Design Milling Parameters Optimization System Based on Thin-Walled Parts

Xin Hua Mao; Zhi Gang Hu; Ting Ting Huang

doi:10.4028/www.scientific.net/AMR.189-193.2482

Paper Titles

Microstructures Development in Al-5Fe and Al-5Fe-3Y Alloys Solidified at Different Cooling Rate
p.2462

Virtual Disassembly Simulation of Varying Target Component for Complex Products
p.2467

Explosive Compaction of Metallic Glass Particles Reinforced Aluminium Matrix Composites
p.2472

Investigation of Mold Temperature Affecting on Shrinkage of Rapid Heat Cycle Molding Plastic Part
p.2477

Design Milling Parameters Optimization System Based on Thin-Walled Parts
p.2482

Study on Machinability and Polishing Performance of 1CrMn2MoVTiB Non-Quenched and Tempered Plastic Mould Steel
p.2486

Analysis for Fracture Behavior of Compactor Grinding Tooth Forging Die Based on Finite Element Method
p.2491

Influence of Segmented Blank Holder for Rectangular Box Drawing
p.2495

Consolidation of HLW into Mineral-Like Materials by the SHS
p.2499

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 189-193Design Milling Parameters Optimization System...

Design Milling Parameters Optimization System Based on Thin-Walled Parts

Abstract:

Because of its low stiffness and intensity structural features, thin-walled parts affected by milling force, easily produce deformation and vibration among processing. In this paper, by optimizing milling parameters, it can be realized to control the size of the dynamic milling force and the milling state. Then it reaches the purpose to decrease workpiece deformation, and makes processing conditions maintain a stable. It not only reduces deformation caused by the vibration, but also makes thin-walled parts errors meet the tolerance requirements.