A rig was constructed to carry out compression of an aluminum cylinder with a monotonically rotating platen. The tests carried out showed that the compression load decreased and the side wall bulge severity reduced when the die was rotated. Not all the work supplied by the rotating dies was transferred to the work-piece; circumferential slippage was frequently observed at the die/material interface. This slippage was quantified by comparing measurements made during interrupted testing with the angular velocity of the die. A compound velocity field based on an exponential cusp description of the barreling was employed in an upper bound analysis. An approximate analytical solution was obtained for the degree of barreling and the compression p...
The most accepted method for determining friction conditions in metal forming is the ring compressio...
AbstractRing compression test (RCT) is a very popular method used to quantitatively evaluate frictio...
Cylinders of EN 24 steel and commercial aluminium were compressed at 0.2 and 10.0 s-1 (rapid loading...
A number of experiments involving the compression of an Aluminum cylinder with concurrent die rotati...
Compression tests carried out on aluminium specimens showed that when the die was rotated the compre...
A compression test with rotating dies was employed to estimate the friction factor between aluminum ...
A theoretical analysis on three different geometrical limits during axial compression of a cylindric...
A sequential upper bound method for the cylindrical compression test is developed. The method uses r...
An investigation was conducted to study the effect of die surface roughness and lay on metal flow an...
In this paper, a series of systematic studies on the rotating compression of porous cylinders by the...
Abstract: An investigation has been performed into the eVect of the die and deformation pattern on t...
Experimental and theoretical investigations of compression and extrusion of metals with steadily or ...
During Compression Testing, a solid specimen (Hexagonal in Cross-Section) is compressed axially bet...
The present paper focus on the investigation into rotary forging of axi-symmetric aluminium disc exp...
This paper examines the buckling of short mild steel cylindrical shells subjected to axial compressi...
The most accepted method for determining friction conditions in metal forming is the ring compressio...
AbstractRing compression test (RCT) is a very popular method used to quantitatively evaluate frictio...
Cylinders of EN 24 steel and commercial aluminium were compressed at 0.2 and 10.0 s-1 (rapid loading...
A number of experiments involving the compression of an Aluminum cylinder with concurrent die rotati...
Compression tests carried out on aluminium specimens showed that when the die was rotated the compre...
A compression test with rotating dies was employed to estimate the friction factor between aluminum ...
A theoretical analysis on three different geometrical limits during axial compression of a cylindric...
A sequential upper bound method for the cylindrical compression test is developed. The method uses r...
An investigation was conducted to study the effect of die surface roughness and lay on metal flow an...
In this paper, a series of systematic studies on the rotating compression of porous cylinders by the...
Abstract: An investigation has been performed into the eVect of the die and deformation pattern on t...
Experimental and theoretical investigations of compression and extrusion of metals with steadily or ...
During Compression Testing, a solid specimen (Hexagonal in Cross-Section) is compressed axially bet...
The present paper focus on the investigation into rotary forging of axi-symmetric aluminium disc exp...
This paper examines the buckling of short mild steel cylindrical shells subjected to axial compressi...
The most accepted method for determining friction conditions in metal forming is the ring compressio...
AbstractRing compression test (RCT) is a very popular method used to quantitatively evaluate frictio...
Cylinders of EN 24 steel and commercial aluminium were compressed at 0.2 and 10.0 s-1 (rapid loading...