Luca Giorgio Bochese

Feanor Metrology · R&D

NA

Research skills

  • Technical
    C++, Visual Basic, Pithon
  • IT
    AutoCAD
  • Statistical
    SPSS
  • Other
    CSSGB, CSSBB, CQE, CRE

Research interests

  • Interests
    SPC, Uncertainty Analysis, FMEA, Measuring Devices, Calibration, China, Estonia, Finland, Italy, machine tool, metrologie, Messtechnik, ULM, Feanor, Metrology

Research experience

  • Teaching: Lean Six Sigma Green Belt
  • Teaching: Metrology
  • Teaching: Calibration
  • Teaching: Black Belt
  • Apr 2011–
    Nov 2011
    Research: Evaluation of Residual Stress Induced by Shot Peening on Aircraft Structural Components
    Feanor TNX · AIRTEC Congress Frankfurt
    Aerospace
  • Mar 2011–
    Mar 2013
    Research: VARGEAR
    Feanor · R&D
    Gear
  • Jan 2011–
    Aug 2011
    Research: X-Ray Diffraction (XRD) Residual Stress Measurement: Theory and Application on Field
    Feanor TNX · ISPEMI Yunnan, Hefei University, China
    Nuclear
  • Jun 2010–
    Jun 2011
    Research: X-Ray Diffraction for Residual Stress Analysis
    Feanor
    NDT Inspection
  • Jan 2002–
    Nov 2004
    Research: Measurement Uncertainty in Torque Calibration
    NCSL Tampa, USA and CNR Italy · Force & Torque Calibration
  • Jan 2001–
    Feb 2003
    Research: Increasing performance of face gears for aerospace industry (rotorcraft systems)
    Feanor · R&D
    Helicopter gearboxes
  • Mar 1998–
    Mar 2001
    Research: Laser-Diode Calibration Device for Length Measuring Instruments
    PTB · Length Calibration Machines · PTB
    Feanor · Braunschweig
    calibration, helios, metrology, laser-diode, transportable
  • Apr 1996–
    Dec 1998
    Research: Roundness Evaluation Software
    Boch · Quality Control
    Automotive
  • Jan 1992–
    Dec 2000
    Research: Statistical Process Control in Automotive Industry
    Boch, Italy · Training
    Automotive
  • Mar 1991–
    Dec 1991
    Research: Simulation of the Dynamical Behaviour of a Flexible manufacturing System
    Institute For Flexible Automation and Handling Technology · IFH Technical University · Institute For Flexible Automation and Handling Technology
    Braunschweig

Education

  • Apr 1991
    TU Braunschweig
  • Dec 1988
    Politecnico Milano

Awards & achievements

  • May 2011
    Award: Metrology Award for 'Research and Development on Software for Calibration and Metrology'
  • Nov 2010
    Award: Finnish Quality Innovation Award
  • May 2010
    Award: IIW International Welding Congress
  • Jun 2009
    Award: VTTV Military Technology - Gold Medal Award
  • Nov 1999
    Award: ISQ Israel Society for Quality

Other

  • Languages
    Italian, English, German, French, Chinese, Russian, Arabic
  • Scientific Memberships
    ASQ
  • Journal Referee
    Inseneeria
  • Other Interests
    Internet, Technology, Technology, Technology, Feanor

Publications

  • Evaluation of Residual Stress Induced by Shot Peening on Aircraft Structural Components

    Paolo Marconi, Luca G. Bochese, Daniele Maestrini

    AIRTEC 6th International Conference “Supply on the wings” - Frankfurt, Germany. 01/2011;

    The purpose of shot peening (blasting) process is the induction of residual compression stress on the surface of components subject to fatigue loads. This is obtained impacting a surface with shots (round metallic, glass, or ceramic particles) with a force sufficient to create plastic deformation. I... [more] The purpose of shot peening (blasting) process is the induction of residual compression stress on the surface of components subject to fatigue loads. This is obtained impacting a surface with shots (round metallic, glass, or ceramic particles) with a force sufficient to create plastic deformation. It is similar to sandblasting, except that it operates by the mechanism of plasticity rather than abrasion. This process has been used for many years on special steel automotive (shift gears, connecting rods and suspension components) and aerospace components, in titanium alloys and light alloy steel. The characterization of the shot peening process is defined by specific parameters, according to legislation, such as the intensity (expressed in Almen), the diameter of the particles and the degree of coverage. When used on components made of a material different from the Almen specimen (steel), the stress field in the component structure cannot be easily estimated. In that particular case we rely on bibliography for the definition of the process parameters. By use of X-ray diffraction with a new type of instrument, the authors were able to measure the real tensile stress induced by shot peening, carried out with two different parameters on aeronautical structural components (aluminum alloy).
  • X-Ray Diffraction (XRD) Residual Stress Measurement: Theory and Application on Field

    Luca.G. Bochese, Daniele Maestrini, Paolo Marconi

    ISPEMI 7th International Symposium on Precision Engineering Measurement and Instrumentation. 01/2011;

    XRD technique for residual stress measurement is a technique still known and used in university laboratories. Recently it has been possible to perform those measurement also on-the-field, thanks to a new generation of XRD portable diffrattometers. After a brief introduction to XRD theory, the paper ... [more] XRD technique for residual stress measurement is a technique still known and used in university laboratories. Recently it has been possible to perform those measurement also on-the-field, thanks to a new generation of XRD portable diffrattometers. After a brief introduction to XRD theory, the paper presents a recent on-the-field application on a welded petrochemical reactor.
  • Uncertainty of Measurement in Torque Wrench Calibration

    Luca G. Bochese, Luca G. Bochese

    2003 NCSL International Workshop and Symposium. 01/2003;

Following (0)

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Publications
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