Add to ORKGPressure-assisted injection forging (PAIF) of thick walled tubes is a process configuration by which hollow components can be formed from tubular materials without material collapse. By FE simulation and metal forming experiments, this configuration was evaluated with reference to the range of the precess, pressure requirements, die stresses and product quality
Injection forging has advantages for the nett-forming of flange-typed components. Research, however,...
During injection forging, the ratio of axial and radial deformation of each section of billet in the...
Polymer Injection Forming (PIF) is a new technology to manufacture sheet metal/polymer macro-composi...
An upper-bound analysis of the pressure-assisted injection forging (PAIF) of thick-walled tubular co...
Numerous engineering components may be created in a hollow form without detracting from their perfor...
To produce thick-walled, tubular components economically, the forming configuration in which a press...
Hollow gear-shafts were formed with a radial extrusion configuration, which involves the use of poly...
Manufacture of tubular components by pressure-assisted injection forging has several advantages over...
Injection forging is a nett-shape manufacturing process which enables the forming of complex compone...
AbstractHydroforging is a hybrid forming operation whereby a thick tube is formed to a desired geome...
FE simulations were conducted to assess the scale of friction-dependent pressure losses in the injec...
Hydroforging is a hybrid forming operation whereby a thick tube is formed to a desired geometry by c...
CAE (computer aided engineering) evaluates the forging process virtually to optimize the industrial ...
A new high strain rate forming process for titanium alloys is presented and named High Pressure Pneu...
The design capability, strength, and structural rigidity provided by tube hydroforming (THF) are suc...
Injection forging has advantages for the nett-forming of flange-typed components. Research, however,...
During injection forging, the ratio of axial and radial deformation of each section of billet in the...
Polymer Injection Forming (PIF) is a new technology to manufacture sheet metal/polymer macro-composi...
An upper-bound analysis of the pressure-assisted injection forging (PAIF) of thick-walled tubular co...
Numerous engineering components may be created in a hollow form without detracting from their perfor...
To produce thick-walled, tubular components economically, the forming configuration in which a press...
Hollow gear-shafts were formed with a radial extrusion configuration, which involves the use of poly...
Manufacture of tubular components by pressure-assisted injection forging has several advantages over...
Injection forging is a nett-shape manufacturing process which enables the forming of complex compone...
AbstractHydroforging is a hybrid forming operation whereby a thick tube is formed to a desired geome...
FE simulations were conducted to assess the scale of friction-dependent pressure losses in the injec...
Hydroforging is a hybrid forming operation whereby a thick tube is formed to a desired geometry by c...
CAE (computer aided engineering) evaluates the forging process virtually to optimize the industrial ...
A new high strain rate forming process for titanium alloys is presented and named High Pressure Pneu...
The design capability, strength, and structural rigidity provided by tube hydroforming (THF) are suc...
Injection forging has advantages for the nett-forming of flange-typed components. Research, however,...
During injection forging, the ratio of axial and radial deformation of each section of billet in the...
Polymer Injection Forming (PIF) is a new technology to manufacture sheet metal/polymer macro-composi...