Wire Ropes, Elements and Definitions / 1: |
Steel Wire / 1.1: |
Non-Alloy Steel / 1.1.1: |
Wire Manufacturing / 1.1.2: |
Metallic Coating / 1.1.3: |
Corrosion Resistant Wires / 1.1.4: |
Wire Tensile Test / 1.1.5: |
Wire Endurance and Fatigue Strength / 1.1.6: |
Strands / 1.2: |
Round Strands / 1.2.1: |
Shaped Strands / 1.2.2: |
Compacted Strands / 1.2.3: |
Rope Cores / 1.3: |
Lubrication / 1.4: |
Lubricant / 1.4.1: |
Lubricant Consumption / 1.4.2: |
Rope Endurance / 1.4.3: |
Wire Ropes / 1.5: |
The Classification of Ropes According to Usage / 1.5.1: |
Wire Rope Constructions / 1.5.2: |
Designation of Wire Ropes / 1.5.3: |
Symbols and Definitions / 1.5.4: |
The Geometry of Wire Ropes / 1.6: |
Round Strand with Round Wires / 1.6.1: |
Round Strand with Any Kind of Profiled Wires / 1.6.2: |
Fibre Core / 1.6.3: |
Steel Core / 1.6.4: |
References |
Wire Ropes under Tensile Load / 2: |
Stresses in Straight Wire Ropes / 2.1: |
Basic Relation for the Wire Tensile Force in a Strand / 2.1.1: |
Wire Tensile Stress in the Strand or Wire Rope / 2.1.2: |
Additional Wire Stresses in the Straight Spiral Rope / 2.1.3: |
Additional Wire Stresses in Straight Stranded Ropes / 2.1.4: |
Wire Rope Elasticity Module / 2.2: |
Definition / 2.2.1: |
Rope Elasticity Module of Strands and Spiral Ropes, Calculation / 2.2.2: |
Rope Elasticity Module of Stranded Wire Ropes / 2.2.3: |
Waves and Vibrations / 2.2.4: |
Reduction of the Rope Diameter due to Rope Tensile Force / 2.3: |
Torque and Torsional Stiffness / 2.4: |
Rope Torque from Geometric Data / 2.4.1: |
Torque of Twisted Round Strand Ropes / 2.4.2: |
Rotating of the Bottom Sheave / 2.4.3: |
Rope Twist Caused by the Height-Stress / 2.4.4: |
Change of the Rope Length by Twisting the Rope / 2.4.5: |
Wire Stresses Caused by Twisting the Rope / 2.4.6: |
Rope Endurance Under Fluctuating Twist / 2.4.7: |
Wire Rope Breaking Force / 2.5: |
Wire Ropes Under Fluctuating Tension / 2.6: |
Conditions of Tension-Tension Tests / 2.6.1: |
Evaluating Methods / 2.6.2: |
Results of Tension Fatigue Test-Series / 2.6.3: |
Further Results of Tension Fatigue Tests / 2.6.4: |
Calculation of the Number of Load Cycles / 2.6.5: |
Dimensioning Stay Wire Ropes / 2.7: |
Extreme Forces / 2.7.1: |
Fluctuating Forces / 2.7.2: |
Discard Criteria / 2.7.3: |
Wire Ropes Under Bending and Tensile Stresses / 3: |
Stresses in Running Wire Ropes / 3.1: |
Bending and Torsion Stress / 3.1.1: |
Secondary Tensile Stress / 3.1.2: |
Stresses from the Rope Ovalisation / 3.1.3: |
Secondary Bending Stress / 3.1.4: |
Sum of the Stresses / 3.1.5: |
Force Between Rope and Sheave (Line Pressure) / 3.1.6: |
Pressure Between Rope and Sheave / 3.1.7: |
Force on the Outer Arcs of the Rope Wires / 3.1.8: |
Rope Bending Tests / 3.2: |
Bending-Fatigue-Machines, Test Procedures / 3.2.1: |
Number of Bending Cycles / 3.2.2: |
Further Influences on the Number of Bending Cycles / 3.2.3: |
Reverse Bending / 3.2.4: |
Fluctuating Tension and Bending / 3.2.5: |
Palmgren-Miner Rule / 3.2.6: |
Limiting Factors / 3.2.7: |
Ropes during Bendings / 3.2.8: |
Number of Wire Breaks / 3.2.9: |
Rope Drive Requirements / 3.3: |
General Requirements / 3.3.1: |
Lifting Installations for Passengers / 3.3.2: |
Cranes and Lifting Appliances / 3.3.3: |
Calculation of Rope Drives / 3.4: |
Analysis of Rope Drives / 3.4.1: |
Tensile Rope Force / 3.4.2: |
Limits / 3.4.3: |
Rope Drive Calculations, Examples / 3.4.6: |
Rope Efficiency / 3.5: |
Single Sheave / 3.5.1: |
Rope Drive / 3.5.2: |
Lowering an Empty Hook Block / 3.5.3: |
Index |
Wire Ropes, Elements and Definitions / 1: |
Steel Wire / 1.1: |
Non-Alloy Steel / 1.1.1: |
Wire Manufacturing / 1.1.2: |
Metallic Coating / 1.1.3: |
Corrosion Resistant Wires / 1.1.4: |