Prof Dr. Camelia Cerbu | Computational Analysis Award | Best Researcher Award

Prof Dr. Camelia Cerbu | Computational Analysis Award | Best Researcher Award 

Prof Dr. Camelia Cerbu, Transilvania University of Brasov, Romania

Camelia Cerbu is a distinguished professor at Transilvania University of Brașov, Romania, specializing in Mechanical Engineering. With a robust academic background, she earned her Ph.D. in Engineering Sciences in 2005, focusing on the structural optimization of composite materials under challenging environmental conditions. Over her career, she has advanced through various academic ranks, from University Assistant to Professor, while also serving as a PhD supervisor in Mechanical Engineering. Her research expertise encompasses the strength of materials, mechanics of composite materials, and the analysis of stress and strain fields in mechanical structures. In addition to her academic pursuits, Dr. Cerbu has contributed to industry through her engineering roles in research and design for manufacturing technologies. Her commitment to education is reflected in her involvement in developing modern educational technologies and mentoring numerous graduate and doctoral students.

Professional Profile:

Summary of Suitability for the Best Researcher Award: Camelia Cerbu

Overview: Camelia Cerbu is a highly qualified candidate for the Best Researcher Award, demonstrating extensive experience and significant contributions in the field of Mechanical Engineering, particularly in materials science and composite materials. Her academic credentials, professional experience, and impactful research align with the criteria for this prestigious award.

🏫 Education:

  • PhD in Engineering Sciences (Mechanical Engineering)
    Transilvania University of Brașov, 2005
    Thesis: Research on structural optimization of composite materials under aggressive environmental conditions.
  • Master’s in Computer Assisted Technological Engineering
    Transilvania University of Brașov, 1997
  • Engineer in Mechanics (Machine Building Technology, CAD)
    Transilvania University of Brașov, 1996

💼 Work Experience:

  • Professor (2016 – Present)
    Transilvania University of Brașov

    • Teaching courses in Strength of Materials, Mechanics of Composite Materials, and Dynamics of Mechanical Structures.
    • Supervising PhD theses and research activities.
  • Associate Professor (2007 – 2016)
    Transilvania University of Brașov
  • University Lecturer (2002 – 2007)
    Transilvania University of Brașov
  • University Assistant (2000 – 2002)
    Transilvania University of Brașov
  • Engineer (1997 – 2000)
    S.C. I.U.S. S.A. Brașov

    • Designed manufacturing technology for hand tools.
  • Engineer (1996 – 1997)
    Automotive Institute of Brașov

    • Worked on Computer Aided Design for inspection tools.

🔍 Research Expertise:

Camelia’s research interests include:

  • Strength of materials and mechanics of isotropic and anisotropic materials.
  • Finite element analysis and stress-strain field analysis in mechanical structures.
  • Experimental determination of mechanical properties of materials.
  • Investigating environmental impacts on composite materials.

🏆 Professional Development:

  • PhD Supervisor at the Doctoral School of Transilvania University of Brașov (2015 – Present)
  • Habilitation in Mechanical Engineering (2015)

💡 Skills and Competencies:

Camelia is adept in:

  • Strength and mechanics of materials
  • Finite Element Method (FEM)
  • Computer Aided Design (CAD)
  • Research supervision and scientific coordination

Publication top Notes:

Effects of Rubber Core on the Mechanical Behaviour of the Carbon–Aramid Composite Materials Subjected to Low-Velocity Impact Loading Considering Water Absorption

Characteristics of Carbon and Kevlar Fibres, Their Composites and Structural Applications in Civil Engineering—A Review

Investigation on Phoenix dactylifera/Calotropis procera Fibre-Reinforced Epoxy Hybrid Composites

Evaluation of Wave Velocity in Orthotropic Media Based on Intrinsic Transfer Matrix

Design Solutions for Slender Bars with Variable Cross-Sections to Increase the Critical Buckling Force

Effect of the Looseness of the Beam End Connection Used for the Pallet Racking Storage Systems, on the Mechanical Behavior of the Bearing Beams