Your search keyword '"Reddy, V. Srinivasa"' showing total 106 results

1. Evaluation of Flexure Performance of Beam Hybridized with PVA Fiber and GFRP Bars

Author

Hussain, Mohammed Yasir, Hemalatha, K., Reddy, V. Srinivasa, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Pathak, Krishna Kant, editor, Bandara, J. M. S. J., editor, and Agrawal, Ramakant, editor

Published

2024

2. Evaluation of Flexure Performance of Beam Hybridized with PVA Fiber and GFRP Bars

Author

Hussain, Mohammed Yasir, primary, Hemalatha, K., additional, and Reddy, V. Srinivasa, additional

Published

2023

3. Stress-strain behaviour of unconfined and confined hybrid glass/steel fibre self-compacting concrete

Author

Rao A. Rama Krishna, Ruben N., Reddy V. Srinivasa, Sai Y. Rama Gnanendra, Rao M.V. Seshagiri, Kadhim Sokaina Issa, and Sharma Meera

Subjects

self-compacting concrete, hybrid fibre reinforced, stress-strain, lateral confinement, modelling, Environmental sciences, GE1-350

Abstract

An experimental study was conducted to investigate the effectiveness of transverse reinforcing bars of self-compacting concrete mix (PSCC) and hybrid glass fiber reinforced self-compacting concrete mix (HFRSCC) grade M 40 under monotonically increasing axial compression. was performed for cylinders enclosed in . The behavior of SCC cylinders surrounded by a circular ring and having different volume ratios and clearances was compared under axial compression. In this work, we present a mathematical model developed to predict the stress-strain behavior of SCC and FRSCC under constrained and unconstrained conditions and validate the model using experimental results. To develop SCC, Nan Su blending method based on filling rate 1.12 and 1.14, S/A ratio 0.50 and 0.57 is applied. The steel and glass fiber usage in the hybrid fiber reinforced SCC mixture is assumed to be 1% and 0.05% of the concrete volume respectively. M 40 grade plain self-compacting concrete mixes (PSCC) and hybrid glass/steel fiber reinforced self-compacting concrete mixes (HFRSCC) constrained to different volume ratios, stresses, strains, elastic moduli, plasticity ratios, ductility ratios, and unlimited strength ratios ) has been evaluated experimentally. The following conclusions can be drawn from the stress-strain diagram: 1) Maximum load-bearing capacity and strain at peak stress are higher for his HFRSCC than for PSCC. 2) The presence of steel and fiberglass increases the strength bearing capacity and allows it to withstand greater loads at peak loads. 3) If the containment is in the form of a lateral ring boundary, the effect of fibers is almost negligible. This clearly shows that HFRSCC has a stronger containment effect compared to his PSCC. The strength confinement factor is lower for HFRSCC, suggesting that HFRSCC offers a superior confinement factor compared with his PSCC.

Published

2023

4. Optimization of solids composition in ferrock mortar

Author

Feroz Shaik, Krishna P.V.V.S.S.R., Satyanarayana G.V.V., Reddy V. Srinivasa, Alawadi Ahmed Hussien Raide, and Pathak Abhishek Kumar

Subjects

iron carbonation, ferrock, carbonation, structural binder, durable, Environmental sciences, GE1-350

Abstract

Ferrock is the commercial name given by the Dr Stone working with university of Arizona which holds the patent on this novel material. This is an alternative material developed for structural applications in place of concrete. In this paper, ferrock mortar is prepared with various solids such as iron powder, iron dust, cement and fly ash to establish the optimum combinations of solids for preparing the high strength ferrock systems. Iron dust in the form of powder (size less than 90 microns) and fine aggregate (size between 150 microns to 2.36mm) is used in the study to develop the iron carbonate matrix which is major binding material in ferrock. For the process of iron carbonation, carbon dioxide is prepared from the chemical reaction of sodium bicarbonate and acetic acid. Iron dust cubes are carbonated to form iron carbonation matrix upon fusion. This material has very high strength than the references cement mortar samples.

