Your search keyword '"Raju Y. Kamala"' showing total 17 results

1. Comparative Synthesis of Copper Nanoparticles Using Various Reduction Methods: Size Control, Stability, and Environmental Considerations

Author

Aleksandrovskiy Maxim, Raju Y. Kamala, Vempada Srinivasa Reddy, Joshi Ankita, Singh Dhiraj, Bhalla Lalit, Singh Amanveer, and Mohan Chander

Subjects

cu nanoparticles, synthesis, characterization, applications, properties, Environmental sciences, GE1-350

Abstract

The present work investigates three strategies for the production of copper nanoparticles (CuNPs): sodium borohydride reduction, ascorbic acid reduction, and reduction without reducing agent. Analyzed were the size distribution, stability, and ecological sustainability potential of the produced nanoparticles. The sodium borohydride reduction method yielded the most uniform and diminutive nanoparticles, with an average diameter of 8 ± 2 nm. This characteristic made it the optimal selection for applications necessitating meticulous control of dimensions, such as in the fields of electronics and catalysis. Although the reduction of ascorbic acid resulted in the formation of considerably bigger nanoparticles measuring 15 ± 5 nm, it provided a much more environmentally friendly manufacturing approach that was well-suited for biological applications. Although the experiments showed that stabilizers might be advantageous in lowering copper ions, the technique without a reducing agent produced the biggest and least consistent nanoparticles, measuring 25 ± 8 nm. The results indicate that modulating the size of nanoparticles incurs both advantages and disadvantages. Among the options considered, sodium borohydride offers the most consistent size distribution, although ascorbic acid is the most environmentally friendly. For the purpose of enhancing particle stability and improving nanoparticle production, future study should investigate more environmentally friendly reducing agents and optimize reaction parameters.

Published

2024

2. Analytical Review on Enhancing Sustainability in microsystems by Integrating MEMS for Compact Design

Author

Vyas Sarvesh, Alhussainy Ali K., Raju Y. Kamala, Manjunatha, Pratap Srivastava Arun, Jain Alok, and Vijetha T.

Subjects

electron beam melting, selective laser melting, microstructure, sustainability, environmental impact, Environmental sciences, GE1-350

Abstract

By combining silicon-based microelectronics with micromachining technology, microelectromechanical systems (MEMS) have been identified as one of the most promising technologies for the 21st Century. With its microsystem-based devices and technologies, it will have a dramatic impact on the way we live and the way we live our lives. With an emphasis on both commercial applications and device fabrication methods, the paper provides an introduction to the field of MEMS. As well as discussing the range of MEMS sensors and actuators, the phenomena that MEMS devices can sense and act upon, and the major challenges facing the industry, the presentation discusses the challenges faced by the MEMS industry. An introduction to the field of MEMS is presented in this paper, which is divided into four sections. A section on MEMS introduces the reader to its definitions, history, current applications, and miniaturization-related issues. Photolithography, bulk micromachining, surface micromachining, and high-aspect-ratio micromachining are among the fundamental fabrication methods discussed in the second section, as well as assembly, system integration, and packaging of MEMS devices. A brief description of the basic principles of sensing and actuation mechanisms is provided in the third section, which discusses the range of MEMS sensors and actuators, as well as the phenomena that can be sensed or acted upon with MEMS devices. Toward the commercialization and success of MEMS, the final section illustrates the challenges facing the industry.

Published

2024

3. Effect of joint rigidity on structural behavior of RC buildings

Author

Spandana Kurelly, Raju Y. Kamala, Satyanarayana G V V, and Manchalwar Atulkumar

Subjects

Environmental sciences, GE1-350

Abstract

Non-linear static analysis or pushover analysis is now-a –days generally preferred by many researchers to analyse the non-linear behaviour of the structure. Present study includes the effect of joint rigidity on the behaviour of the structure. A building is modeled with 5 and 10 story and designed for gravity and earthquake resistant loads by considering joint rigidity factor as 0 and 1. The analysis is done in both X and Y directions by using pushover analysis in SAP2000 software. Comparison is made between then capacity curves obtained from designed models of rigidity and non-rigidity models. From the results it is concluded that structure designed using joint rigidity has more strength when compared non-rigid joints.

Published

2021

4. Experimental Investigation on Design of Thickness for Flexible Pavement Subgrade Soils using CBR Approach

Author

Raju Y. Kamala and Kumar C. Vivek

Subjects

Environmental sciences, GE1-350

Abstract

This paper aim’s to ensure that the transmitted stresses due to wheel load are adequately reduced, so that they will not exceed bearing capacity of the sub- grade. This present study deals with the design thickness of flexible pavements, where majority of the Indian roads are flexible pavements having bituminous layer. Earlier, due to the scarcity of cement and India went for flexible pavements with bituminous toppings. This flexible pavement is preferred over cement concrete roads as they have a great advantage that these can be strengthened and improved in stages with the growth of traffic. With a major advantage of this roads and their surfaces milled and recycled for rehabilitation. The flexible pavements are less expensive also about initial investment and maintenance. In this present study, the flexible pavement thickness is designed for both sub grade soils as per IRC:37-2001 code and its pavement thickness is calculated by California Bearing Ratio (CBR)method.

