@Editorial
<#LINE#>Coir: A Versatile Green Fiber<#LINE#>S.R. Shah <#LINE#>1<#LINE#>1.ISCA-RJEngS-2013-Editorial-001.pdf<#LINE#>
@Research Paper
<#LINE#>A Novel NOC Architecture for SoC based Ultra Lightweight Crypto-Processor Using Present and Katan Algorithm <#LINE#>T.Blesslin@Sheeba,P.@Rangarajan<#LINE#>6-11<#LINE#>2.ISCA-RJEngS-2013-110.pdf<#LINE#>Sathyabama University, Chennai, INDIA @ Department of EEE, RMD Engineering College, Chennai, INDIA<#LINE#>24/9/2013<#LINE#>14/1/2014<#LINE#>  The performance computation of the Crypto-processor implemented on SoC platform is research of interest now. The traditional buses or wires have the problem of scalability, complexity and timing, from here we target this point and present a novel Network On Chip (NOC) architecture to overcome the cons. Network On Chip (NOC) consists of storage and I/O resources interconnected by network of switches for network computation. Two ultra lightweight cryptographic algorithms are presented in this paper namely PRESENT and KATAN. It is developed using Altera Cyclone IV E. The NOC architecture consists of different topology, switching and routing techniques based efficiency requirements. Finally the computed efficiency for the processor running at 330 MHz and taking 5.047 sec for computation using 0.323 mm cell area in 180 nm technology. <#LINE#> @ @ Advances in Ultralightweight Cryptography for Low-cost RFID Tags: Gossamer Protocol Pedro Peris-Lopez, Julio Cesar Hernandez-Castro, Juan M. E. Tapiador, and Arturo Ribagorda (2009) @No $ @ @ W.J. Dally and B. Towles, Route Packets, Not Wires: On-Chip Inteconnection Networks, in the 38th annual Design AutomationConference, 684-689 (2001) @No $ @ @ Guerrier P. and Greiner A., A Generic Architecture for On-Chip Packet-Switched Interconnections," in Design, Automation and Test in Europe (DATE), 250-256 (2000) @No $ @ @ S. Bell et al., "TILE64 Processor: A 64-Core SoC with Mesh Interconnect," Solid-State Circuits Conference, 2008. Digest of Technical Papers. IEEE International, 88-598 (2008) @No $ @ @ S. Vangal et al., An 80-Tile 1.28TFLOPS Network-on-Chip in 65nm CMOS, Solid-State Circuits Conference, 2007. Digest of TechnicalPapers. IEEE International, 98-589 (2007) @No $ @ @ S. Panasenko and S. Smagin. Energy-efficient cryptography: application of KATAN. SoftCOM 2011, 19 International Conference on Software, Telecommunications and Computer Networks. Split – Hvar – Dubrovnik, September 15-17, 2011, Proceedings (SS2 – Special Session on Green Networking) (2011) @No $ @ @ E. Volte. CRUNCH. A SHA-3 Candidate. // Available at http://www.voltee.com – 27 February 2009 (2009) @No $ @ @ E. Rijpkema, K. Goossens, A. Radulescu, J. Dielissen, J. van Meerbergen, P. Wielage and E. Waterlander, Trade-offs in the design of a router with both guaranteed and best-effort services for networks on chip, IEE Proc. Computers and Digital Techniques,150(5), 294-302 (2003) @No $ @ @ M. Panades, A. Greiner and A. Sheibanyrad, A Low Cost Network-on-Chip with Guaranteed Service Well Suited to the GALS Approach, Proc. the 1st Int’l Conf. and Workshop on Nano-Networks), 1-5, (2006) @No
<#LINE#>Evaluation of Microbial Contamination of Cutting Fluids with Nano Graphite Inclusions<#LINE#>M.M.S.@Prasad,R.R.@Srikant<#LINE#>12-16<#LINE#>3.ISCA-RJEngS-2013-142.pdf<#LINE#> Dept of Mechanical Engg, Regency Institute of Technology, Yanam-U T of Puducherry, INDIA @ Dept of Mechanical Engg, GIT, GITAM University, Visakhapatnam, AP, INDIA<#LINE#>28/12/2013<#LINE#>11/1/2014<#LINE#>  The purpose of the cutting fluids is to minimize the friction and heat apart from flush away the chips that are generated during machining operation. Further, these fluids are the mixtures of various synthetic, semi –synthetics, straight oils, emulsifiers, additives and biocides. There is also a possibility of contamination of