CHUBU UNIVERSITY
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ADACHI Kazuhiko

Profile

Title Professor
Belong to Dept. of Mechanical Engineering
Mechanical Engineering (graduate school)
Graduated Kobe University Grduate School of Engineering
Degree Dr. of Engineering, Kobe University
Qualification P.E.Jp
Academic Institutional Membership JSME (The Japan Society of Mechanical Engineers)
ASME (The America Society of Mechanical Engineers)
Turbomachinery Society of Japan
The Japan Society for Abrasive Technology
etc.
Field of Study Vibration Engineering, Machine Dynamics, Biomechanics
Research, Studies Dynamic Analysis and Design of Internal Grinding Spindle with a Large Length-to-diameter Ratio, Dynamic Analysis and Design of High-speed Turbomachinery, Biomechanics of Proximal Femur after Osteosynthesis

Academic Papers, Critique

Postoperative Fracture Risk Assessment of Osteosynthesized Proximal Femur under Physiological Gait Loading Condition Using a Subject-specific 3D Finite Element Model, Biomechanism, Vol.24, Aug., 2018, pp.149-157, Keio University Press Inc., (in Japanese).

Theoretical Studies of Influence of the Configuration on the Function of Planetary Gear Inerter for Rotating Drivetrain, International Journal of Automotive Engineering, Vol.9, Issue 2, Apr., 2018, pp.48-55.

Theoretical Studies for Dynamical Function of Practical Inerters, Transactions of the JSME, Vol.84, No.857, Jan., 2018, (in Japanese).

Lectures, Symposium, Presentation

Development of a Musculoskeletal Finite Element Analysis Method for Dynamic Bone Stress Analysis of Proximal Femur, The 42nd Annual Meeting of the American Society of Biomechanics, Poster Presentation, Aug., 2018, Rochester, MN, USA.

Theoretical analysis of a novel planetary gear type inerter for the torsional vibration suppression capability of automotive drive train system, The 2017 ASME International Mechanical Engineering Congress & Exposition, Oral Presentation, IMECE2017-70372, Nov., 2017, Tampa, FL, USA.

A novel dynamic bone stress evaluation method of postoperative proximal femur during gait by using elastic multi body analysis based on finite element analysis, The 2017 ASME International Mechanical Engineering Congress & Exposition, Oral Presentation, IMECE2017-71042, Nov., 2017, Tampa, FL, USA.

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