Search Results for nylon

Fig. 3 Infrared spectra of nylon 11. Composition: nylon 11, polyundecal lactam. Used for plastics of all kinds. Preparation: multiple internal reflection, pressed film; far infrared, film from formic acid solution More

Fig. 14 Wear marks on the surface of a nylon/polyethylene antifriction bearing. The bearing was in contact with a rotating steel shaft. 417×. Source: Ref 53 More

Fig. 26 Craze emanating from a fatigue crack tip in amorphous nylon. A discontinuous growth band will form as the crack propagates through the craze. Under polarized light, 560×. Source: Ref 56 More

Fig. 36 SEM of nylon woven cloth for polishing. Original magnification: 50× More

Fig. 6 Microcracked nylon fiber composite dyed with Magnaflux Spotcheck SKL-H (Magnaflux Corp.) penetrant. The microcracks appear red. This technique works well for most translucent fibers. Dark-field illumination, 10× objective More

Fig. 1. Tensile strength of unreinforced and 30% glass-filled nylon 66 as a function of moisture absorption and temperature More

Fig. 4 Infrared spectra of nylon 6/6. Used for plastics of all kinds. Preparation: film from formic acid solution More

Fig. 20 Differential scanning calorimetry (DSC) of nylon gears. MW, molecular weight; T g , glass transition temperature; T m , melt temperature More

Fig. 31 Comparative modulus of nylon 6/6 measured by dynamic mechanical analysis (DMA). Size, 1.3 mm (0.05 in.) thick, 15.5 mm (0.6 in.) wide, 6.5 mm (0.25 in.) long; programmed at 5 °C/min (9 °F/min) More

Fig. 32 Effects of moisture on nylon 6/6 measured by dynamic mechanical analysis (DMA). Size, 3 mm (0.12 in.) thick, 13 mm (0.5 in.) wide, 19 mm (0.75 in.) long; programmed at 5 °C/min (9 °F/min), in nitrogen. RH, relative humidity. Source: Ref 32 More

Fig. 39 Diffraction curves for nylon 6. Source: Ref 42 More

Fig. 28 Thermogravimetric analysis of reinforced nylon; 40 °C/min (70 °F/min) in air More

Fig. 29 Thermogravimetric analysis of reinforced nylon; 80 °C/min (1450 °F/min) in air More

Fig. 20 Tensile stress/strain at 23 °C (73 °F) for nylon 6/6 30% glass fiber. Stress-strain curve represents the nylon 6/6 resin that was used to produce the failing aftermarket automotive components. The identified level of stress inherent to the application is indicated. More

Fig. 9 Amorphous nylon structure More

Fig. 10 Structure of a transparent nylon More

Fig. 11 Thermoset nylon More

Fig. 43 Flexural modulus of PET versus temperature compared with nylon More

Fig. 21 Creep moduli of glass-reinforced nylon 6 and glass-reinforced polytetrafluoroethylene (PTFE). Source: Ref 31 More

Fig. 15 Ultimate tensile strength versus temperature for polyamide (nylon) resin and resin-matrix composites More