the fluids in any manufacturing concern because of tramp oils, particulate matter etc. Apart from this a serious problem involves with these water based metal working fluids is the development of microbial contamination and its related other products like exo and endotoxins. Foul odor generation, appearance as a sticky substance and unpleasant nature to touch the fluids causes severe health effects to the workers involved in machining operations. In this paper, samples of graphite nano particle suspended fluids prepared with different weight percentages meant to be used in Minimum Quantity Lubrication. These samples stored for one month and then tested during this period to find the type of bacteria present in the cutting fluids and the growth of microorganisms. <#LINE#> @ @ Julieb Z Andres F, Kimf H, Steven J. design of hard water stable emulsifier systems from petroleum and bio based semi synthetic metal working fluids. Environ SciTechnol, 37, 5278-88 (2003) @No $ @ @ Shaw M.C., Metal cutting principles, 2nd edition, (Oxford University Press, USA) (2004) @No $ @ @ Applicability of cutting fluids with nanoparticle inclusion as coolant s in machining by  @No $ @ @  Srikant R.R., Rao D.N., Subrahmanyam M.S. and Vamsi Krishan P., in IMechEvik 223 Part I, Journal of Engineering Tribology @No $ @ @ Roosemore H.W., Evaluation Techniques for Bio-deterioration of Water Miscible Metal working fluids, Bio-deterioration Research Techniques, I, 227-242 (1976) @No $ @ @ Rossmoore H.W., Microbial causes of cutting fluid deterioration, Society of Manufacturing engineers, MI,(1974) @No $ @ @ Benett EO, The biology of metal working fluids, Lubrication engineering,28, 237-247 (1972) @No $ @ @ Rossmoore H.W. and Rossmoore L.A., The identification of defined microbial inoculums for the evaluation of biocides in water based metal working fluids, Lubrication engg.,  36, 16-20 (1980) @No $ @ @ Rosmoore L.A. and Rosmoore H.W., Metal working Microbiology, Buers, J P (Ed.),Metal working Fluids New York: Marcel Dekker, Inc., 247-247 (1994) @No $ @ @ Rosemoore H.W., Evaluation Techniques for Bio-deterioration of water Miscible Metal working fluids, Bio-deterioration Research.  @No $ @ @ Rosemoore H.W., Antimicrobial agents  for water-based metal working fluids, journal of Occupational medicine, 23(4), 147-254 (1981) @No $ @ @ American Society for Testing and Materials (ASTM) Designation D 3946-92 in annual book of ASTM standards, vol 5.03, ASTM Philadelphia (1992) @No $ @ @ John P Harley, Microbiology lab manual McGraw Hill Asia, (2007) @No $ @ @ Narayana Rao S., Satyanarayana B. and Venkatasubbaiah K., Experimental investigation of microbial contamination of nano cutting fluids with cnt inclusion, Global journal of Research in Engineering, 11(4), 1.0, (2011) @No 
<#LINE#>Tensile and Impact behaviour of Al-Sic-Zn-Cu Metal Matrix Composite<#LINE#>Neelima Devi@Chinta,V.@Mahesh,N.@Selvaraj<#LINE#>17-22<#LINE#>4.ISCA-RJEngS-2014-01.pdf<#LINE#>Department of Mechanical Engineering, National Institute of Technology, Warangal, Andhra Pradesh, INDIA @ SR Engineering College, Warangal, Andhra Pradesh, INDIA @ Department of Mechanical Engineering, National Institute of Technology, Warangal, Andhra Pradesh, INDIA<#LINE#>16/1/2014<#LINE#>1/2/2014<#LINE#>Aluminium is one of the lightest available commercial metals with a density approximately one third that of steel or copper. Its high strength to weight ratio makes it particularly important to transportation industries allowing increased pay loads and fuel savings. The Aluminum-Silicon Carbide-Zinc and Copper alloys are the primary alloys used in airframe structural applications, automobile and recreational industries. In this paper, Al-SiC-Zn-Cu are varied by different proportions mainly Zn (2%, 4%, 6%, 8%) and Cu (2%, 4%, 6%, 8%), tensile test and impact tests are performed