Boosting UHMWPE Self-Lubricating Performance via Embedding Porous Cobalt-Based Zeolitic Imidazolate Framework Oil-Nanocontainers

Abstract: Zeolitic imidazolate frameworks (ZIFs) are ideal host materials in the adsorption and storage of lubricating oil due to their intrinsic features of high porosity, uniform pore size, and interconnected interior space, but they are much less exploited in oil-containing selflubricating areas. Herein, an ultrahigh surface area cobalt-based ZIF material (ZIF-67) with periodic microporous channels is synthesized successfully and introduced as an oil-nanocontainer embedding in the UHMWPE matrix. The constructed compo… Show more

“…Cai and co-workers proved that the combination of GO nanosheets and ZIF-67 can promote the lubricating performance of bioionic liquid by forming a robust lubrication layer effectively during the friction process . ZIF-67 with periodic microporous channels as the oil nanocontainers of poly-alpha-olefin 6 was embedded in UHMWPE to improve the remarkable self-lubrication in dry sliding . In addition, large specific surface area, easy preparation, and thermal and chemical stabilities facilitate it to be a prospective multifunctional material when combining with MXenes.…”

Improved Tribological Performance of MOF@MXene/PI under High Temperature

“…Cai and co-workers proved that the combination of GO nanosheets and ZIF-67 can promote the lubricating performance of bioionic liquid by forming a robust lubrication layer effectively during the friction process . ZIF-67 with periodic microporous channels as the oil nanocontainers of poly-alpha-olefin 6 was embedded in UHMWPE to improve the remarkable self-lubrication in dry sliding . In addition, large specific surface area, easy preparation, and thermal and chemical stabilities facilitate it to be a prospective multifunctional material when combining with MXenes.…”

Improved Tribological Performance of MOF@MXene/PI under High Temperature