Jump to contents

Researcher Information

last modified:2017/10/17

Professor TACHIYA Hiroshi

Mail Laboratory Website

Faculty, Affiliation

Faculty of Mechanical Engineering, Institute of Science and Engineering

College and School Educational Field

Division of Mechanical Science and Engineering, Graduate School of Natural Science and Technology
Division of Innovative Technology and Science, Graduate School of Natural Science and Technology

Laboratory

Strength design TEL:076-234-4689 FAX:076-234-4690

Academic Background

【Academic background(Doctoral/Master's Degree)】
Tokyo Institute of Technology Master 198903 Completed
【Academic background(Bachelor's Degree)】
Tokyo Institute of Technology 198703
【Degree】
Dr. Eng.

Career

Kanazawa University Faculty of engineering(1989/04/01-1998/12/31)
Kanazawa University Faculty of engineering(1999/01/01-)

Year & Month of Birth

1965/02

Academic Society



JSME

Award

JSME
JSME
JSME
JSME
JSME
JSME
JSME
JSME

Specialities

Design engineering/Machine functional elements/Tribology、Materials/Mechanics of materials、Intelligent mechanics/Mechanical systems

Speciality Keywords

Robotic Mechanisms. Impact Engineering. Robotics. Sensors. Machine Design. Mechanisms

Research Themes

Study on Robotics

Development of robotic mechanisms and sensors. Development of wearable robots, and their applications in medicine and welfare, as well as skills assistance. Realization of controlled energy consumption and driving force by optimizing robot operation.

Study on Machine Tools

Development of new machine tools with multi-degree-of-freedom robotic mechanisms and establishment of control methods for them. Investigation of calibration of machine tools with statistical methods and upgrading for higher precision with thermal deformation projection.

Study on Tactile Sensor

Form recognition of contact objects. Development of a practical tactile sensor to detect geometric and physical properties of contact surfaces.

Books

Papers

  •  A Method for Determining a Constitutive Equation with Temperature and Strain-rate dependence Proceedings of the 4th International Congress on Thermal Stresses2001 1 1 415-418 2001/06
  •  Study on the Determination Method for Dynamic Constitutive Equations with Strain-rate Sensitivity Proceedings of the 3rd International Symposium on Impact Engineering 1 1 501-507 1999/06
  •  Basic Study on Numerical Analysis of Wave Propagation in Particle Toughened Plastics 575-581 1999/06
  •  Fatigue Strength of Carbon Steels under Repeated Impact Tension 345-350 2001/07
  •  Dynamic Analysis of Coil Spring under Impact Load 797-802 2001/07

