Material standards
We’re dedicated to scientific excellence, tackling the pressing challenges of our time, and shaping the future with groundbreaking research.
Simulation skeleton Training Models
Monochromatic polyester resin
The polyester skeletal model is entirely made of porous polyester, which is an economical and versatile material.
- External fixationLimited total
- joint replacement
- internal fixation
Two-color polyester resin
The two-color polyester skeletal models are made of a polyester shell and internal cancellous bone material, making them easier to cut and drill.
- Total joint replacement
- internal fixation
- Fracture and pathological model
- Discectomy
Monochromatic bone-imitating resin
Made of hard imitation bone resin, a durable material.
- medical education
- doctor-patient communication
- Product Display
Bone-mimicking resin composite polyester
Made of a hard imitation bone resin shell combined with internal cancellous bone material, it has a strength closer to actual practice.
- Intramedullary nailing
- internal fixation
- Product Display
- surgical navigation
- Injection into facet joints or sacroiliac joints
- Discectomy
Mechanical composite resin
This mechanical model exhibits physical strength characteristics similar to those of real bones.
- The actual strength characteristics of real bones are required
- Used for comparing or designing implants and other devices
- Fatigue and strength testing of medical implants
Developing polyester resin
The developed skeletal model is designed for use in X-ray or fluoroscopy environments.
- External fixation
- Total joint replacement
- internal fixation
- Intramedullary nailing
- Application of cortical screws
Transparent skeletal model
Transparent skeletal models, crafted from transparent resin, are highly suitable for showcasing implants.
- Product Display
- medical education
Transparent shell composite polyester
The transparent cortical bone shell model is made of a transparent resin shell and an internal cancellous material.
- In intramedullary nailing, visualization of the intramedullary nail is crucial.
Simulation skeleton X-ray models
Accurate artifact-free CT materials significantly improve visualization and make your training closer to real clinical practice