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Nataraja, M.
- Fabrication of Solar Powered Multiple Crop Cutter
Authors
1 Mechanical Engg, Sir M Visvesvaraya Institute of Technology, Bangalore, IN
2 School of Engineering, Presidency University, Itgalpura, Rajankunte, Bangalore, IN
3 Mechanical Engg, Sir M Visvesvaraya Institute of Technology, IN
Source
Manufacturing Technology Today, Vol 17, No 10 (2018), Pagination: 8-10Abstract
Solar power energy from the sun is converted into thermal or electrical energy which is the cleanest and most abundant renewable energy source. The U.S.A. has the richest solar sources in the world. Solar energy plays an important role in agricultural operations like drying food products, solar water and air heaters, solar cookers, irrigation, street lights and some home appliances. In Indian farms, the cutting operations are mainly performed by hand. Now a days, the use of mechanized cutting instruments, powered by fossil fuels can also been seen in some places. In hand cutting, the cutting of the crops consumes ample amount of time and labour charges, which is a drawback.
In mechanized cutting methods, the operating & fuel cost of the machine exceeds the budget of a common farmer. To overcome all these drawbacks, we can use renewable, Non-conventional energy source like solar energy as it is easily available in nature. An application of non-conventional, renewable energy source is the alternate solution for current energy demand. In this project solar energy is used which is non-conventional-renewable energy source which is freely available, to reduce the overall cost of the cutting operation. The mechanisms used are also simple. The machine is light weight & Compact. Most importantly, can be easily availed by the farmers.
Keywords
Solar Panel, Battery, DC Motor.References
- Fabrication and performance test of an Ultraportable Crop cutter, Mr. G Maruthi Prasad Yadav, GMD Javeed Basha IJRSET, vol. 2.
- Relationship between Stalk Shear Strength and Morphological Traits of Stalk Crops, by Li Liang and Yuming Guo.
- Farm power sources, their availability and future requirements to sustain agricultural production by N. S. L. Srivastava.
- State of Indian Agriculture 2012-13, Indian Government Analysis.
- Design and fabrication of small scale Sugarcane Harvesting Machine, Adarsh J Jain, Shashank Karne, Srinivas Ratod, Vinay N1 Toted and Karan ISSN 2278 – 0149. ijmerr, vol. 2, no. 3, July 2013
- Charecterisation of Aluminium Reinforced with Graphite MMC’S
Authors
1 Mechanical Engg, Sir M Visvesvaraya Institute of Technology, Bangalore, IN
2 School of Engineering, Presidency University, Itgalpura, Rajankunte, Bangalore, IN
Source
Manufacturing Technology Today, Vol 17, No 11 (2018), Pagination: 31-35Abstract
The global technical market’s demand trend for high strength, high performance, better quality, reduced cost and reduced weight materials has led to an emerging development in research and utilization of composite materials over conventional monolithic materials in various industrial applications. Aluminium –graphite composite has been developed by stir casting technique. Al-Graphite composites having 2%, 4%, 6%, 8% of pure aluminium is prepared. Tensile strength, Hardness test, Impact strength as a function of graphite performs and metal matrices have been determined. The tribological properties were varied significantly with addition of solid lubricant-graphite. The hardness test of composites is carried on Brinell hardness Tester and tensile strength is measured using a Universal testing machine and Charpy and Izod tests are conducted to find the impact energy. Around 15% increase is observed in the hardness of the composite compared to the hardness of pure aluminium and no significant increase is found in the impact energy of the composite, but more than 21% increase is found in the tensile strength of the composite.Keywords
Pure Aluminium, Graphite, Composites, Stir-Casting, Metal Matrices, Mechanical Properties.References
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- S. Sathishkumar. Fabrication and Analysis of Aluminum with Graphite Reinforcement Based Metal Matrix Composites. Journal of Mechanical Engineering Research and Developments. ISSN 1024-1752, vol 40, no. 3, 2017, 456-465
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- J.W. Kaczmar, K. Pietrzak, The production and application of metal matrix composite materials, Institute of Mechanical Engineering and Automation, Technical University of Wrocøaw, ul. Èukasiewicza Wroclaw, Poland Institute of Electronic Materials Technology, Journal of Materials Processing Technology, 2004.
- Mohamed A. Taha, Practicalization of cast metal matrix composites MMCCs, Department of Design and Production Engineering, Faculty of Engineering, Ain-Shams University, P.O. Box 8022, Massaken Nasr-City, Materials and Design, 2001