to evaluate the mechanical properties like tensile strength, % elongation, yield stress on computerized UTM and impact strength by using Izod and Charpy tests. The variation of mechanical properties with the increasing percentage composition of Zinc and Copper are evaluated. The results are quantified and analyzed by graphical analysis. <#LINE#> @ @ Hatch J.E., Aluminum: Properties and physical metallurgy, ASM, Metals park, OH. (1993) @No $ @ @ Doel.T.J.A, Lorretto.M.H and Bowen.P., Mechanical Properties of aluminium based particulate metal matrix composites,  Journal of composites, 24, 270-275 (1993) @No $ @ @ R.N. Lumley and I.J. Polmear, Preparation and some properties of SiC particle reinforced aluminium alloy composites Mater.Design, 24, 671-679. DOI: 10.1016/S0261-3069(03)00156-0 (2003) @No $ @ @ Fan T., Zhang D., Shi Z., Wu R., Shibayangai T., Naka M., et al., The effect of Si upon the interfacial reaction characteristics in SiCp/Al-Si system composites during multiple-remelting, J Mater Sci, 34, 5175–80 (1999) @No $ @ @ Hashim J., Looney L., and Hashmi M.S.J., Metal Matrix Composites: Production by the Stir Casting Method,  Journal of Material Processing and Technology,92, 1-7 (1999) @No $ @ @ V. Raghavan, Aluminum-siliconcarbide-zinc-copper, JPEDAV 32:72-74, DOI:10.1007/s11669-010-9803-8, 1547-7037, ASM International, (2011) @No $ @ @ Manna A, Bhattacharayya, A study on machinability of Al/SiCMMC, J Mater Process Technol, 140, 711-6(2003) @No $ @ @ P. Sepehrband and S. Esmaeili, Application of Recently Developed Approaches to Microstructural Characterization and Yield Strength Modeling of Aluminum Alloy AA7030, Mater. Sci. Eng. A, 487, 309-315 (2008) @No $ @ @ Kannikeswaran K, Lin RY, Trace element effects on aluminum silicon carbide interfaces, J Met, 39, 17–9 (1987) @No $ @ @ Quin S., Chen C. and Zhang, G., The effect of particle shape on ductility of SiC reinforced 6061 Al matrix composite, Material Science and Engineering,272(2), 363-370, (1999) @No $ @ @ Gupta M. and Qin S., Effect of interfacial characteristics on the failure mechanism mode of a SiC reinforced A1 based metal-matrix composite, Journal of Materials Processing Technology,67, 94-99 (1997) @No $ @ @ S. Muthukumarasamy, A. Guruprasad, A. Sudhakar and S. Seshan, Performance of Zinc Alloy Based Metal Matrix Composites Produced Through Squeeze Casting, Mater. Manuf. Processes,11, 351–366 (1993) @No 
<#LINE#>Influence of Fine Aggregate Particle Size and Fly Ash on the Workability Retention of Mortar for SCC<#LINE#>Ankush@Gupta,Chandak@akRajeev,M.K.@Koshta<#LINE#>23-28<#LINE#>5.ISCA-RJEngS-2014-05.pdf<#LINE#> Department of Civil Engineering, Jabalpur Engineering College, Jabalpur, MP, INDIA<#LINE#>22/1/2014<#LINE#>31/1/2014<#LINE#>This research paper reports the Study of influence of fine aggregate particle sizeand fly ash on the workability retention of mortar for Self-Compacting Concrete (SCC). The relative flow area m and the relative funnel speed Rm of mortar were determined using the results of the mortar spread test and V-funnel flow test respectively. The tests were conducted on mortar mixes with five different cement replacement percentage (CRP) by fly ash and four different particle sizes of fine aggregate at an elapsed time of 60 minutes after mixing. The optimum combination of m and Rm were investigated for achieving very good workability retention required for SCC to ensure self-compactability at casting.  <#LINE#> @ @ Okamura Hajime and Ouchi Masahiro, Self Compacting concrete, Journal of Advanced Concrete Technology, Japan Concrete Institute1(1), 5–15 (2003) @No $ @ @ Specification and guidelines for Self-Compacting concrete, EFNARC, U.K.,(2002) @No $ @ @ Krishna Murthy N., Narasimha Rao A.V., Ramanna Reddy I.V. and Vijaya Shekhar Reddy M., Mix Design Procedure for Self-Compacting Concrete, IOSR Journal of Engineering(2)9, 33-41 (2012) @No $ @ @ Dubey Rahul and Kumar Pradeep; Effect of Fly ash on Water/ Powder ratio and Superplasticiser Dosage in Self- Compacting Mortars, International Journal of Architecture, Engineering and Construction,(2)1, 55-62(2013) @No $ @ @ Domone P.,Proportioning of Self- Compacting concrete – the UCL methodUCL, Department of Civil, Environmental and Geomatic Engineering,(2009) @No $ @ @ EFNARC European project group; The European Guidelines for Self-Compacting Concrete Specification, Production and use,(2005) @No $ @ @ Chowdhury Subrato, Kadam Sandeep and Keskar Sandeep; Impact of fine aggregate Particle size on rheology and compressive strength of mortar for SCCThe Indian Concrete Journal , (85)4, 51-59 (2011) @No $ @ @ Methods of physical tests for hydraulic cement, IS 4031: 1988, Bureau of Indian standards, New Delhi, India, (1988) @No $ @ @ Specification for standard sand for testing of cement IS 650: 1966, Bureau of Indian standards, New Delhi, India, (1966) @No
@Research Article
<#LINE#>Reservoir Sedimentation and Concerns of Stakeholders<#LINE#>S.Venkateswara@Rao,P.G.@Sastry,Vaishali G.@Ghorpade <#LINE#>29-32<#LINE#>6.ISCA-RJEngS-2013-138.pdf<#LINE#> Irrigation and CAD Department/ Professor in Civil Engineering, JB Institute of Engineering and Technology, Hyderabad AP, INDIA @ Ramky Group, Learning and Development, Hyderabad AP, INDIA @Civil Engineering, JNTU College of Engineering, Anantapur, AP, INDIA<#LINE#>20/12/2013<#LINE#>4/1/2014<#LINE#>  Water resource’ across the world is becoming scarce element due to rising population and poor water management. The world population already crossed 700 crores and the global water deficit to an extent of 40 percent is forecast by the year 2030. For India, a deficit of 50 percent is forecast by the year 2030, with a projected annual water demand of 1500 cubic kilo- meters and water availability of 744 cubic kilo- meters. India’s greatest challenge is to set in place an efficient system of river basin/ reservoir management to conserve every drop of water for useful means of mankind to meet the present and future requirements. The reservoirs which are most dependable source of storage for extraction of water depending on the priority requirements, are facing the problem of ‘sedimentation’ due to which they are losing their storage capacities gradually. According to a survey during the year 2012 across 122 reservoirs in India, 0.44% of reservoir storage is being replaced annually with sediment deposit. Sediment tends to accumulate at all levels(Dead and live storage) within the reservoir, with the specific accumulation pattern varying from one site to other. A wide range of sediment related problems include storage loss, delta deposition, environmental pollution, earthquake hazards etc., are to be tackled with different sediment management techniques. For sustainable development of water resources, the major stakeholders including reservoir owners, beneficiary farmers, domestic/ industrial consumers, agencies connected to tourism/ fisheries and research organizations etc., shall come together and formulate solutions to the problem of sedimentation. Various consequences due to sediment trapping and the related impact on the environment have been discussed in the present study with conclusions for sustainable long- term utilization of Reservoirs. <#LINE#> @ @ Sahasrabudhe S.R., Irrigation Engineering and Hydraulic structures, Tata Mcgraw, 1983 @No $ @ @ Central Water Commission (CWC), New Delhi, India, SURVEY (report dated 10 August, 2012) (2012) @No $ @ @ Khosla A.N, Silting of Reservoirs, CBIP Publication No. 51 (1981) @No $ @ @ U.S Department of Interior Bureau of Reclamation, Erosion and Sediment manual (2006) @No $ @ @ Morris G.L and Fan J, Reservoir sedimentation handbook , McGrah Hill, (2010) @No