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Role of Interface on the Development of Microstructure in Carbon-Carbon Composites
Dhakate, S.R.,Mathur, R.B.,Dhami, T.L.,Chauhan, S.K. Korean Carbon Society 2002 Carbon Letters Vol.3 No.4
Microstructure plays an important role in controlling the fracture behaviour of carbon-carbon composites and hence their mechanical properties. In the present study effort was made to understand how the different interfaces (fiber/matrix interactions) influence the development of microstructure of the matrix as well as that of carbon fibers as the heat treatment temperature of the carbon-carbon composites is raised. Three different grades of PAN based carbon fibres were selected to offer different surface characteristics. It is observed that in case of high-strength carbon fiber based carbon-carbon composites, not only the matrix microstructure is different but the texture of carbon fiber changes from isotropic to anisotropic after HTT to $2600^{\circ}C$. However, in case of intermediate and high modulus carbon fiber based carbon-carbon composites, the carbon fiber texture remains nearly isotropic at $2600^{\circ}C$ because of relatively weak fiber-matrix interactions.
Synthesis, analgesic and anti-inflammatory activities of novel mannich bases of benzimidazoles
Neeraj Kumar,C. S. Sharma,M. S. Ranawat,H. P. Singh,L. S. Chauhan,N. Dashora 한국약제학회 2015 Journal of Pharmaceutical Investigation Vol.45 No.1
A series of novel mannich bases of 2-substituted benzimidazoles was synthesized by the reaction of 2-substituted benzimidazoles with corresponding aldehyde and acetophenones. The structures of all synthesized compounds were confirmed by elemental analysis, IR, ¹HNMR,¹³C-NMR and LCMS. The compounds were evaluated for in vivo analgesic and in vivo anti-inflammatory activities by a tail flick method and carrageenan-inducedrat paw edema test respectively. Among all the compounds synthesized, compound A1 and B3 exhibited significantanalgesic and anti-inflammatory activities. Acute ulcerogenicity studies showed that compound A1 and B3 were devoid of gastrointestinal toxicities.
EMISSION ANALYSIS OF A MEDIUM CAPACITY DIESEL ENGINE USING MAHUA OIL BIODIESEL
Sharma, Ajay Kumar,Das, L.M.,Naik, S.N.,Chauhan, Bhupendra Singh,Cho, Haeng Muk The Korean Society for Energy 2013 에너지공학 Vol.22 No.2
The stringent emission norms cannot be met through engine design and exhaust after treatment alone. Use of oxygenated fuel like biodiesel as a alternative to diesel may be the best way to reduce emissions today. In this study, Diesel fuel and pure biodiesel (mahua oil) were tested on a single cylinder naturally-aspirated direct-injection diesel engine. The study aims to investigate the effects of the mahua oil biodiesel on existing diesel engine emissions. The effect of test fuels on engine emissions like CO, HC, $CO_2$, NOx and smoke emissions was investigated with respect to the load on engine. Smoke opacity of Diesel engine was lower in case of biodiesel of mahua oil as compare to mineral diesel. NOx emissions was little higher during the whole range of loading, which is a typical characteristic of biodiesel. However the increments are within in the narrow range. $CO_2$ emissions was bit higher which is the indication of better combustion due to presence of rich oxygen in the mixture, it results in the low values of CO and HC during the whole range of experiments. Thus considering environmental norms most of the engine emissions, it can be concluded and biodiesel derived from mahua oil could be used in a conventional diesel engine without any modification.
R.B. Mathur,O.P. Bahl,T.L. Dhami,S.K. Chauhan 한국탄소학회 2003 Carbon Letters Vol.4 No.3
Carbon/carbon composites were developed using PAN based carbon fibres and phenolic resin as matrix in different volume fractions and heat treated to temperatures between 1000℃ to 2500℃. Although both the starting precursors are nongraphitizing hard carbons individually, their composites lead to very interesting properties e.g. x-ray diffractograms show the development of graphitic phase for composites having fibre volume fractions of 30~40%. Consequently the electrical resistivity of such composites reaches a value of 0.8 mΩcm, very close to highly graphitic material. However, it was found that by increasing the fibre volume fraction to 50~60%, the trend is reversed. Optical microscopy of the composites also reveals the development of strong columnar type microstructure at the fibre (matrix interface due to stress graphitization of the matrix. The study forcasts a unique possibility of producing high thermal conductivity carbon/carbon composites starting with carbon fibres in the chopped form only.
Interface and Microstructure Development in Carbon/Carbon Composites
R.B. Mathur,O.P. Bahl,T.L. Dhami,S.K. Chauhan,S.R. Dhakate,B. Rand 한국탄소학회 2004 Carbon Letters Vol.5 No.2
Performance of carbon-carbon composites is known to be influenced by the fibre matrix interactions. The present investigation was undertaken to ascertain the development of microstructure in such composites when carbon fibres possessing different surface energies (T-300, HM-35, P120 and Dialed 1370) and pitch matrices with different characteristics (Coal tar pitch SP110℃ and mesophase pitch SP285℃) are used as precursor materials. These composites were subjected to two different heat treatment temperatures of 1000℃ and 2600℃. Quite interesting changes in the crystalline parameters as well as the matrix microstructure are observed and attempt has been made to correlate these observations with the fibre matrix interactions.
Mathur, R.B.,Bahl, O.P.,Dhami, T.L.,Chauhan, S.K. Korean Carbon Society 2003 Carbon Letters Vol.4 No.3
Carbon/carbon composites were developed using PAN based carbon fibres and phenolic resin as matrix in different volume fractions and heat treated to temperatures between $1000^{\circ}C$ to $2500^{\circ}C$. Although both the starting precursors are nongraphitizing hard carbons individually, their composites lead to very interesting properties e.g. x-ray diffractograms show the development of graphitic phase for composites having fibre volume fractions of 30~40%. Consequently the electrical resistivity of such composites reaches a value of $0.8\;m{\Omega}cm$, very close to highly graphitic material. However, it was found that by increasing the fibre volume fraction to 50~60%, the trend is reversed. Optical microscopy of the composites also reveals the development of strong columnar type microstructure at the fibre (matrix interface due to stress graphitization of the matrix. The study forcasts a unique possibility of producing high thermal conductivity carbon/carbon composites starting with carbon fibres in the chopped form only.
Interface and Microstructure Development in Carbon/Carbon Composites
Mathur, R.B.,Bahl, O.P.,Dhami, T.L.,Chauhan, S.K.,Dhakate, S.R.,Rand, B. Korean Carbon Society 2004 Carbon Letters Vol.5 No.2
Performance of carbon-carbon composites is known to be influenced by the fibre matrix interactions. The present investigation was undertaken to ascertain the development of microstructure in such composites when carbon fibres possessing different surface energies (T-300, HM-35, P120 and Dialed 1370) and pitch matrices with different characteristics (Coal tar pitch $SP110^{\circ}C$ and mesophase pitch $SP285^{\circ}C$) are used as precursor materials. These composites were subjected to two different heat treatment temperatures of $1000^{\circ}C$ and $2600^{\circ}C$. Quite interesting changes in the crystalline parameters as well as the matrix microstructure are observed and attempt has been made to correlate these observations with the fibre matrix interactions.