Published

2020

5. RCC Highrised Residential Buildings its Influence on Earthquake Loads

Author

Raju Y. Kamala, Satyanarayana G.V.V., and Sai G. Arun

Subjects

Environmental sciences, GE1-350

Abstract

The present decade, high rise multi-storey buildings are subjected to many external effects such as earthquake, wind loads, tidal loads, etc., in most cases high rise buildings have more vulnerable to earthquake and wind loads. Most of the reinforced concrete multi-storeyed frame buildings were heavily damaged and many of them completely collapsed during due earthquakes. RC frame buildings were severely damaged due to various deficiencies when proper codal provisions are not designed. A study is need to study the behaviour of the RC framed structure under earthquake load to reduce the damage caused by earthquake forces In this investigation a RC framed building of G+20 storeyed is considered in several seismic zones under different soils as per Indian Standard code IS 1893(part1):2016, using STAAD. Pro V8i as software tool. Finally evaluate the ultimate Base shear using Equivalent static method and Response spectrum method addressing under design forces.

Published

2020

6. Evaluation of Groundwater Quality Of Bachupally, Nizampet And Pragathinagar Village

Author

Venkatcharyulu S., Ravinder Rathod, and Raju Y. Kamala

Subjects

Environmental sciences, GE1-350

Abstract

Water is an important nature gift for the human life hence study of drinking water quality is essential requirement in the residential area. In this paper study area has latitudes and longitudes of Bachupally 17.5151N and 78.3855E, Nizampet17.5513N and 78.3855E, Pragathinagar 17.5186N and78 3963E it is integral part of the Hyderabad situated in the Telangana state , India . Study area contain mixed type of habitants such as agricultural developing formers, pharma- industries employs and general living official and business people. Since the land occupied by the several type peoples activities there are many problems with ground water resources and surface water contamination. Its require to test the water quality(WQ) In the study area to know the more extent of quality problems. WQ test has conducted for the Alkalinity, PH, hardness of water, and turbidity etc. water quality helps , The local authorities to solve the certain problems in the region and adopt the certain methods to solve the problems. Samples are collected from the Various places from the Nizampet , Bachupallly and Pragathinagar regions. Around 27 number of ground water samples (GWS) are collected and all of them selected for the analysis. Experiments are conducted for the each sample and obtain the result. It is compared with the standard values.The result obtained from the various ranges of chlorides, nitrates, total dissolved solids,, conductivity values , pH For the different areas of study region are clearly mentioned in the result discussion session. The water quality for the Various places from the Nizampet , Bachuplly and Pragathinagar clearly discussed in the results. finally remedial measures to be adopted for the improvement of the quality of water.

Published

2020

7. Properties of concrete by partial replacement of cement by using sawdust and eggshell powder material Metakaolin.

Author

Chary, M. Rathna, Prasad, Garapati Venkat Sai, Raju, Y. Kamala, and Saini, Manisha

Subjects

EGGSHELLS, CONSTRUCTION materials, CEMENT, WOOD waste, CONCRETE, WASTE products

Abstract

Now a days Concrete is used as a construction material and it is available easy.it has some properties like strength, tensile, durability, etc. Sawdust and eggshell powder used as a natural material and it will reduce the cost of construction materials. Sawdust and eggshell powders are one mostly available waste materials on the earth, so we are using these waste materials as useful construction materials and we also improving the strength of concrete. Eggshell powder consist of high calcium percentage compared normal cement and sawdust is very low in weight but it has given the same strength like cement. We brought the eggshell powder and sawdust from my nearest area and we replaced cement weights with 5%, 10%and15%. We added 5% of eggshell powder and 5% of sawdust for 10% weight of cement, 10% of eggshell powder and 10%sawdust for 20% weight of cement, 15% of eggshell powder and 15% of sawdust for 30% weight of cement. The compression strength results by replacing 10% of cement has got 20.9N/mm2,by replacing 20%of cement as got 20.3N/mm2, by replacing 30% of cement as got 18.2N/mm2. We also done tensile strengths for cylindrical concretes and we got 3.2 N/mm2 by replacing 10% weight of cement and 3.5N/mm2 for 20% weight of cement and 2.4N/mm2 for 30% weight of cement. As per the reports 10% and 20% replacements given better strength compared to cement concrete. [ABSTRACT FROM AUTHOR]

Published

2024

8. Experimental investigation on mix design of foam concrete to fix ingredients for various densities.

Author

Khanna, Aduvala Rajesh, Satyanarayana, G. V. V., Raju, Y. Kamala, and Ramanjaneyulu, N.