show all

  •  A Combined Impact Testing Machine by Using Two Clamp Devices 1 1 461-466 2001/10
  •  New Constitutive Equation for Cyclic Combined Impact Loading and Some Calculated Results 1 1 472-477 2001/10
  •  Approximation of Thermal Deformation Behaviour of a Machine Tool To Improve Its Process Precision Hiroshi Tachiya,Yoshiyuki Kaneko,Teppei Aramoto,Hirotsugu Shinjo,Yusuke Miyazaki 345-346 141-184 2007/02
  •  Dynamic Tensile and Compressive Stress-Strain Characteristics of Magnesium Alloys at Elevated Temperatures Teppei Aramoto,Hiroshi Tachiya,Akiyoshi Hori,Akihiro Hojo,Yusuke Miyazaki 22 9-11 1135-1140 2007/02
  •  Measurement of Pressure Responses in a Physical Model of a Human Head with High Shape Fidelity Based on CT/MRI Data Yusuke Miyazaki,Hiroshi Tachiya,Kenji Anata,Akihiro Hojo 22 9-11 1718-1723 2007/01
  •  A Calibration Method for Parallel Mechanism Type Machine Tools by Response Surface Methodology Hiroshi Yachi, Hiroshi Tachiya, Takayuki Umi 429-434 2007/11
  •  Determination method for power-saved driving motions of manipulators by heuristic algorithms(In case of PTP control) Michihiro Hayashi,Hiroshi Tachiya,NaokiAsakawa,Takuya Kawamura 2009 5 2009/05
  •  Study on elucidation of bactericidal effects induced by laser beam irradiation-Measurement of dynamic stress on laser irradiated surface- Tatuaki Furumoto・Atsushi Kasai・Hiroshi Tachiya・Akira Hosokawa・Takashi Ueda 2010 827-833 2010/05
  •  Calibration Method for a Parallel Mechanism Type Machine Tool by Response Surface Methodology -Consideration via Simulation on a Stewart Platform type Mechanism- Hiroshi Yachi・Hiroshi Tachiya 4 4 355-363 2010/07
  •  Determination method for power-saved driving motions of manipulators by heuristic algorithms(In case of PTP control) M.HAYASHI, H.TACHIYA, N.ASAKAWA, T.KAWAMURA JOURNAL OF THE FRANKLIN INSTITUTE-ENGINEERING AND APPLIED MATHEMATICS 348 101-111 2011/02
  •  Evaluation of and Compensation for Thermal Deformation in a Compact CNC Lathe H.TACHIYA H.HIRATA T.UENO Y.KANEKO K.NAKAGAKI Y.ISHINO International Journal of Automation Technology 6 2 137–146 2012/03
  •  Development of a Tactile Sensor to Measure Tire Friction Coefficients in Arbitrary Directions T.ISE M.HIGUCHI H.TACHITA International Journal of Automation Technology 7 3 359–366 2013/05
  •  Burnishing Processing by the Spherical 5-degrees Hybrid Type Parallel Mechanism with Force Control M.OKADA, H.KOZUKA, H.TACHIYA, T.IWASAKI, Y.YAMASHITA International Journal of Automation Technology 8 2 243–252 2014
  •  Improvement of Energy Absorption of Circular Tubes Subjected to High Velocity Impact M.HIGUCHI, S.SUZUKI, T.ADACHI, H.TACHIYA Applied Mechanics and Materials 566 575-580 2014
  •  Assistance for positioning of human by using the passive joint of robot arm 80 820 2014
  •  Measurement of standing balance ability by a wire driven parallel mechanism 81 821 2015
  •  Development and characterization of diamond tip burnishing with a rotary tool M.Okadaa, M.Shinya, H.Matsubara , H.Kozuka, H.Tachiya , N.Asakawa, Journal of Materials Processing Technology 24 106-115 2017/01
  •  Measurement on friction coefficients of tire grounding surface in arbitrary directions under high-load T.Ise, M. Higuchi, Y. Suzuki, H. Tachiya Experimental Mechanics 57 9 1383-1393 2017/10
  •  Measurement on friction coefficients of tire grounding surface in arbitrary directions under high-load T.Ise, M. Higuchi, Y. Suzuki, H. Tachiya Experimental Mechanics

Conference Presentations

Arts and Fieldwork

Patent

Theme to the desired joint research

○Mechanisms and sensors of robots
○Impact strength design
○Impact tests

Grant-in-Aid for Scientific Research

○「動作および構造の最適化・適応化が可能なハイブリット型パラレルメカニズムの研究」(1999-) 
○「動作および構造の最適化・適応化が可能なハイブリッド型パラレルメカニズムの研究」(2000-) 
○「環境および作業に対して自律的に構造を適応化する多機能ロボットメカニズムの研究」(2001-) 
○「高精度加工が可能なハイブリッドパラレルメカニズムとその加工誤差補正方法」(2003-) 
○「障害者の上肢姿勢保持・運動支援を目的とするワイヤ駆動型パラレルメカニズムの研究」(2006-) 
○「転倒予防のための運動能力が測定可能な装着型パラレルワイヤ駆動機構の研究」(2008-) 
○「自動車の走行安全性を高めるタイヤ接地面の摩擦状態測定用触覚センサの開発」(2011-) 
○「高精度,高速加工が可能な小型工作機械を実現する変形補正および振動吸収法の研究」(2014-2016) 

Classes (Bachelors)

○Mechanical Analysis of Solids(2017)
○Mechanical Engineering Design and Drawing(2017)
○Design of Machine(2017)
○Introduction to Mechanical Engineering B(2016)
○Introduction to Mechanical Engineering A(2016)
○Mechanical Analysis of Solids(2016)
○Mechanical Engineering Design and Drawing(2016)
○Design of Machine(2016)

Classes (Graduate Schools)

○Robot Technology(2017)
○Robot Technology(2017)
○Robot Technology(2017)
○Kinematics and Design in Mechanism A(2017)
○Kinematics and Design in Mechanism B(2017)
○Robot Technology(2017)
○Kinematics and Design in Mechanism A(2016)
○Robot Technology(2016)
○Kinematics and Design in Mechanism B(2016)

International Project

International Students

Lecture themes

Others (Social Activities)

To Page Top