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Nueva aleación biocompatible
Resumen
Tipo:
Oferta Tecnológica
Referencia:
TOTR20150731014
Publicado:
20/01/2016
Caducidad:
20/01/2017
Resumen:
Una universidad turca ha desarrollado una aleación biocompatible con módulo de elasticidad más bajo que los implantes ortopédicos convencionales, alta resistencia mecánica y elementos no tóxicos para el cuerpo humano. La aleación consiste en elementos biocompatibles de titanio (Ti), niobio (Nb) y circonio (Zr). La universidad busca empresas con el fin de establecer acuerdos de licencia y fabricación, así como centros de I+D para establecer acuerdos de cooperación técnica.
Details
Tittle:
A Novel Biocompatible Alloy Material
Summary:
A Turkish university has invented biocompatible alloy material with low modulus of elasticity, a high mechanical strength and non toxic elements for human body. Turkish university is looking for companies for license agreement and manufacturing agreement and also looking for R-Y-D centers in order to sign technical cooperation agreement.
Description:
A Turkish universtiy has an invention about biocompatible alloy material. Invention relates to a titanium alloy that exhibits excellent plastic deformation capability has low modulus of elasticity, a high mechanical strength and consists of biocompatible titanium (Ti), niobium (Nb) and zirconium (Zr) elements. Turkish university is interested in license agreements, technical cooperation. Manufacturing agreements are also on the table.
Requirement of mechanically and biologically biocompatible material with the bone tissue is one of the most
important needs in global growth market of orthopedic biomaterials. A novel Ti-Nb-Zr alloys that has a lower modulus of elasticity than conventional orthopedic implant materials have been developed by using fully biocompatible alloying elements.
Requirement of mechanically and biologically biocompatible material with the bone tissue is one of the most
important needs in global growth market of orthopedic biomaterials. A novel Ti-Nb-Zr alloys that has a lower modulus of elasticity than conventional orthopedic implant materials have been developed by using fully biocompatible alloying elements.
Advantages and Innovations:
The material´s advantages and innovations comparing to currently used materials are listed below.
-High corrosion resistance
-High ability of cold forming.
-Low density.
-Low modulus of elasticity.
-High tensile and yield strength.
-High elastic energy and high elastic strain limit.
-Coefficient of elasticity (yield strength / modulus of elasticity) is between 1,08%- 1,31%.
-No strain-hardening.
-High ductility.
-High amounts of Zr element.
-Does not contain nickel.
-High corrosion resistance
-High ability of cold forming.
-Low density.
-Low modulus of elasticity.
-High tensile and yield strength.
-High elastic energy and high elastic strain limit.
-Coefficient of elasticity (yield strength / modulus of elasticity) is between 1,08%- 1,31%.
-No strain-hardening.
-High ductility.
-High amounts of Zr element.
-Does not contain nickel.
Stage of Development:
Prototype available for demonstration
IPs:
Patent(s) applied for but not yet granted
CommeR Statunts Regarding IPR Status:
Patent applied for Turkey.
Partner sought
Type and Role of Partner Sought:
Turkish university would like to make agreements with companies, universities or institutes willing to support further studies. Technical cooperation for R-Y-D centers, license and manufacturing agreements for companies are offered.
Client
Type and Size of Client:
Industry >500
Already Engaged in Trans-National Cooperation:
No
Languages Spoken:
English
Keywords
Technology Keywords:
02007010 Metals and Alloys