Abstract
Bar twisting technique is needed for stirrup creating action, stirrup or equivalent tie is one in all the requisite part of rock-hard cement concrete that’s utilized for strengthening columns and beams. In the Asian country, these stirrups are made directly which causes a lot of physical strain on workers. This investigation work legitimizes the look of the investigational process to be dead for assessment of an estimated general mathematical model for assessment of resistive torque for the stirrup making operation. The collected data was formulated by utilizing the conventional method of the theory of experimentation. It conjointly incorporates the formulation of the arithmetical model and its sensitivity examination, desirableness, change, and ANN simulation.
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References
Vanalkar, A.V., et al.: Ergonomic studies of stirrup making processing view of productivity benefit. Ind. Eng. J. 5(9), 36–43 (2012)
Vanalkar A.V., et al.: Design, development and fabrication of stirrup making machine. In: Proceeding, 9th National Conference on Machine and Mechanism, Mumbai, pp. 341–352 (1999)
Strakeret, L.M., et al.: The effect of shoulder posture on performance, discomfort and muscle fatigue whilst working on a visual display unit. Int. J. Ind. Ergon. 1(1), 1–70 (1997)
Tanaka, S., et al.: A conceptual quantitative model for prevention of work related carpal tunnel syndrome. Int. J. Ind. Ergon. 181–193 (1993)
Modak, J.P.: Specialized course on research methodology in engineering, Nagpur (2010)
Undirwade, S.K., et al.: Formulation of mathematical model for processing time required for bamboo sliver cutting using HPFM. Mater. Today: Proc. 10174–10178 (2017)
Schenck, H.: Theory of Engineering Experimentation. McGraw Hill, New York, USA (1978)
Sakhale, C.N., et al.: Formulation and comparison of experimental based mathematical model with artificial neural network simulation and RSM (Response Surface Methodology) model for optimal performance of sliver cutting operation of bamboo. Procedia Mater. Sci. 877–891 (2014)
Sakhale, C.N., et al.: Design of experimentation and application of methodology of engineering experimentation to investigation of processing torque, energy and time required in bamboo processing operations. Int. J. Bamboo Rat. 9(1), 13–27 (2011). Jbr 284
Sivanandam, S.N., et al.: Introduction to Neural Networks using MATLAB 6.0. Tata McGraw Hill, New Delhi, India (2006)
Acknowledgements
This work has received the grant of Rs. 10,70,000/- under RPS (Research Promotion Scheme) from AICTE, New Delhi under the guidance of Dr. M. P. Singh as a “Principal Investigator” and Dr. C. N. Sakhale as a “Co-Principal Investigator”. Priyadarshini College of Engineering Nagpur.
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Waghmare, S.N., Sakhale, C.N., Tembhurkar, C.K., Shelare, S.D. (2020). Assessment of Average Resistive Torque for Human-Powered Stirrup Making Process. In: Iyer, B., Deshpande, P., Sharma, S., Shiurkar, U. (eds) Computing in Engineering and Technology. Advances in Intelligent Systems and Computing, vol 1025. Springer, Singapore. https://doi.org/10.1007/978-981-32-9515-5_79
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DOI: https://doi.org/10.1007/978-981-32-9515-5_79
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