@srkrec.edu.in
Assistant Professor and Department of Civil Engineering
SRKR Engineering College
M.E Structural Engineering
Civil and Structural Engineering, Complementary and alternative medicine
Scopus Publications
Scholar Citations
Scholar h-index
M. Venkata Rao, R. Sivagamasundari, and T. Vamsi Nagaraju
Elsevier BV
T. V. Nagaraju, M. Venkata Rao, B. M. Sunil, and Babloo Chaudhary
Springer Nature Singapore
M. Mohan Gift, K. Raghuram, J.N.S. Suryanarayana Raju, D. Ravi, M. Venkata Rao, R. Subbiah and Makendran Chandrakasu
Raviteja Surakasi, A. Rajendra Prasad, Birajashis Pattnaik, M. Venkata Rao, G. Puthilibai, Chirag Vibhakar, and S. Rajkumar
Elsevier BV
Mohamad Reda A. Refaai, R. Meenakshi Reddy, Jayaprakash Venugopal, M. Venkata Rao, K. Vaidhegi, and Simon Yishak
Hindawi Limited
AA 8079 with variable percentages of peanut shell ash (PSA) was created by stir casting (2.5 percent, 5 percent, 7.5 percent, 10 percent, 12.5 percent, and 15 percent). Compared some of the physical and mechanical properties of the composite material were to the alloy matrix alloy (density; porosity percentage; hardness; wear index; tensile strength; and impact strength). Peanut shell ash reinforcements were found to be distributed uniformly throughout the Aluminum Matrix, with pockets of agglomerated reinforcement particles. The hardness, wear index, and density of the composite were enhanced by adding PSA particles. Compared to the matrix alloy without reinforcement, the composites had lower tensile and impact strengths. Mixture design with Design-Expert (Stat EASY) software package indicated the appropriate matrix and reinforcing combination proportions and how they influenced composites’ studied properties. Composites’ physical and mechanical properties were predicted and optimized using regression models created and the ideal mixture of matrix and reinforcement wt. According to optimization findings, the components for optimal composite characteristics’ responses are 93.48 and 6.52 percent of matrix and reinforcement wt% particles. They can utilize PSA-reinforced AA8079 core materials to make automotive components that need lighter, stackable, and wear-resistant.
K. Sargunan, M. Venkata Rao, A. Alex Rajesh, R. Babu, P. Prasanthni, K. Jagadeep, and Moti Lal Rinawa
Elsevier BV
M. Venkata Rao, R. Sivagamasundari, and A. Subrahmanyam Raju
Elsevier BV
Moti Lal Rinawa, Rajneesh Sharma, Prasad Ramchandra Baviskar, R. Sampathkumar, Radhika G Deshmukh, M. Venkata Rao, and Ram Subbiah
Elsevier BV
T. Vamsi Nagaraju, D. Neeraj Varma, and M. Venkata Rao
Springer Singapore