Draw Bending of Load-Adapted Sheet Metal Profiles
p.152
p.152
Fabrication of Ultrafine Grained Copper Alloy by 3-Layers Accumulative Roll-Bonding Process
p.158
p.158
The Effect of Heat Treatment on Formability of Ultra-Fine Grained AA6061 for Bolt Manufacturing
p.164
p.164
Design Technique Research of Fine-Forged Spur Bevel Gear Tooth Profile Modification
p.170
p.170
Design and Simulation Based on Virtual Prototype of New Apparatus for High Velocity Compaction
p.177
p.177
Effects of Surface Strength and Temperature on Warm Forming of MG-AL-SUS Clad Sheet
p.183
p.183
Influence of Annealing Treatment on Formability and Springback for Magnesium Alloy Sheets
p.189
p.189
Prediction of Load Capacity Behavior of Multi-Stage Formed Construction Elements
p.195
p.195
Reciprocating Shaving Approach to Eliminate Crack and Burr Formations in Pressed Parts
p.201
p.201
Design and Simulation Based on Virtual Prototype of New Apparatus for High Velocity Compaction
Abstract:
High velocity compaction (HVC) is one of the latest technologies of powder metallurgy (PM), while the prices threshold of Hydropulsor’s HVC presser limited massive application of this technique in vast minor PM enterprises in Mainland China. In the light of this, the paper delivers a new design of HVC apparatus which adopts mechanical springs groups instead of hydraulic cylinder as hammer driver. The virtual prototype and simulation of new HVC apparatus is brought about. The result of simulation shows that new design can basically meet the demand of HVC.
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Info:
Periodical:
Key Engineering Materials (Volume 443)
Pages:
177-182
Citation:
Online since:
June 2010
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