA 12 nylon, addressing growing environmental concerns in manufacturing.
Furthermore, PA 11 HP demonstrates superior surface quality and detail retention, enabling the production of intricate geometries with high precision. Its inherent flexibility facilitates the creation of customized components without compromising structural integrity. These characteristics, coupled with its durability and reliability, make PA 11 HP an ideal choice for manufacturers seeking high-performance, sustainable materials for their 3D printing applications.
Versatility defines PA 11 HP's presence across multiple industries, from medical applications to automotive manufacturing. In the medical sector, this material has established itself as a premier choice for orthopedic components, where its high toughness and skin contact approval guarantee safe, reliable performance in direct contact with patients. The automotive industry leverages PA 11 HP's combination of flexibility and mechanical strength to produce interior components that withstand continuous use while maintaining their structural integrity.
The material's exceptional impact resistance makes it particularly valuable in applications requiring living hinges, where components must undergo repeated flexing cycles without failure. Additionally, PA 11 HP's ability to capture intricate details and deliver superior surface finishes has made it indispensable for prototyping and manufacturing complex geometrical parts across various industrial applications.
Industries focused on sustainability find PA 11 HP especially appealing, as it originates from 100% renewable biomass sources, allowing companies to maintain high performance standards while meeting environmental responsibilities. This unique combination of technical capabilities and eco-friendly characteristics positions PA 11 HP as a leading material choice across diverse manufacturing sectors.
PA 11 HP boasts several key technical specifications that define its performance in additive manufacturing applications. The material features a density of 1.05 g/cm³, striking a prime balance between weight and structural integrity. This lightweight characteristic combines with exceptional mechanical properties, particularly its impressive Charpy impact value of 198 kJ/m², which demonstrates the material's robust resistance to dynamic loading and impact forces.
When utilizing PA 11 HP in Multi Jet Fusion technology, manufacturers must adhere to specific dimensional parameters. The technology accommodates build volumes up to 274 x 370 x 380 mm, while maintaining precise layer thickness control at 100µm. For successful prints, supported elements require a minimum wall thickness of 1 mm to guarantee structural stability. The material's dimensional accuracy is especially remarkable, with tolerances of +/- 0.3% in the X-Y plane and +/- 0.7% in the Z direction. These specifications guarantee that final components meet strict dimensional requirements, making PA 11 HP suitable for applications where precision and reliability are essential factors in component design and production.
| Mechanical Properties | Conditions | Unit | Value |
|---|---|---|---|
| Density of part | ASTM D638 | g/cm3 | 1.05 |
| Tensile Modulus | ASTM D638 | MPa | 1700 (XY) / 1800 (Z) |
| Tensile strength | ASTM D638 | MPa | 54 (XY) / 54 (Z) |
| Elongation at break | ASTM D638 | % | 40 (XY) / 25 (Z) |
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