129 Effect of Environment on Fretting Fatigue Strength of Cast Al-Si Aluminum Alloy
スポンサーリンク
概要
- 論文の詳細を見る
Plain fatigue and fretting fatigue tests of cast and forged aluminum alloys were carried out in air and calcium chloride solution. Although plain fatigue strength of the cast alloy was significantly low compared to that of forged one, fretting fatigue strength of cast alloy was almost equal to that of forged one in air. Fretting fatigue strengths of both alloys in calcium chloride (CaCl_2) solution were lower than those in air. Measurement of tangential force coefficient and SEM observations of surface were also carried out to discuss the effect of environment on fretting fatigue characteristics. Tangential force coefficient of both alloys in the environment was nearly equal to that in air. Though all of the fretting fatigue cracks for cast aluminum alloy initiated near the edge of the contact region, some fretting fatigue cracks for forged aluminum alloy in CaCl_2 solution were not fretting part in this study. In the cast aluminum alloy, the casting defect seemed to have no significant influence on the initiation of fretting fatigue cracks and the sensitivity of fretting and corrosion in the low stress amplitude regime is small in comparison with that for the forged aluminum alloy.
- 一般社団法人日本機械学会の論文
著者
-
MUTOH Yoshiharu
Department of Mechanical Engineering, Nagaoka University of Technology
-
Yoshii Kenji
Topy Industries, Ltd
-
Yoshii Kenji
Topy Industries Limited
-
NISHIDA Tomohisa
Department of Applied Science, Okayama University of Science
-
Mutoh Yoshiharu
Nagaoka Univ. Of Tech.
-
Miyashita Satoru
Topy Industries Limited
-
Mizutani Junnosuke
Department of Electronic Control Engineering, Toyama National College of Maritime Technology
-
MIZUTANI Junnosuke
Toyama College of Maritime Tech.
-
NISHIDA Tomohisa
Numazu College of Tech.
-
Nishida Tomohisa
Department Of Applied Science Okayama University Of Science
-
Mutoh Yoshiharu
Department Of Mechanical Engineering Nagaoka Univ. Of Technology
-
MUTOH Yoshiharu
Department of Material Science, Nagaoka University of Technology
関連論文
- Time-dependent Fracture Mechanics Approach to Crack Growth of Solder
- Low Cycle Fatigue Behavior and Mechanisms of a Lead-free Solder 3.5Ag/96.5Sn(Electronic Devices)
- YBa_2Cu_3O_ Angle Grain Boundary Junction on Si Bicrystal Substrate
- E-10 Effect of Fabricating Process on Fatigue Behavior of HSLA Steel(Session: Fatique/SCG)
- INITIATION AND GROWTH OF SMALL FATIGUE CRACK IN TiAl INTERMETALLICS AT ELEVATED AND ROOM TEMPERATURES
- Diffusion Bonding of Y-Ba-Cu-O High-T_c Superconductors
- One- step Glucosylation of Capsaicinoids by Cultured Cells of Phytolacca americana
- 229 Effect of Fabricated Surface on Fretting Fatigue Strength
- 113 Fatigue Strength of Fabricated Structure Steel
- Fatigue Behavior of SiC Fiber Reinforced SiC Matrix Composites(Composite 1)
- E-7 Effect of surface treatments on fretting fatigue strength of aluminum alloy(Session: Fatique/SCG)
- Singularity at the Interface Edge of Bonded Transversely Isotropic Piezoelectric Dissimilar Materials
- Preface
- Fatigue and acoustic emission behavior of plasma sprayed HAp/Ti bond coat with HAp top coat on commercially pure titanium
- Interface Fatigue Crack Propagation in Ceramic Thermal Barrier Coatings
- An Evaluation of the Adhesive Strength of the Interface between a Coating and Substrate
- 133 Cohesive Strength at the Interface Between Coating and Substrate
