BrainMap

Mr. Marius Marinel Stanescu

PhD

Professor - UNIVERSITATEA DIN CRAIOVA

Researcher | PhD supervisor

I studied the mechanical behavior for composites with unidirectional oriented reinforcement and proposing more methods for determining the elasticity characteristics, that took into account the components continuity of stress and strain tensors of the separation surfaces between the material phases; I made a global appreciation of the elasticity tensor characteristics based on the inter-relationships that appear between the stresses and strains; I researched the mechanical behavior for composites with randomly distribution of the reinforcement; I proposed an analytical model that gives similarities between the two homogenization theories; I studied from a mechanichal point of view the biocomposites with Dammar based matrix and reinforced with natural fibers; I researched the influence of non-uniformities over the mechanical properties, elastic and strength ones, for composites reinforced with various fabrics; I inserted a uniformity factor whose values give indications over the nature

Web of Science ResearcherID: AAP-3148-2020

Curriculum Vitae (25/08/2022)

Expertise & keywords

Development of biomimetic design methodology with reverse engineering in cognitive recognition and control of biomimetic robots Call name:
Nr ANCS 477/27.XI.2009 2010 - 2011

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA DIN CRAIOVA

Project partners: UNIVERSITATEA DIN CRAIOVA (); Atılım Üniversity, Ankara, ()

Affiliation: UNIVERSITATEA DIN CRAIOVA ()

Project website:

Abstract:

Multifunction materials with bioactive influence for implantology Call name:
Program PNCDI II - C71-080/2007 2007 - 2010

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA POLITEHNICA DIN BUCURESTI

Project partners: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (); PRELUCRARI METALURGICE PROD S.R.L. ()

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI ()

Project website:

Abstract:

The research project’s main objective is to assign an innovative technology to achieve some multi-purpose surgical implants, biologically active, most adequate to medical applications.The scientific objectives seek after: - the identification of the bioactive materials’ constituents and optimum concentration to achieve some compositional recipies assigned for osteointegration implants that have optimized chemical-structural characteristics; - the elucidation of some bioactive compunds’ synthesis and sedimentation mechanisms which would allow the implants surfaces’ biofunctionality for osteosynthesis; - assigning the nature and the optimum structure of the thin layers’ surface that are biocompatible with anti-coagulating properties: it looks upon achieving some sublayers with biofunctional surface achieved by magnetron spraying; a complete description of the biologically active surfaces formed by compuonds based on titanium oxide and/or titanium oxinitrate achieved through specific surface engineering techniques of the metallic biomaterials samples.

Novelty technologies for the fabrication of Permalloy-type export competitive products Call name:
Program PNCDI II - C71-059/2007 2007 - 2010

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA POLITEHNICA DIN BUCURESTI

Project partners: UNIVERSITATEA POLITEHNICA DIN BUCURESTI (); INSTITUTUL DE CERCETARI METALURGICE S.A. (); TECHNOMAT PROD SRL ()

Affiliation: UNIVERSITATEA POLITEHNICA DIN BUCURESTI ()

Project website:

Abstract:

The development of industry and modern technology is constantly accompanied by the increase of material performance. Along with this development, a constant advance of technologies used to create these high-tech materials is imposed, that must face requirements such as: -assuring high productivity; -low maintenance costs; reduction of noxious emissions through specific alloy techniques and by means of environment friendly adaptation of complex fluxes that would reduce material and energetic consumption; -assuring safe working conditions ,etc. One of the modern technological alternatives that would answer these requests is constant horizontal pouring that assures the creation of long special alloy semi-products which may be used in poured state and / or plastically deformed, hot and/or cold, to create products required on the Romanian market. The project wants to create some Ni-Fe alloy products with high magnetic permeability, utilized in the electro-technical and electronic industry, through innovative, integrated, high productive technology, that situate themselves in the so-called “out-of-the-pot” technologies – capable of satisfying internal and external market requests.

Intergrated technologies for the obtaining of complex biocompatible materials Call name:
Program INOVARE -C 115/2007 2007 - 2009

Role in this project: Key expert

Coordinating institution: INSTITUTUL DE CERCETARI METALURGICE S.A.

Project partners: INSTITUTUL DE CERCETARI METALURGICE S.A. (); PRELUCRARI METALURGICE PROD S.R.L. ()

Affiliation: INSTITUTUL DE CERCETARI METALURGICE S.A. ()

Project website:

Abstract:

FILE DESCRIPTION	DOCUMENT
List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager
R&D activities in enterprises
Peer-review activity for international programs/projects