Dr Klaudio Bari

Dr Klaudio Bari

Principal Lecturer

  • Email address K.Bari@wlv.ac.uk
  • Phone number 01902 32 3845
  • Location Sa225
  • Faculty Faculty of Science and Engineering
  • Institute School of Engineering
  • Areas of expertise Light weight material for aerospace and biomedical application Material microstructure characterisation that include the following. Optical Microscopy, Scanning Electron Microscopy, Transmission Electron Microscopy, Chemical Analysis in Electron Microscopy, Diffraction Techniques Principles of Diffraction, X-Ray Diffraction, Neutron Diffraction, Electron Diffraction, Spectroscopic Techniques, Energy Dispersive X-Ray Spectroscopy, Wavelength Dispersive X-Ray Spectroscopy, Electron Energy Loss Spectroscopy, X-Ray Photoelectron Spectroscopy, Auger Electron Spectroscopy, Infra-red and Raman Spectroscopy, Ultra-violet and Visible Spectroscopy, Electrical and Magnetic Techniques, Electrical Resistance, Impedance Spectroscopy, Thermal Techniques, Thermo gravimetric Analysis (TGA), Differential Thermal Analysis (DTA), Differential Scanning Calorimetric (DSC), Mechanical Testing 2.7.1 Strength, Hardness, Hardness Brinell (HB), Hardness Rockwell (HRB/HRC), Hardness Vickers (HV), Non destructive testing (NDT), Creep
Dr. Bari expertise relates to the experimental and numerical simulation of material behaviour under harsh environment, these material are metal, ceramics, polymer and composite. Dr. Bari has performed a fundamental research work on lattice structure material for both biomedical and aerospace applications, in particular Ti64 bone implant for human Tibia bone. Also, my focus research on carbon composite reinforced plastic (CFRP) materials that led to a better understanding to its crack propagation and their equivalent dynamics stresses under fatigue cycle. Dr. Bari is a part of government advisory panel for establishing world class X-ray tomography and multi-scale modelling of using high monochromatic beam. Dr. Bari has more 30 journals and conference proceeding papers that related to material science and characterization.

Light Material Selection for Aerospace and automotive application 

Forensic Analysis for failed engineering parts

FEA& CFD Simulation using Abaqus CAE , Ansys and solidWorks

Micro CT scan and multi scale modelling for Bio-medical engineering (Bone implant)

Addtive and Substractive Engineering.

Chartered Engineering CEng

Fellow of IMECHE

Fellow of Higher Education Academy (FHEA)

Fellow of American Society for Metal

Fellow of German Academy for Higher Education

PhD, MSc, BEng (Hon), PGCert, CEng, FHEA, MIMechE

Listing of Recent Publications

K. Bari "Powder metallurgy of stainless steel in HIP manufacturing' Hot isostatic pressing conference in Sweden, session 2B, 9-13 June 2014.

http://hip14.se/wp-content/uploads/FinalProgramHIP.pdf

 

T. Lowe, R.S. Bradley, S. Yue, K. Bari, J. Gelb, N. Rohbeck, JN-Turner, P.J. Withers "Microstructural analysis of TRISO Particles Using Multi-scale X-ray Computed Tomography, . Journal of Nuclear Materials Volume 461, June 2015, pp 29-36  https://www.escholar.Manchester.ac.uk/uk.ac.manSCW:261281 

 

K. Bari, "Experimental and Simulation Analyses for synthetic and biodegradable impellers” advanced Material World Congress, conference proceedings , 31-Aug-2015 https://derby.openrepository.com/derby/bitstream/10545/621094/1/CFD+Simulation.pdf

 

K.Bari, A.Rolfe, A.Christofi, C.Mazzuca, K.V.Sudhakar, (2017)," Forensic investigation of a failed connecting rod from Motorcycle Engine', Case Studies in Engineering Failure Analysis, Volume 9, October 2017, Pages 9-16,  https://www.sciencedirect.com/science/article/pii/S2213290217300111

 

K. Bari and S. Hasan(2017), Experimental and Simulation Performance for Fan Extraction System

Global Journal of Researchers in Engineering: D Aerospace Science

V.17, issue 2 version 1 2017, Online ISSN:2249-4596 Print ISSN:0975-5861

https://globaljournals.org/GJRE_Volume17/2-Experimental-and-Simulation.pdf

Klaudio Bari& Arun Arjunan  2018 , "Extra low interstitial titanium based fully porous morphological bone Tscaffolds manufactured using selective laser melting" Journal of the Mechanical Behavior of Biomedical Materials 95 (2019) 1–12, 

https://www.sciencedirect.com/science/article/pii/S1751616119301924?via%3Dihub

https://doi.org/10.1016/j.jmbbm.2019.03.025

DMLS 3D Printing with Renishaw Plc

Actuators for Defence application with Collin Engineering ( formal UTC engineering)

Carbon Fibre Composite with Liberty (formal Caparo manufacture hub)

Basalt fibres composite with Basaltex (Belgium) 

X-ray tomography for Reviting pins with Atlas Copco at:   http://www.atlascopco.com

 

commercial work are welcomed to the X-ray tomography, DMLS and CNC tooling