Published

2023

5. Lateral response of pile due to combined load under free and fixed conditions

Author

Rahul Chiluka, Saahas Polisetty, Reddy V. Srinivasa, Alawadi G. Jyothi Kumari, and Raide Ahmed Hussien

Subjects

Environmental sciences, GE1-350

Abstract

Pile foundations are used to support both vertical and horizontal loads in many geotechnical projects, such as coastal and offshore engineering. In this project, the Finite Difference Method is proposed to solve the differential equation governing the lateral and axial pile response. Initially, the behaviour of the pile subjected to lateral load will be analysed. The effect of various parameters like pile head fixity, the cohesion of surrounding soil, pile diameter, and length of the pile on lateral pile response will be analysed. Finally with these conditions, the deflections profile of the pile subjected to both lateral and axial load is investigated. By using python code we can easily find out the increase in diameter of pile, cohesion of surrounding soil effect on pile head and effect of increase in combined load will be studied. The above stated parameters will be studied for combined loading also under the free and fixed head conditions.

Published

2023

6. Planning, scheduling, & allocation of resources for short-span bridge using Primavera P6

Author

Gopal Bandi Sri Ram, Reddy V. Srinivasa, Rao M.V. Seshagri, Sujatha Thirumala, Alawadi Ahmed Hussien Raide, and Anthwal Tushar

Subjects

Environmental sciences, GE1-350

Abstract

The paper states the advantages of web-based Primavera P6 for structural planning and scheduling Bridge building framing the problems and difficulties experienced in the construction schedule and resource availability. Only Bridge Design and Plannings taken for the project consideration. After the detail creation of Bill of Quantities of the proposed bridge. Here the Bridge consists of four spans only. Each Span is of 10.4 m length. Bridge is located at Yellareddy Tank Bund Portion, Nizamabad district (Hyderabad-Medak-Bodhan). The Resource Planning is the creation of Organization Breakdown Schedule (OBS) and Enterprise Project Structure (EPS) of the project and also to create Work Breakdown Schedule (WBS) and to insert the corresponding activities and schedule them on the basis of created calendar and need to level/smoothen the resources and make effective use of them. Organization Breakdown Schedule (OBS) and Enterprise Project Structure (EPS) of the project has been created Work Breakdown Schedule (WBS) and the corresponding activities are created and need to schedule their resources to activities on the basis of created calendar and need to level/smoothen the resources. Resource Scheduling involves the Scheduling of Project and Activity Network Diagram. Resource allocation enables you to allocate equipment, labor, and material expenditures to your timetable. The reports in Primavera P6 may be used to track resource allocation and potential over-allocation of labor resources.

Published

2023

7. Performance of hybrid glass/steel fibre self-compacting concrete beams under static flexural loading

Author

Reddy V. Srinivasa, Santhosh G., Neeraj M. Sai, Goud E. Manish, Rajashekar C., Kadhim Sokaina Issa, and Dhyani Saurabh

Subjects

scc, glass fibre, steel fibre, flexural strength, gfrb rebars, hybrid fibre, Environmental sciences, GE1-350

Abstract

In this paper, it is proposed to study the static flexural performance of hybrid (glass and steel) fiber reinforced M30 grade self-compacting concrete (SCC) beams made with glass fiber reinforcement polymer (GFRP) re-bars. Nan Su mix design approach is adopted to develop the M30 grade plain SCC (PSCC) mixes. Glass fibre SCC (GFRSCC), steel fibre SCC (GFRSCC) and hybrid fibre SCC (HFRSCC) mixes are prepared using the optimum dosages of glass (0.05%) and steel fibres (1%) by volume fraction. HFRSCC reinforced beams of size 1200 *200*150 mm will be casted with steel and GFRB rebars and tested to study the flexural properties such as ultimate flexural strength, load at first crack, deflection at the center, crack width and crack patterns. For the above fibred beams, load-deflection relations will be established. The HFRSCC beam made with GFRP rebars have the load carrying capacity 37.03% more than HFRSCC beam made with steel rebars. The deflection for the HFRSCC beam made with GFRP rebars is 61.52% more than beam made with steel rebar HFRSCC beam made with GFRP rebars increases the load at first crack, ultimate flexural strength, and deflection at the centre at failure and the crack width for same HFRSCC beam made with steel rebars

Published

2023

8. The effect of elevated temperature on self-compacting concrete: Physical and mechanical properties

Author

Madhavi Challa, Reddy V. Srinivasa, Rao M.V. Seshagiri, Shrihari S., Kadhim Sokaina Issa, and Sharma Sonal

Subjects

elevated temperatures, self-compacting concrete, scc, thermal properties, muffle furnace, Environmental sciences, GE1-350

