✅ Product Overview
HAP Powder (Hydroxyapatite Powder) is a bioactive ceramic material with exceptional biocompatibility and osteoconductivity, making it ideal for 3D printing of bone tissue scaffolds, dental implants, and custom biomedical devices. Its customizable particle sizes and high purity make it suitable for precise and complex 3D-printed structures used in medical, dental, and regenerative applications.
🌟 Key Benefits
🔬 1. Exceptional Biocompatibility
- Chemically identical to natural bone mineral, ensuring excellent biological safety.
- Ideal for patient-specific implants due to its natural integration with bone tissue.
- Gradually biodegrades into calcium and phosphate ions, supporting bone remodeling.
🦴 2. Enhanced Bone Regeneration
- Used in 3D-printed scaffolds for bone tissue engineering.
- Supports cell attachment, proliferation, and vascularization.
- Provides a porous structure for new bone formation.
⚙️ 3. Customizable Particle Sizes for 3D Printing
- 10-50 µm: Ideal for fine details and precision printing, ensuring smooth surface finishes.
- 50-100 µm: Suitable for structural stability and controlled porosity.
- 100-300 µm: Used for large bone scaffolds with enhanced porosity for bone ingrowth.
🛠️ 4. High Printability and Stability
- High purity and consistent particle distribution ensure uniform flowability during printing.
- Compatible with various 3D printing technologies, including:
- SLS (Selective Laser Sintering)
- FDM (Fused Deposition Modeling) with HAP-infused filaments
- SLM (Selective Laser Melting)
- Inkjet and extrusion-based printing
💡 Applications in 3D Printing
✨ 1. Bone Tissue Scaffolds
- HAP powder is used to 3D print customized bone scaffolds for orthopedic and maxillofacial reconstruction.
- The porous structure facilitates cell migration, blood vessel growth, and new bone formation.
- Ideal for bone defect repair, spinal fusion, and craniomaxillofacial implants.
🦷 2. Dental Implants and Prosthetics
- Applied in 3D-printed dental implants, crowns, and prosthetics.
- Promotes osseointegration, enhancing implant stability.
- Biocompatible and bioactive, reducing the risk of rejection.
🔩 3. Patient-specific Implants
- Used in customized orthopedic implants tailored to the patient’s anatomy.
- Improves fit, functionality, and post-surgical recovery.
- Gradual degradation supports natural bone remodeling.
🛠️ 4. 3D-Printed Biomedical Devices
- HAP powder is combined with biodegradable polymers (e.g., PLA, PCL) to create bioactive composites.
- Used in 3D-printed drug delivery systems and biocompatible devices.
- Supports controlled release of therapeutic agents.
🛠️ Technical Specifications
- Purity: ≥ 99%
- Particle Size: 10-50 µm / 50-100 µm / 100-300 µm / customizable
- Flowability: Optimized for smooth and consistent printing
- Porosity: Controllable based on particle size and printing parameters
- pH: Neutral, compatible with biological environments
- Storage: Store in a sealed container, away from moisture and contamination
📊 Comparison with Other 3D Printing Materials
| Parameter | HAP Powder | PLA (Polylactic Acid) | β-TCP (Beta-Tricalcium Phosphate) |
|---|---|---|---|
| Biocompatibility | ✅ Excellent, bone-like properties | ✅ Good, but non-osteoconductive | ✅ Excellent |
| Printability | ✅ Smooth, stable flowability | ✅ High, easily printable | ⚠️ Moderate, requires processing |
| Mechanical Strength | ✅ High, bone-like density | ⚠️ Moderate, less durable | ✅ High |
| Degradation Rate | ✅ Gradual, supports bone growth | ✅ Slow degradation | ✅ Faster degradation |
| Application | Bone scaffolds, implants, devices | Bio-compatible 3D prints | Bone void fillers, scaffolds |
🛒 Product Highlights
- High-purity, bioactive material for precise and customizable 3D printing applications.
- Supports bone regeneration, osteointegration, and biocompatibility.
- Multiple particle sizes available for fine detailing or structural integrity.
- Compatible with various 3D printing technologies.
- Ideal for custom bone scaffolds, implants, and biomedical devices.
🔥 Contact us today for samples and pricing!
Details
| Shape | Spherical |
|---|
Reviews
There are no reviews yet.