- 129 Effect of Environment on Fretting Fatigue Strength of Cast Al-Si Aluminum Alloy
- Effect of Grain Size on Strength and Fracture Toughness in Alumina
- 312 CONTROL OF INTERMETALLIC PHASE FORMATION AT THE INTERFACE OF STEEL/ALMINUM DISSIMILAR METALS LASER LAP JOINT BY USING A BACKING PLATE
- Subsurface Crack Propagation in Rolling Contact Fatigue of Sintered Alloy
- 131 Subsurface Crack Propagation in Rolling Contact Fatigue of Sintered Alloy
- 514 Interface Fatigue Crack Propagation in Ceramic Thermal Barrier Coatings
- 409 Fretting Fatigue Design Curve based on Stress Distribution at the Contact Edge for Automotive steel
- Fretting Fatigue in SUP9 Spring Steel Under Random Loading
- On the Equivalent Thickness of a Side-Grooved Specimen
- MICROSCOPIC ASPECT AND MECHANICS OF CREEP-FATIGUE FAILURE IN SiC WHISKER REINFORCED ALUMINUM BASE COMPOSITE AT HIGH TEMPERATURE
- F-1116 Non-Contact Strain-Controlled Fatigue Test with Digital Image Measurement System
- 325 マグネシウム合金の疲労特性に及ぼす環境の影響(OS1-5 環境・高温および熱疲労)(OS1 高強度材・表面改質材の疲労と破壊)
- E-1 Thermal Shock Failure in Tungsten-10%Rhenium by Laser Irradiation Method(Session: Thermal Fatique/Creep)
- Stress Field near the Contact Edge in Fretting Fatigue Tests(Special Issue on strength and Fracture, and Experimental Mechanics)
- Effect of Relative Slip Amplitude on Fretting Fatigue Behavior of Silicon Nitride
- 448 An Alternative BEM for 3D Finite Cracked Bodies
- Mechanisms of Fretting Fatigue
- 130 Effect of Residual Stress on Fretting Fatigue Crack Propagation and Fatigue Strength
- Stress Field near the Contact Edge in Fretting Fatigue Tests(Tribology)
- Diffusion Bonding of Bi-Pb-Sr-Ca-Cu-O High-T_c Superconductors
- Stress Singularity at the Edge of Fiber/Matrix Interface
- 232 Al_2O_3-based Composite with BaTiO_3 Sintered by Spark Plasma Sintering
- J0403-3-2 Fretting Fatigue Strength Prediction of Dovetail Joint Based on Tangential Stress Range : Compressive Stress Range Diagram
- GS0304 Fretting Fatigue Strength and Life Prediction based on Stress distribution at the Contact Edge
- A Method for Determining Elastic-Plastic Stress Singularity at the Interface Edge of Bonded Power Law Hardening Materials(Stress Analysis)
- Effects of Dissolved Oxygen on Fatigue Characteristics of Austenitic Stainless Steel in 0.9wt% Sodium Chloride Solutions
- Effect of Underlay Stiffness on Cutting Profile of Polycarbonate Sheet during Wedge Indentation Process
- Failure Behavior of Sensitized SUS304 Stainless Steel with Small Surface Pre-Crack under Constant Load Condition in Simulated BWR Environment
- Strength of Dissimilar Materials Joint between A5052 and PET Joined by Using Friction Stir Heating
- Fatigue Crack Growth Characteristics of Epoxy Resin Reinforced by Silica Particles at Elevated Temperature
- Dissimilar Materials Micro Welding between Stainless Steel and Plastics by Using Pulse YAG Laser
- Computational Investigation on Molten Pool of Single and Twin Beam Laser Welding
- Influence of Second Phase Particle on Fatigue Crack Growth Behavior in Ferrite Matrix Steels
- Study on a Controlling Method for Crack Nucleation and Propagation Behavior in Laser Cutting of Glass
- 818 STUDY ON RELIABILITY OF PB FREE Sn-Ag-Cu SOLDER JOINT
- 620 Acoustic Emission Behavior on Fatigue Crack Characterization of Plasma Sprayed Hydroxyapatite Coated Layers OTeerawat Laonap akul 3 (NUT), Yuichi Otsuka,「Yoshiharu Mutoh(GS21-1-3材料力学/材料加工,疲労特性(3))