Subjects

FOAM, CONCRETE construction industry, CONCRETE, RAW materials, CONSTRUCTION costs

Abstract

The present paper evolves the need of foam concrete in the construction industry. Day to day construction activities are increased in many folds also evolving, as a result, the need for raw materials is increasing. To meet this situation, all researchers and industry people developing new variety concretes. In these consequences, foam concrete is one solution to reduce the overall cost of construction on one hand and other hand reduces the self-weight of construction. The primary goal is to determine the required densities of foam concrete. [ABSTRACT FROM AUTHOR]

Published

2023

9. Application of Multiple Linear Regression Models and Adaptive Neuro-Fuzzy Inference System Models to estimate the Compressive Strength of Concrete

Author

Hussain, Mohammed, primary, Raju, Y Kamala, additional, and V Kamakshi, Prasad, additional

Published

2021

10. Impact of baseshear on various soils in high rise multi storied residential building

Author

Sai, G. Arun, primary, Raju, Y. Kamala, additional, and Satyanarayana, G. V. V., additional

Published

2021

11. Comparison of methods of prediction of compressive strength of concrete using multiple linear regression in microsoft excel and artificial neural networks in RStudio

Author

Hussain, Mohammed, primary, Yedukondalu, G., additional, Raju, Y. Kamala, additional, and Prasad, V. Kamakshi, additional

Published

2021

12. Impact of baseshear on various soils in high rise multi storied residential building.

Author

Sai, G. Arun, Raju, Y. Kamala, and Satyanarayana, G. V. V.

Subjects

*GAS cylinders, *LATERAL loads, *ATOMIC bomb, *WIND pressure, *EARTHQUAKE zones

Abstract

In modern developing countries there is need of high rise multi storey buildings to satisfy the needs of the newly arriving organization as well as the population migrating to the developing areas for employability. The high rise structures are vulnerable to lateral forces such as earthquake forces, wind forces, forces due explosions like atomic bombs, gas cylinders etc. considering the previous accidents among the above mentioned forces major percentage of damage is caused by earthquake forces, to ensure the safety, and comfort of the residents, the structure should be able to withstand against these forces without severe damage, without collapsing or should give prior time to evacuate the building so that the damage caused by the hazard can be prevented or reduced, In order to design the buildings that can withstand these hazards there a need to study the behaviour of the structure due to the earthquake forces. To gain proper understanding over the earthquake loads the considered structure is analyzed with respect to the seismic zones as per the Indian Standard in different types of soils (hard, medium, soft soils) [ABSTRACT FROM AUTHOR]

Published

2020

13. Comparison of methods of prediction of compressive strength of concrete using multiple linear regression in microsoft excel and artificial neural networks in RStudio.

Author

Hussain, Mohammed, Yedukondalu, G., Raju, Y. Kamala, and Prasad, V. Kamakshi

Subjects

ARTIFICIAL neural networks, COMPRESSIVE strength, CONCRETE, SUSTAINABLE consumption, MORTAR, FLY ash

Abstract

Compressive strength (CS) of concrete is a key quality factor that is being monitored continuously in all construction projects which use huge quantity of concrete throughout the world. Engineers need to be open minded with the attitude of lifelonglearning to upskill with the ever-evolving softwareand hardware technologies. Seven day and twenty-eight-day compressive strengths of concrete samples with varied amounts of cement, blast furnace slag, fly ash, water, super plasticizer, coarse aggregate, and fine aggregate are studied. Multiple Linear Regression (MLR) models are fitted for this data in Microsoft Excel. Artificial Neural Networks (ANNs) in RStudio are developed for this data. The performances of both methods are compared. This paper takes care of Goal 12 of United Nations Sustainable Development of ensuring sustainable consumption and production patterns as environmentally degrading materials (flyash and blast furnace slag) are used. [ABSTRACT FROM AUTHOR]

Published

2020

14. Evaluation of Groundwater Quality Of Bachupally, Nizampet And Pragathinagar Village.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Venkatcharyulu, S., Ravinder, Rathod, and Raju, Y. Kamala

Published

2020

15. RCC Highrised Residential Buildings its Influence on Earthquake Loads.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Raju, Y. Kamala, Satyanarayana, G.V.V., and Sai, G. Arun

Published

2020

16. Strength Performance of Crumb Rubber Concrete

Author

Raju, Y. Kamala, primary

Published

2019

17. Experimental Investigation on Design of Thickness for Flexible Pavement Subgrade Soils using CBR Approach.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Raju, Y. Kamala, and Kumar, C. Vivek

Published

2020