Current reinforcement fibers mechanical properties

Table 14.2. Mechanical properties of current reinforcement fibers...

Table 1 lists some key production and compositional details for a variety of SiC-based fiber types of current interest and availability as CMC reinforcement. The polymer-derived types range from first-generation fibers with very high percentages of oxygen and excess carbon, such as Nicalon and Tyranno Lox M, to the more recent near-stoichiometric (atomic C/Si 1) fibers, such as Tyraimo SA and Sylramic. For the CVD-derived types, such as the SCS family with carbon cores, the only compositional variables in the SiC sheaths are slight excesses of free sihcon or free carbon. Table 2 lists some of the key physical and mechanical properties of the SiC fiber types in their as-produced condition, as well as estimated commercial cost per kilogram, all properties important to fiber application as CMC reinforcement. These SiC fiber properties in Tables 1 and 2 are in most part those published by the indicated commercial vendors. It should be noted that the Sylramic fiber... 

Natural fiber-reinforced polymer composites have been significantly developed over the past years because of their advantages in processing, mechanical properties and biodegradability. These types of composites are predicted to have more and more applications in the near future. Adhesion and compatibility between natural fiber and polymer matrix will remain a critical issue concerning the overall properties of the composites. Hence, further research is necessary to overcome this shortcoming. Current scientific research has been focused on the selection of the most suitable materials and the optimization of all parameters. 

Biocomposites consisting of the polymer matrix and natural fibers are environmen-tally-friendly material which can replace glass fiber-reinforced polymer composites, and are currently used in a wide range of fields such as the automotive and construction industries, electronic components, sports and leisure, etc. [1, 2]. Recently, the research on nanobiocomposites which are reinforced with both natural fiber and nanofiller is actively proceeding in order to offer higher thermal and mechanical properties, transport barrier, thermal resistivity and flame retardance in comparison with the conventional biocomposites [3-7]. Recently, nanoclay has become of increasing interest in nanocomposites because the characteristics of nanometer-scaled sihcate pellets, such... 

---