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SUN Liang, WANG Jun, HAN Ping-chou. AN AFM-BASED DYNAMICS INVESTIGATION INTO THE SIZE-DEPENDENT BEHAVIOR OF PCL NANOFIBERS[J]. Engineering Mechanics, 2009, 26(8): 228-232.
Citation: SUN Liang, WANG Jun, HAN Ping-chou. AN AFM-BASED DYNAMICS INVESTIGATION INTO THE SIZE-DEPENDENT BEHAVIOR OF PCL NANOFIBERS[J]. Engineering Mechanics, 2009, 26(8): 228-232.
shu

AN AFM-BASED DYNAMICS INVESTIGATION INTO THE SIZE-DEPENDENT BEHAVIOR OF PCL NANOFIBERS

  • (1. Department of Mechanics & Engineering Science, Fudan University, Shanghai 200433, China; 2. Department of Material Science, Fudan University, Shanghai 200433, China; 3. Department of Advanced Materials & Nanotechnology, Peking University, Beijing 100871, China)

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  • Received Date: December 31, 1899
  • Revised Date: December 31, 1899
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  • This paper presents a dynamic investigation of the polycaprolactone (PCL) nanofibers of diameters in the 100-500 nm range that were fabricated via electrospinning. We conducted AFM-based strength experiments involving a single-strand fiber and found that its elastic modulus exhibits a strong size dependency after its diameter has been reduced past a threshold size. In an attempt to explain this inverse behavior, we developed a strain gradient vibration model and used it to analyze a clamp-clamp nanofiber employed in our experimentation. As a check, our new vibration equation reverts back to the classic Euler-Bernoulli equation when strain gradient effects are neglected. To predict the onset of the inverse size-dependent response, we proposed a material length scale parameter leff and showed that at leff =78nm our theoretical predictions for the PCL nanofibers conform reasonably well to the experimental data.
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