- Tel: +8613911709825 /
- Email: ry@rays-casting.com /
Delivering innovative materials and solutions for orthopedic applications, enhancing patient outcomes and surgical precision.
We specialize in providing high-quality medical alloys and implant materials to meet the demands of modern orthopedic surgery.
◆ As a leading supplier, we are committed to pushing the boundaries of biocompatibility and mechanical performance in implantable devices. Our materials are rigorously tested and certified to meet the highest industry standards. Inferior subluxation of the humeral head requires materials that can withstand significant stress and promote osseointegration.
◆ We offer a comprehensive range of alloys, including titanium alloys, cobalt-chromium alloys, and stainless steel, tailored for use in hip and knee replacements, fracture fixation, and other orthopedic applications. Materials suitable for addressing inferior subluxation of the humeral head must exhibit exceptional fatigue resistance and corrosion resistance.
Driven by innovation and quality, we provide materials that meet the complex demands of orthopedic reconstruction.
Our alloys undergo stringent purification processes to ensure exceptional biocompatibility and minimize the risk of adverse reactions.
We employ advanced manufacturing techniques to ensure dimensional accuracy and consistent material properties, crucial for orthopedic implant performance.
We collaborate with our clients to develop custom alloy compositions tailored to specific orthopedic implant applications, addressing unique biomechanical requirements.
Data-driven insights showcasing the superior qualities of our materials.
Detailed specifications of our available alloys for orthopedic applications.
| Alloy Grade | Tensile Strength (MPa) | Yield Strength (MPa) | Elongation (%) | Density (g/cm³) | Corrosion Resistance |
|---|---|---|---|---|---|
| Ti-6Al-4V | 895 | 828 | 15 | 4.43 | Excellent |
| CoCrMo | 790 | 620 | 8 | 8.4 | Superior |
| 316L Stainless Steel | 585 | 275 | 30 | 8.03 | Good |
| MP35N | 1100 | 860 | 12 | 10.1 | Excellent |
| Ti-13Nb-3Zr-2Ta | 750 | 600 | 20 | 5.7 | Very Good |
| Zr-7Nb | 650 | 450 | 18 | 6.5 | Excellent |
Real-world applications demonstrating the efficacy of our materials in challenging orthopedic cases.
Successful implementation of a Ti-6Al-4V alloy humeral head implant in a patient with recurrent shoulder instability following a traumatic injury.
Successful stabilization of a complex proximal humerus fracture using a CoCrMo alloy plate and screws, achieving optimal bone healing.
Long-term success with a CoCrMo alloy femoral component in a patient undergoing total knee arthroplasty, demonstrating excellent wear resistance.
Successful revision total hip arthroplasty utilizing a Ti-6Al-4V alloy femoral stem, demonstrating improved implant stability and reduced risk of loosening.
Our materials are utilized in a wide range of orthopedic applications, delivering superior performance and reliability.
Femoral heads, stems, and acetabular cups manufactured from our high-strength alloys.
Femoral and tibial components designed for optimal biomechanical performance.
Humeral heads and glenoid components designed for shoulder joint reconstruction.
Pedicle screws and rods crafted from biocompatible alloys for spinal fusion procedures.
Plates, screws, and intramedullary nails designed for stable fracture healing.
Comprehensive solutions for hip, knee, and shoulder joint replacement procedures.
Dedicated to upholding the highest standards of quality and safety in every product we deliver.
All alloys undergo comprehensive mechanical and chemical testing to ensure conformance to industry standards.
Full material traceability from raw material sourcing to finished product, ensuring accountability and transparency.
Certified to ISO 13485 standards for medical device quality management systems.
Dedicated to providing materials you can rely on for superior patient outcomes.
Find answers to common questions about our materials and services.
Our alloys demonstrate excellent corrosion resistance in physiological environments, minimizing the risk of implant failure.
Yes, we collaborate with clients to develop custom alloys tailored to specific application requirements.
We are ISO 13485 certified and maintain strict quality control procedures throughout our manufacturing process.
Lead times for custom alloy development vary depending on complexity, typically ranging from 8 to 12 weeks.
Yes, we provide comprehensive material testing services, including tensile testing, corrosion testing, and microstructural analysis.
We provide complete material certificates of analysis, as well as data sheets and regulatory compliance documentation.
Partner with us to enhance your orthopedic device designs and manufacturing processes.