Abstract

Concrete’s thermal properties are more complex than for most materials because not only is the concrete a composite material whose constituents have different properties, but its properties also depend on moisture and porosity. Exposure of concrete to elevated temperature affects its mechanical and physical properties. In the current study, M40 and M80 grades of plain self-compacting concrete (SCC) mixes are developed using Nan Su mix design principles to investigate the effect of elevated temperatures on 1) weight and compressive strength 2) compressive strength of SCC when tested cool and hot 3) effect of 2, 4 and 6 hrs. exposure duration of elevated temperatures on compressive strength 4) modulus of elasticity 5) size of testing specimen and 5) effect of thermal cycles on SCC mixes. Results derived the following conclusions 1) the M80 specimens lose more strength than M40 SCC specimens when subjected to elevated temperatures ;2) specimens heated and then permitted to cool before testing lose more strength than those tested while hot; 3) the longer the duration of heating before testing, the larger the loss in strength; 4) The decrease in modulus of elasticity caused by elevated-temperature exposure is more pronounced than the decrease in compressive strength. 5) Small test specimens generally incur greater strength losses than larger ones and 6) Specimens subjected to several cycles of heating and cooling lose more strength than those not subjected to thermal cycling.

Published

2023

9. Effect of particle size of colloidal nano-silica on the properties of the SCM based concrete

Author

Kumar Kakara S.J., Rao M.V. Seshagiri, Reddy V. Srinivasa, Shrihari S., and Hugar Prashant

Subjects

colloidal nanosilica, micro silica, silica fume, flocculation, agglomeration, Environmental sciences, GE1-350

Abstract

In the current study, effect of particle size of colloidal nano-silica on the properties of the SCM based concrete is studied. The nano-silica particle sizes adopted for the study are 30nm, 60nm and 90 nm. The M20 grade concrete system is made up of cement (C), fly ash (FA), micro-silica (mS) and nano-silica (nS). Compressive strength test at 60 days and pore structure analysis are carried out for C-FA-mS-nS system. The hydration of Portland cement is significantly influenced by the colloidal nanosilica (CNS) particle size. High doses of nS content boost the pozzolanic reaction and the creation of CSH and CASH gels, but they also have a negative impact on the strength development of the material by increasing microcracking due to the self-desiccation effect. The addition of nanosilica to concrete can significantly enhance its qualities after hardening because it ensures the pozzolanic reaction, the seeding effect, which both increase the degree of hydration, and the filling effect, which can fill the internal porosity defects. The cement-mS system's impermeability was greatly improved by the nS because it improved the microstructure, increased the complexity of the pore structure, and refined the pore structure.

Published

2023

10. Design of concrete beam reinforced with GFRP bars as per ACI codal provisions

Author

Reddy R. Venkata Suraj, Reddy V. Srinivasa, Rao M.V. Seshagiri, Shrihari S., Kadhim Sokaina Issa, and Awasthi Monisha

Subjects

fibre-reinforced polymer (frp), glass fibre reinforced polymer (gfrp), anisotropic, compression-controlled, flexural behaviou, Environmental sciences, GE1-350

Abstract

This document provides design principles for concrete beams reinforced with glass fiber reinforced polymer (GFRP) bars per the ACI 440.1R-15 regulation. One of the main advantages of using glass fiber reinforced polymer rods instead of traditional steel reinforced rods is their lighter weight and higher corrosion resistance. However, the bending failure mode of FRP reinforced concrete (FRP-RC) beams is brittle rather than ductile because the elasticity of fiber reinforced polymer (FRP) bars is linear until failure and the elongation at break is small. For FRP-RC elements, concrete crushing compression failure, which gives various warnings before failure, is the preferred failure mode. In other words, unlike the usual design practice for reinforced concrete (steel-RC) beams, for FRP-RC beams, an over-reinforced structure is preferable to an under-reinforced structure. In addition, since the FRP RC member has low rigidity of the FRP rod, it bends more and cracks larger than the steel RC member. These factors limit the field of application of FRP. Here is a design example of a rectangular beam with tension reinforcement according to ACI regulations.

Published

2023

11. Resource Allocation, Scheduling and Planning of a Multi Storeyed Residential Building

Author

Harshavardhan Thota, Reddy V. Srinivasa, Vardhani P.S.R.P.S.S.S., Shrihari S, Alawadi Ahmed Hussien Raide, and Sharma Sameer Dev

Subjects

Environmental sciences, GE1-350

Abstract

For the purpose of minimising and managing project delays, effective planning and scheduling are essential elements of construction projects. Globalisation has led to an increase in the scale and complexity of construction projects. With the help of project management software, the quantity of paperwork and time required for such initiatives can be reduced. A warning system must be accessible throughout the project to alert the organisation to potential achievements and failures. Today's market offers a variety of computer software applications for project management, including MSP, Primavera P6, and others. Primavera has made it simple to assess the real progress of a construction project to the expected pace of the task. The project management tool Primavera P6 gathers, documents, monitors, regulates, and publishes data on project performance. Planning, allocating, and scheduling resources for a G+4 residential development are all part of this project. This study highlights the value of scheduling and interferes with the software by working on a construction project for a commercial building. This paper effectively demonstrates all the crucial steps, such as generating an EPS, developing a WBS, connecting tasks in accordance with their dependency and resource availability, and determining the Critical Path.

