Scale Dependence of Adhesion Behavior under Dry Friction in Progressive Micro-Deep Drawing
スポンサーリンク
概要
- 論文の詳細を見る
The present study aims to clarify the scale dependency of progressive adhesion behavior of work material on micro tools under the dry friction in microforming. Scaled progressive deep drawing test up to 300 times is conducted under dry condition in micro- and milli- scale. The process dimensions of 0.97mm and 5.82mm in drawn cup diameter are produced with the stainless steel foils of 0.05mm and 0.3mm in thickness, respectively. The experimental results show that the transition of maximum punch force has different tendencies in each scale. These tendencies are well corresponded to the transition in surface state of tools and drawn cups. While, the strong adhesive wear is observed for the milli-scale, there is a slight change in the surface state of the tools for micro-scale. To investigate this difference in the adhesion behavior of the work material in each scale, a finite element analysis considering surface asperities is conducted. The distribution of the adhesion volume on the die corner radius is evaluated with a semi-empirical wear model in which is calculated with a function of normal pressure and relative velocity between blank and die. The results show the low adhesion volume in micro-scale, due to the short sliding distance during the process. The progressive adhesion behavior of work material and the advantage of tool life in micro-scale metal forming are demonstrated.
著者
-
Manabe Ken-ichi
Department Of Mechanical Eengineering Tokyo Metropolitan University
-
YANG Ming
Division of Human Mechatronics Systems, Tokyo Metropolitan University
-
SHIMIZU Tetsuhide
Division of Human Mechatronics Systems, Tokyo Metropolitan University
-
MURASHIGE Yushiro
Division of Human Mechatronics Systems, Tokyo Metropolitan University
-
IWAOKA Syuhei
Division of Human Mechatronics Systems, Tokyo Metropolitan University
関連論文
- Fabrication of Superplastic Microtubes Using Dieless Drawing Process
- Crystallographic Orientation Observation and Mechanical Properties Evaluation of Fine-Grained Pure Aluminum
- Experiment and FEM Simulation on Strain Rate Control in the Superplastic Bulge Forming of a Ti-Alloy Tube
- Finite Element Simulation with Coupled Thermo-Mechanical Analysis of Superplastic Dieless Tube Drawing Considering Strain Rate Sensitivity
- High Accuracy V-Bending Process Control with an On-Line Database and Modified Fuzzy Models
- Superplastic Forming of AZ31 Magnesium Alloy Sheet into a Rectangular Pan
- Superplastic Characteristics of Ti-Alloy and Al-Alloy Sheets by Multi-Dome Forming Test
- Tribological Behavior and Surface Characteristics of Metal Microtube in Flaring Test
- Thermoforming of Textile Composite Pipe Fittings
- FE Simulation on Blank Holder Control Using Friction Reducing Algorithm in Deep Drawing Process(Recent Advances in Materials and Processing (I))
- Fabrication and Mechanical Characterization of Water-Soluble Resin-Coated Natural Fiber Green Composites
- Effect of Heat Treatment on Microstructure and Mechanical Properties of TRIP Seamless Steel Tube
- Scale Dependence of Adhesion Behavior under Dry Friction in Progressive Micro-Deep Drawing
- Influence of Surface Topographical Interaction between Tool and Material in Micro-Deep Drawing