Elastic and Creep Properties of Filamentous Materials and Other High Polymers |
Contents
PRIMARY CREEP AND THE SUPERPOSITION PRINCIPLE | 1 |
The Superposition Principle of Boltzmann | 20 |
Experimental Tests of the Superposition Principle | 29 |
Copyright | |
16 other sections not shown
Common terms and phrases
Acetate Filament application of load applied at zero bakelite balance arm Boltzmann cellulose computed constant deformation constant load corresponding creep and creep creep and recovery creep behavior creep recovery creep test creep under constant crystalline dashpot deformation due dielectric effect energy of activation fibers filamentous materials given glass high polymers Hooke's Law increase instantaneous deformation investigation Kohlrausch large loads length load application load removal load-deformation logarithmic logarithmic scale Long-Duration Tests Maxwell unit mechanically conditioned micelles mins minutes model of Fig nylon filament Nylon II Filament observed obtained Physik plastics plotted rayon recovery following recovery test Relative Delayed Deformation relative humidity relaxation removal of load represents residual deformation residual torque Scale Factor secondary bonds shown in Fig Silk Filament small loads specimen standard conditions strain stress structure Superposition Principle superposition test swelling recovery Table temperature Textile tion Total total-deformation curves typical tests Viscose I Filament X-ray