Published

2023

12. Stress - strain behaviour of confined nano silica-based concrete

Author

Kumar Kakara S J, Rao M V Seshagiri, Reddy V Srinivasa, and Shrihari S

Subjects

Environmental sciences, GE1-350

Abstract

In the present study, the stress-stain behaviour of confined concrete made with nano-silica (nano-SiO2) were taken up. The stress-strain behaviour was studied for the M30 and M50 grades nano-silica (nano-SiO2) concrete mixes confined with steel rebars. The confinement was given in the form of steel hoops in the cylinders, 3 hoops (0.8%), 4 hoops (1.1%), 5 hoops (1.3%) and 6 hoops (1.6%). The addition of nano-silica (nano-SiO2) along with confinement of concrete with steel hoops enhanced the compressive strength, indicating further confinement effect in the concrete. It is observed that the addition of nano-silica (nano-SiO2) is helpful in lower confinements only. Beyond 1.1% confinement, doesn’t show any effect on compressive strengths. From the stress-strain behaviour of all types of concrete mixes, it is concluded that the ultimate load-carrying capacity and strains at peak stresses are more in nano-silica (nano-SiO2) concrete with steel hoops for mixes up to 1.1% confinement. The addition of nano-silica (nano-SiO2) to concrete has increased the ductility in both confined and unconfined states

Published

2021

13. Corrosion resistance studies on the concrete made with basalt fibres and basalt fibre reinforced rebars

Author

Goud E Giri Prasad, Kannimuthu Marimuthu, Reddy V Srinivasa, and Saikrishna V

Subjects

Environmental sciences, GE1-350

Abstract

In the present work, assessment of corrosion resistance for M30 grade concrete made with basalt fibres in terms of Resistivity, Potentials and Chloride ion diffusion is made to understand the corrosion resistance studies of concrete specimen made with basalt fibre and BFRP bars. The time of total charge passing till full crack failure for different effective covers considered is more for M30 grade concrete beams made with basalt fibres and BFRP rebars. The time of total charge passing at failure in M30 grade concrete beams made with basalt fibres and BFRP rebars is more because beam specimens did not develop any fissures or micro cracks. Measured electrical resistivity values of M30 grade concrete beams made with basalt fibres have shown high electrical resistance indicating their superior corrosion inhibition ability. M30 grade concrete beams made with basalt fibres and BFRP rebars used for the study exhibited very less probability (less than 5% probability) for corrosion at 28 days.

Published

2021

14. Flexural behaviour of hybrid reinforced concrete beams using FRP bars - A critical review.

Author

Hemalatha, K., Reddy, V. Srinivasa, Ajay, J., and Rajasekhar, C.

Subjects

*CONCRETE beams, *REINFORCING bars, *STEEL corrosion, *FAILURE mode & effects analysis, *CARBON dioxide, *REINFORCED concrete corrosion

Abstract

In general, Reinforced Concrete structures exposed to much vulnerable climate leads to corrosion of the steel reinforcement, which results the huge loss of durability, serviceability. Carbonation or chlorides are the reasons of corrosion in reinforcement of steel. Carbonation is the reaction of carbon dioxide in the air with calcium in the concrete. Hence, Fibre Reinforced Polymer rebars which is resistant to corrosion can be replaced with steel reinforcement. So, from the past decade, many researchers are studying the usage of FRP rebars as they are anti-corrosive, high tensile strength, non-magnetic, lightweight, high temperature resistant, low maintenance, and durable. The FRP rebar has the disadvantage of possessing the low ductility and it is not able to bend in required shape. Hence, the hybrid reinforcement is introduced in the concrete structures to enhance the ductility and corrosion requirements. This paper will give brief review on specific application of FRP bar in terms of cost effectiveness, ductility, load carrying capacity and failure modes. [ABSTRACT FROM AUTHOR]

Published

2023

15. Recycle aggregate concrete for structural applications: Pre-treatment methods of recycled coarse aggregate.

Author

Reddy, V. Srinivasa, Shireesha, Madhikuntla, Rao, M. V. Seshagiri, Kumar, B. Narendra, and Shrihari, S.

