SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2607029118> ?p ?o ?g. }

Showing items 1 to 100 of ±260 with 100 items per page.

W2607029118 endingPage "379" @default.
W2607029118 startingPage "352" @default.
W2607029118 abstract "Hierarchical nanocomposites and multi-scale composites represent two classes of closely related material types which utilize a range of nano and microscale elements combined in an organized way to create macroscale composites with unique and, often, multifunctional properties. The critical requirement for any material to successfully incorporate nanoscale constituents is the ability to disperse the nanoscale additive with a large degree of control. The ability to realize the true benefits of nanoscale materials within larger scale matrices will usually be maximized when individual nanoparticles exist as separate entities and the massive surface area to volume ratios are exploited. Consequently, large research efforts are dedicated to the chemical modification of nanomaterial surfaces in order to control the system thermodynamic quantities in ways that can tailor the levels of dispersion. The following chapter addresses the area of hierarchical nanocomposites and multi-scale composite materials in the context of common polymeric materials used in the fabrication of polymer nanocomposites and microscale fiber reinforced polymer composites. Polymer-based materials represent some of the most widely used materials in society and have a range of applications in military and civilian industry. The ability to improve the mechanical performance, whilst imparting additional functionality, such as electrical conductivity or sensing capability, offers a range of benefits for practical applications, including material weight savings and broader and more-flexible applications. In this context, the chapter reviews current state-of-the-art research in the area of hierarchical polymer nanocomposites and examines some of the fundamental research that is developing more sophisticated methods to control nanoparticle dispersion in polymeric matrices. Some of the areas that are examined include the polymer grafting chemistry, which uses the controlled radical polymerization (CRP) methods, and block copolymer chemistry, where the ability to control nanoscale dispersion has seen widespread application in mechanical, electrical, energy storage, and sensing applications, to mention just a few areas. The hierarchical nanocomposites are closely related to multi-scaled composite materials where microscale fibers are traditionally used to reinforce polymeric materials. The development of multi-scaled composite materials sees processes that either provide a nanoscale modification of the polymeric material or the fiber preform prior to their combination into the macroscale composite material. Once again, the ability to control the interfacial chemistry in the scaled composite materials is key to successful outcomes. The hierarchical nanocomposite chemistry is, in many cases, readily transferrable into the multi-scaled composites. As the knowledge and expertise in hierarchical nanocomposite materials expands to enable the widespread application to 3D materials, the ability to apply this technology to multi-scaled composite materials will also evolve." @default.
W2607029118 created "2017-04-28" @default.
W2607029118 creator A5058254008 @default.
W2607029118 date "2018-01-01" @default.
W2607029118 modified "2023-09-27" @default.
W2607029118 title "6.12 Hierarchical Nanocomposites/Multi-Scale Composites" @default.
W2607029118 cites W1566746520 @default.
W2607029118 cites W1714974782 @default.
W2607029118 cites W1786424943 @default.
W2607029118 cites W1963905058 @default.
W2607029118 cites W1963980875 @default.
W2607029118 cites W1967635776 @default.
W2607029118 cites W1967970776 @default.
W2607029118 cites W1970667858 @default.
W2607029118 cites W1972994476 @default.
W2607029118 cites W1973461950 @default.
W2607029118 cites W1974232915 @default.
W2607029118 cites W1974300636 @default.
W2607029118 cites W1975175823 @default.
W2607029118 cites W1975717266 @default.
W2607029118 cites W1981196526 @default.
W2607029118 cites W1983491960 @default.
W2607029118 cites W1985681653 @default.
W2607029118 cites W1988117054 @default.
W2607029118 cites W1990194502 @default.
W2607029118 cites W1991206329 @default.
W2607029118 cites W1991725330 @default.
W2607029118 cites W1994519284 @default.
W2607029118 cites W1996215484 @default.
W2607029118 cites W1997467412 @default.
W2607029118 cites W1998454017 @default.
W2607029118 cites W1999734573 @default.
W2607029118 cites W1999760945 @default.
W2607029118 cites W2000386197 @default.
W2607029118 cites W2001089765 @default.
W2607029118 cites W2003315653 @default.
W2607029118 cites W2003643730 @default.
W2607029118 cites W2004757565 @default.
W2607029118 cites W2004936291 @default.
W2607029118 cites W2005096567 @default.
W2607029118 cites W2007245615 @default.
W2607029118 cites W2007246271 @default.
W2607029118 cites W2008571168 @default.
W2607029118 cites W2008887036 @default.
W2607029118 cites W2009177717 @default.
W2607029118 cites W2010504733 @default.
W2607029118 cites W2011430703 @default.
W2607029118 cites W2012694571 @default.
W2607029118 cites W2013989032 @default.
W2607029118 cites W2014209819 @default.
W2607029118 cites W2015374160 @default.
W2607029118 cites W2016369375 @default.
W2607029118 cites W2017472795 @default.
W2607029118 cites W2018737199 @default.
W2607029118 cites W2019049862 @default.
W2607029118 cites W2019838615 @default.
W2607029118 cites W2020028883 @default.
W2607029118 cites W2021659650 @default.
W2607029118 cites W2021882035 @default.
W2607029118 cites W2022706080 @default.
W2607029118 cites W2024977337 @default.
W2607029118 cites W2025409246 @default.
W2607029118 cites W2026439254 @default.
W2607029118 cites W2028475357 @default.
W2607029118 cites W2029710180 @default.
W2607029118 cites W2030275106 @default.
W2607029118 cites W2030791629 @default.
W2607029118 cites W2032231795 @default.
W2607029118 cites W2032531520 @default.
W2607029118 cites W2033062310 @default.
W2607029118 cites W2033074352 @default.
W2607029118 cites W2036080961 @default.
W2607029118 cites W2036729505 @default.
W2607029118 cites W2037199628 @default.
W2607029118 cites W2038305847 @default.
W2607029118 cites W2040201103 @default.
W2607029118 cites W2040669317 @default.
W2607029118 cites W2041908727 @default.
W2607029118 cites W2042950349 @default.
W2607029118 cites W2043970545 @default.
W2607029118 cites W2045455936 @default.
W2607029118 cites W2046347626 @default.
W2607029118 cites W2050525709 @default.
W2607029118 cites W2051895534 @default.
W2607029118 cites W2055355624 @default.
W2607029118 cites W2057715485 @default.
W2607029118 cites W2057843233 @default.
W2607029118 cites W2059568820 @default.
W2607029118 cites W2060213415 @default.
W2607029118 cites W2062478972 @default.
W2607029118 cites W2062539403 @default.
W2607029118 cites W2067356722 @default.
W2607029118 cites W2071854901 @default.
W2607029118 cites W2072796035 @default.
W2607029118 cites W2074780509 @default.
W2607029118 cites W2075154996 @default.
W2607029118 cites W2076093017 @default.
W2607029118 cites W2076959548 @default.