This paper presents the findings from an in-depth analysis of the (axial) stiffness data recorded during tension-tension fatigue tests on wire ropes, particularly in relation to how changes in stiffness during testing relate to changes in rope strength. A linear relationship between stiffness and strength is shown to exist and a methodology presented for quantifying residual strength with applied cycles. New lower bound fatigue lines for six-strand rope and spiral strand are presented which are based on a 10% loss of strength. These new lines have the advantage of having been established using a common discard criterion for wire ropes
A unique machine for inducing bending fatigue in wire ropes was built at the U.S. Bureau of Mines' P...
Wire ropes in marine applications often encounter relatively fast and noticeable wear, a result of t...
Many steel rope systems are subjected to fluctuating tensile loads and therefore can fail due to fat...
This paper presents the findings from an in-depth analysis of the (axial) stiffness data recorded du...
"The U.S. Bureau of Mines established a wire rope research laboratory to examine the factors that af...
Abstract: Analysis of the state of stress and strain of the wire ropes is fundamental in assessing m...
A new method for determining fatigue in a rope under service conditions is described. The method is ...
This paper describes an investigation of fatigue resist-ance in different steel wire rope constructi...
14-20In this study, effects of internal and external wire breaks, abrasive wear, insufficient lubri...
In this present work, two problems are investigated: the transverse vibration of wire rope, and the ...
In this study, effects of internal and external wire breaks, abrasive wear, insufficient lubrication...
SIGLEAvailable from British Library Document Supply Centre-DSC:6244.385(97/080) / BLDSC - British Li...
This paper describes an investigation of fatigue resistance in different steel wire rope constructio...
High strength steel (HSS) wire ropes are widely used in civil engineering to act as hangers or bridg...
Steel wire ropes are used in elevators, cranes, mine hoistings, bridges, offshore and aerial ropeway...
A unique machine for inducing bending fatigue in wire ropes was built at the U.S. Bureau of Mines' P...
Wire ropes in marine applications often encounter relatively fast and noticeable wear, a result of t...
Many steel rope systems are subjected to fluctuating tensile loads and therefore can fail due to fat...
This paper presents the findings from an in-depth analysis of the (axial) stiffness data recorded du...
"The U.S. Bureau of Mines established a wire rope research laboratory to examine the factors that af...
Abstract: Analysis of the state of stress and strain of the wire ropes is fundamental in assessing m...
A new method for determining fatigue in a rope under service conditions is described. The method is ...
This paper describes an investigation of fatigue resist-ance in different steel wire rope constructi...
14-20In this study, effects of internal and external wire breaks, abrasive wear, insufficient lubri...
In this present work, two problems are investigated: the transverse vibration of wire rope, and the ...
In this study, effects of internal and external wire breaks, abrasive wear, insufficient lubrication...
SIGLEAvailable from British Library Document Supply Centre-DSC:6244.385(97/080) / BLDSC - British Li...
This paper describes an investigation of fatigue resistance in different steel wire rope constructio...
High strength steel (HSS) wire ropes are widely used in civil engineering to act as hangers or bridg...
Steel wire ropes are used in elevators, cranes, mine hoistings, bridges, offshore and aerial ropeway...
A unique machine for inducing bending fatigue in wire ropes was built at the U.S. Bureau of Mines' P...
Wire ropes in marine applications often encounter relatively fast and noticeable wear, a result of t...
Many steel rope systems are subjected to fluctuating tensile loads and therefore can fail due to fat...