Carbon fiber reinforced polymer (CFRP) have excellent properties such as light weight, high
strength, high modulus and high temperature resistance, and have wide application …

The past two decades have seen atomic force microscopy (AFM) evolve from an
experimental technique to probe simple surface topography to one that can spatially map …

Over the past 30 years, atomic force microscopy (AFM) has played an important role in
elucidating the structure and properties of polymer surfaces. AFM-based techniques have …

Organic-rich shale, which is a heterogeneous material, has been studied extensively from
various perspectives. Among all the components that constitute shale, organic matter is less …

Carbon fiber reinforced polymer manufacturing is emerging, with multiple studies to focus on
the design of interfacial reinforcement to ensure the maximum of composite properties, but …

Quantitative analyses of the thickness and properties of the interphase in carbon fiber
reinforced resin matrix composites, which play an important role in loading transfer, are …

Information of the chemical, mechanical, and electrical properties of materials can be
obtained using force volume mapping (FVM), a measurement mode of scanning probe …

The correlation between nanoscale interface debonding and crack energy release rate for
modes I, II, and I/II for extended exposure to hygrothermal conditions in polymer matrix …

For fiber reinforced rubber composites, the interface is the most critical factor affecting the
stress transfer efficiency and the ultimate reinforcing effect. In this study, we investigated the …

Inertinite and vitrinite in 3 samples during oil generation from a lacustrine shale, the third
member of the Paleogene Shahejie Formation are investigated nanomechanical and …