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Multi-Material Cellular Structures Produced by Selective Laser Melting: A Suitable Transition between Niti and Ti6Al4V Alloys

Smart and multifuntional implants for life

Ti6Al4V-Bioactive Cellular Structures: A Multi-Material Approach to Enhance Cellular Response

NiTi alloy cellular structures by Selective Laser Melting targeting orthopedic implants – Design, fabrication and mechanical characterization

Predicting the influence of processing parameters on the thickness of Ti6Al4V thin-walled plates made by SLM

Predictive tools for the elastic modulus of Ti6Al4V structures produced by Selective Laser Melting targeting orthopedic implants

Selective Laser Melting of Ti6Al4V cellular structures targeting orthopedic implants: a combination of morphological, physical and mechanical properties

Ti-NiTi Multi material Parts Fabrication By Laser Machining And Powder Metallurgy

Assessing the influence of laser parameters on the fabrication of thin-walled Ti6Al4V tubes manufactured by selective laser melting

Multi-material Inconel 718 – Aluminium parts targeting aerospace applications: A suitable combination of low-weight and thermal properties

Multi-functional Ti6Al4V-CoCrMo implants fabricated by multi-material laser powder bed fusion technology: A disruptive material’s design and manufacturing philosophy

Unveiling additively manufactured cellular structures in hip implants: a comprehensive review

3D multi-material laser powder bed fusion: Ti6Al4V–CuNi2SiCr parts for aerospace applications

WC-Co/316L stainless steel joining by laser powder bed fusion for multi-material cutting tools manufacturing

Inconel 718 produced by hot pressing: optimization of temperature and pressure conditions

Mechanical Properties of Ti6Al4V Fabricated by Laser Powder Bed Fusion: A Review Focused on the Processing and Microstructural Parameters Influence on the Final Properties

Osseointegration Assessment of Multi-Material Ti6Al4V-? TCP Implants: An Experimental Study in Rats

420 stainless steel-Cu parts fabricated using 3D Multi-Material Laser Powder Bed Fusion: a new solution for plastic injection moulds

Laser powder bed fusion of the steels used in the plastic injection mould industry: a review of the influence of processing parameters on the final properties

The Influence of Laser Power and Scan Speed on the Dimensional Accuracy of Ti6Al4V Thin-Walled Parts Manufactured by Selective Laser Melting

Multi-material cellular structured orthopedic implants design: In vitro and bio-tribological performance

NiTi laser textured implants with improved in vivo osseointegration: An experimental study in rats

Multi-Material Additive Manufacturing for Advanced High-Tech Components

Inconel 718 produced by laser powder bed fusion: an overview of the influence of processing parameters on microstructural and mechanical properties

Production of a multi-functional 420 stainless steel-copper surface by laser texturing and hot pressing: a new solution for plastic injection moulds

Influence of Laser Parameters on the Texturing of 420 Stainless Steel

Engineering the elastic modulus of NiTi cellular structures fabricated by selective laser melting

Physicochemical properties and cytocompatibility assessment of non-degradable scaffolds for bone tissue engineering applications

Additive manufacturing of NiTi-Ti6Al4V multi-material cellular structures targeting orthopedic implants

Additive manufactured porous biomaterials targeting orthopedic implants: A suitable combination of mechanical, physical and topological properties

Surface design using laser technology for Ti6Al4V-hydroxyapatite implants

Corrosion behaviour of PEEK or β-TCP-impregnated Ti6Al4V SLM structures targeting biomedical applications

Multi-material Ti6Al4V & PEEK cellular structures produced by Selective Laser Melting and Hot Pressing: A tribocorrosion study targeting orthopedic applications

Tribological behavior of bioactive multi-material structures targeting orthopedic applications

Predicting the output dimensions, porosity and elastic modulus of additive manufactured biomaterial structures targeting orthopedic implants

Corrosion and tribocorrosion behaviour of Ti6Al4V produced by selective laser melting and hot pressing in comparison with the commercial alloy

Additive manufacturing of Ti–6Al–4V parts through laser metal deposition (LMD): Process, microstructure, and mechanical properties

Implant surface design for improved implant stability – A study on Ti6Al4V dense and cellular structures produced by Selective Laser Melting

Ti6Al4V-PEEK multi-material structures – design, fabrication and tribological characterization focused on orthopedic implants

A study on the production of thin-walled Ti6Al4V parts by selective laser melting

Development of β-TCP-Ti6Al4V structures: Driving cellular response by modulating physical and chemical properties

Ti6Al4V cellular structures impregnated with biomedical PEEK – New material design for improved tribological behavior

45S5 BAG-Ti6Al4V structures: The influence of the design on some of the physical and chemical interactions that drive cellular response

Selective Laser Melting of Ti6Al4V sub-millimetric cellular structures: Prediction of dimensional deviations and mechanical performance

Multi-material NiTi-PEEK hybrid cellular structures by Selective Laser Melting and Hot Pressing: Tribological characterization

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