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Joint Conference
July 17-18, 2017 Chicago, USA
International Conference on
DIAMOND AND CARBON MATERIALS & GRAPHENE AND SEMICONDUCTORS
Volume 6, Issue 6 (Suppl)
J Material Sci Eng, an open access journal
ISSN: 2169-0022
Diamond and Carbon 2017 & Graphene 2017
July 17-18, 2017
J Material Sci Eng 2017, 6:6(Suppl)
DOI: 10.4172/2169-0022-C1-077
Ferro chemistry, its laws and carbon with the relativistic emergence of luminous quantum mechanics
from super luminous classical mechanics with local violation of 2
nd
law of thermodynamics
Reginald B Little
Stillman College, USA
C
arbon is unique among the elements. The bosonic, low-shielded 12C nucleus and fermionic, highly charged, half-filled
electronic shell and subshell contribute to different, metastable hybrid quantum fields for chemical bonding: with resulting
difficult autocatalyzed rehybridization dynamics; with consequent special natures and applications of carbon’s allotropes and
polymorphs and the myriad of important chemical compounds for possible complexmixtures for life; and with chemical history
of the struggle to transform and transport among these elements, compounds and mixtures. This plenary highlights the journey
of RBL since 2000 to establish a new chemistry of ferrochemistry on basis of the Little Effect (spin and magnetic alterations of
orbitals) for new solutions of special importance to carbon chemical transformations with broad relevance to other elements.
This presentation further outlines consequent discoveries: Laws of Ferrochemistry; ferromagnetic carbon; magnetic, electric
and luminous nature of wavefunctions; spatial nature of fields, field nature of particles and hidden superluminous quantum
continua for quanta to magnetic to gravitational to electrical to thermal field transformations and transports (locally violating
laws of classical thermodynamics for the emergence of quantum from classical mechanics relativistically); spinrotorbitals and
spinrevorbitals for time crystallization and accelerated temporal patterns for recrystallizing time, respectively; single domain
ferrochemistry with distinct decomposition and composition chemistry at different magnetic poles with possible superfluidity
and superconductivity between the poles via large exchange gradients; selective preparations of various spin rotorbitals and
changing spin rotorbitals for spin revorbitals for ferro chemistry for the first, correct free standing graphene formation and
stability in plasma at over 3000 Celsius on magnetic field lines, for macroscopic single crystal diamond synthesis under
stronger magnetization, and for driving alterations of spin rotorbitals (time crystals) via microwaves, strong magnetic fields,
radiofrequency waves and complex chemical fields and waves as in mixtures of weak acids weak bases (as in biochemicals for
physics of life).
redge_little@yahoo.comFabrication and mechanical properties of Al-SiC-B4C metal matrix composite via powder
metallurgy
Saif Wakeel, Sajjad Arif
and
M.Arif Siddique
Aligarh Muslim University, India
T
he Aluminium metal matrix has wide application in automobile, aerospace, sports and structure. Generally Al metal
matrix composites are formed by powder metallurgy and direct casting technique. The powder metallurgy is a method
in which composites are formed by mixing the elements with different chemical properties in metal matrix. This technique
provides a good chemical homogeneity to final product, huge potential saving in case of mass production, high production
rate and excellent wear resistant properties of component produced. Now in this research the three samples powder with
following composition i.e (90% Al 7% SiC 3% B4C, 90% Al 5% SiC 5% B4C , 90% Al 3% SiC 7% B4C) with proper mixing and
compacting by taking three compaction load of 3,4 and 5 ton, were taken for the evaluation of mechanical properties such as
green and sintered densities, hardness, XRD etc. after analyzing the different properties it is seen that both green and sintered
densities increases with increase in amount of Boron carbide but these are found to be maximum for 90% Al 5% SiC 5% B4C
composition. XRD analysis is also done that showed equiaxed powder structure.
saifwakeel@gmail.com