**7. Prospective progress of rationally reinforced matrixes**

Several challenges needs to be tackled during matrix reconfigurations and nano-composite fabrication/progressing, and this allows progressive rational designing as per desired applications. The chemical interactions that exist in resultant matrix reinforcement during its fabrication and later in its usage are to be checked via micromechanics to provide a rational basis for its designing. Intrinsically strengthened composites are obtained through various reinforced materials like graphene, nanocarbon and nanometals, which are found superior than counterparts. Reconfigured multiscale hybrids own better load reassignments at reinforced interfaces achieved via tailored interfacial shear strengthens imparting stiffness, heat protection, impactive compression and better threshold load bare. Various automotive utility needs reconfigured biopolymer-derived nanocomposites at lower cost and end-use components.

**115**

**Author details**

Rajendra Sukhadeorao Dongre

ceramics or vitreous.

**Acknowledgements**

Department of Chemistry, R.T.M., Nagpur University, Nagpur, India

\*Address all correspondence to: rsdongre@hotmail.com

provided the original work is properly cited.

*Reinforce Fabricated Nano-Composite Matrixes for Modernization of S & T in New Millennium*

Some innovative breaches in applicability of rationally reinforced materials are

• Nanometal reinforcement in cellulose matrix is attenuated through synergy of constituting materials so as to derive innate advantageous properties of

• Reconfigured metal nanomatrixes of chemically integrated cellulosic templates with certain novel functionalities in the ensuing composites are best exploited for filler purpose. Such nanometallic reconfigured cellulose-derived matrixes with multifaceted features have not been explored extensively and thus need to

• The basic physicochemical interactions found in such components that viably

• Nanocomposite formations significantly alter and improve the innate proper-

• Advance nanotechnology aids in reconfiguration of various materials into sole composite imparting advantageous and optimized features as per the industrial

• Assorted constituting textures and dimensional comprising phases of host matrixes via their innate bonding control mechanical stability and properties of resultant nanocomposites, e.g., nanometal/metal oxide dispersions in

The author is thankful to Head, PGTD of Chemistry, R.T.M. Nagpur University,

Nagpur, for laboratory facilities and to the Vice Chancellor, Nagpur University, Nagpur, for the sanction of research project work under University Research Project Scheme, awarded vide No. Dev/RTMNURP/AH/1672 (9) dated September 24, 2016.

© 2020 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium,

**8. Innovative breaches in applicability of reinforcement materials**

*DOI: http://dx.doi.org/10.5772/intechopen.91305*

observed that are mention as follows:

be attended.

needs.

components by diverse preparatory techniques.

optimize innate properties are less studied.

ties of components via multiphase reinforcements.

*Reinforce Fabricated Nano-Composite Matrixes for Modernization of S & T in New Millennium DOI: http://dx.doi.org/10.5772/intechopen.91305*
