Vigilancia Tecnológica

The utility model relates to a self?healing hydrogel with good mechanical properties, healing and plugging properties.AbstractThe P(AM?co?AMPS)/SA DN hydrogel was synthesized through aqueous polymerization in this study. It formed a crosslinking network with hydrophobic associations between acrylamide (AM) and lauryl methacrylate (LMA), as well as an ionic bond network involving sodium alginate and Ca2+. To enhance its high?temperature resistance, 2?acrylamide?2?methylpropane sulfonic acid (AMPS) was incorporated into the hydrogel formulation. The structure of the hydrogel was characterized using Fourier transform infrared spectrometer (FTIR), thermogravimetric analyzer (TGA), and scanning electron microscopy (SEM) techniques. Results demonstrated that the hydrogel exhibited excellent temperature resistance and possessed a porous structure. Mechanical testing revealed a high tensile strength of 110?kPa, elongation at break of 995.31%, along with good fatigue resistance and self?recovery performance during multiple cyclic stretching. Healing experiments indicated that the healing strength of the hydrogel was influenced by temperature variations. Furthermore, pressure plugging tests were conducted on steel models with crack widths of 0.5 and 1?mm, respectively; it was found that the 0.8%P(AM?co?AMPS)/SA DN hydrogel could withstand pressures up to 4.5?MPa at a temperature of 70°C. This novel hydrogel material exhibits remarkable mechanical properties along with certain self?healing capabilities, making it suitable for leak control applications.