Эротические рассказы

Applications of Polymer Nanofibers. Группа авторовЧитать онлайн книгу.

Applications of Polymer Nanofibers - Группа авторов


Скачать книгу
nanofibers overlap in a mat. A second observation is the advancement in large‐scale nanofiber manufacture. Development of flexible nanofiber mats that might be integrated into fabric to support efforts at developing wearable electronics is under way. Innovations of nanofibers in textile science are discussed in Chapter 2. Large‐scale fabrication of nanofiber mats using electrodeless systems such as already‐ commercialized Nanospider™ (ElMarco) will further advance to bring down the cost of the material. Chapter 5 reviews the status of commercial production of nanofibers.

      The book addresses the basic science behind fabrication and nanofiber characterization with a clear emphasis on practical aspects of electrospinning. An attempt has been made to compile the more recent information and cover the different application areas where novel uses will be found for nanofiber materials.

      Anthony L. Andrady

      Saad A. Khan

      Department of Chemical and Biomolecular Engineering

      North Carolina State University

      Note

      1 1 Silk threads from spider species Nephila clavipes Vehoff, T., Glisović, A., Schollmeyer, H., Zippelius, A. et al. (2007). Mechanical properties of spider dragline silk: humidity, hysteresis, and relaxation. Biophysical Journal 93 (12): 4425–4432.

       Christina Tang1, Shani L. Levit1, Kathleen F. Swana2, Breland T. Thornton1, Jessica L. Barlow1, and Arzan C. Dotivala1

       1Department of Chemical and Life Science Engineering, Virginia Commonwealth University, Richmond, VA, USA

       2U.S. Army Combat Capabilities Development Command Soldier Center, Natick, MA, USA

      Source: Photograph of mat reprinted from Dror et al. (2008). Copyright (2008). American Chemical Society.

      Electrospun fibers from 30 nm to 10 μm in diameter have been reported (Greiner and Wendorff 2007). Despite its widespread use, electrospinning of new materials is typically done ad hoc varying polymer concentration and process variables. Although the nanofiber properties, namely fiber diameter, could be ideally controlled by varying the process parameters, precise control over the fiber diameter remains a technical bottleneck. The effect of process variables on fiber characteristics has been widely examined theoretically and experimentally.

      1.2.1 Theoretical Analysis

      To avoid the cost and time of experimental trial and error, modeling and theoretical analysis have been applied to predict how process parameters affect fiber diameter. Reneker and coworkers have developed a theoretical model based on simulating jet flow as bead‐springs. Their model describes the entire electrospinning process and accounts for solution viscoelasticity, electric forces, solvent evaporation and solidification, surface tension, and jet–jet interactions. Performing sensitivity analysis of 13 model input parameters, they determined that initial jet radius, tip‐to‐collector distance, volumetric charge density, and solution rheology, i.e. relaxation time and elongational viscosity, had strong effect on final fiber size. Initial polymer concentration, perturbation frequency, solvent vapor pressure, solution density, and electric potential had a moderate effect, whereas vapor diffusivity, relative humidity, and surface tension had minor effects on fiber diameter (Thompson et al. 2007).


Скачать книгу
Яндекс.Метрика