Novus Life Sciences products

Bonlecule, akin to titanium and PEEK, possesses exceptional strength and biocompatibility attributes while being comparatively more cost-effective. It presents the added advantage of bioactivity, which facilitates the bone healing process, rendering it highly suitable for permanent medical implant applications and bone tissue engineering endeavors.

The Medical PMMA Filament by NOVUS stands out as a high-quality, biocompatible 3D printing material, characterized by its chemical resistance. It is specifically engineered for the creation of permanent implants, medical devices, and equipment, offering a reliable alternative to polycarbonate (PC) with enhanced transparency and a high-gloss finish. This filament is formulated from medical-grade PMMA resin and is known for its robust performance. It boasts flexural strength of 62 MPa and flexural modulus of 1.68 GPa, making the printed objects as tough and durable as those produced through molding. The material is USP Class VI and ISO 10993 certified, resistant to various chemicals, especially acids, and can be sterilized using gamma or EtO methods. With its precise diameter tolerance and real-time feedback during production, this filament promises exceptional quality control, powered by advanced laser technologies.

Polyether ether ketone (PEEK) is a sturdy engineering material widely used for producing permanent implants due to its excellent durability and strength. Recently, its application in 3D printing for medical devices and implants has gained significant traction. Engineered from medical-grade PEEK resin, this filament ensures biocompatibility, producing tough and resilient 3D printed structures that rival traditional molding techniques. Notable for its high impact resistance and chemical robustness, especially against acids, this material meets USP Class VI and ISO 10993 standards. Additionally, it can be sterilized using gamma radiation or EtO methods, making it ideal for various surgical instruments and implants. With remarkable flexural strength of 151 MPa and a modulus of 3.57 GPa, it is produced in ISO 7 cleanroom facilities, maintaining strict quality control, powered by Keyence and EECTRL Opmac laser technologies. Its dimensional precision is controlled in real-time, yielding a 1.75mm diameter with a tolerance far less than ±0.05mm.