Subjects

*REINFORCED concrete, *SOIL structure, *CONCRETE durability, *COMPRESSIVE strength, *CONCRETE, *LIGHTWEIGHT concrete, *SELF-healing materials

Abstract

In this study the recycled coarse aggregate (RCA) obtained from a single source was used and the compressive strength was found to be 25 MPa before demolition. Raw recycled coarse aggregate is hand-picked from the demolished concrete rubble. Recycled coarse aggregate has old cement mortar attached to its surface so when reused in concrete, this loose old cement mortar is removed from the surface making the concrete perform poor in strength and durability. So before using in concrete, recycled coarse aggregate is being treated in various ways to enhance its strength and durability properties in concrete. In the current study, various pre-treatments methods such as Mechanical treatment (Autogenous cleaning), Thermal – mechanical method, Pre–soaking in water (Pre-Saturation), Pre-soaking in acid, Two-stage mixing approach (TSMA), Three step method, Self-healing method, Mineral admixture solution, Polymer emulsion, Microbially induced calcite precipitation and Carbonation are tested for their suitability and few recommendations are made. [ABSTRACT FROM AUTHOR]

Published

2023

16. Durability properties of treated recycled coarse aggregate concrete.

Author

Kalyan, Jadav Pavan, Reddy, V. Srinivasa, Rao, M. V. Seshagiri, Kumar, B. Narendra, and Shrihari, S.

Subjects

*RECYCLED concrete aggregates, *DURABILITY, *RAW materials, *WASTE products as building materials

Abstract

The durability characteristics of treated recycled coarse aggregate concrete are presented in this paper. When recycled coarse aggregate is reused in concrete, the old cement mortar connected to its surface is removed, causing the concrete to perform poorly in terms of strength and durability. So, before being used in concrete, recycled coarse aggregate is treated in a variety of ways to improve its strength and durability. In this paper various physical, chemical, mechanical and durability properties of recycled aggregate concrete are discussed. When comparing the qualities of concrete formed with 20-30% recycled coarse particles to those of normal concrete, there is no notable difference. Concretes with 50% to 100% recycled aggregates show a lower increase in compression strength from 7 to 28 days than conventional concrete containing solely raw materials. The HCl acid soaking treatment eliminated a considerable amount of mortar content, resulting in a significant increase in the characteristics of treated recycled coarse aggregate (TRCA). [ABSTRACT FROM AUTHOR]

Published

2023

17. Evaluation of flexural capacity of hybrid reinforced concrete beams made with fiber reinforced polymer rebars.

Author

Krishna, Kotte Sai, Hemalatha, K., Reddy, V. Srinivasa, and Goud, E. Giri Prasad

Subjects

CONCRETE beams, REINFORCING bars, STEEL bars, FIBERS, STRAINS & stresses (Mechanics)

Abstract

The building industry's ever-changing dynamics have resulted in the introduction of new materials from time to time. Glass fiber reinforced polymer (GFRP) bars are gradually replacing traditional steel bars in RCC work. The traditional structures are much affected with corrosion which reduces the long-term performance in terms of flexural capacity and hence FRP (fiber reinforced polymer) are introduced in the study as they are lightweight, high tensile strength, nonmagnetic. The most disadvantage of the FRP bar is the Brittleness. Hence Hybrid reinforcement is induced to improve flexural performance and ductility. This project work was studied on a different type of FRP bars, their mechanical properties, and effectiveness. Hence from the study, it is known that GFRP is the most effective in terms of cost and performance. The adaptability of GRRP, which has a higher strength-to-weight ratio, corrosion resistance, durability, and stiffness than traditional steel bars, is responsible for this significant shift in construction practice. However, because GFRP is prone to rapid and brittle failure due to its linear stress-strain behavior, reinforcing fibers are utilized in combination to offer structural safety. [ABSTRACT FROM AUTHOR]

Published

2023

18. Effect on flexure properties of beam on hybridisation by glass fibre reinforced polymer bars.

Author

Hussain, Mohammed Yasir, Hemalatha, K., Reddy, V. Srinivasa, Vardhani, P. S. R. P. S. S. S., and Rao, A. Rama Krishna

Subjects

GLASS fibers, REINFORCING bars, FLEXURE, TENSILE strength, STEEL corrosion

Abstract

Fibre Reinforced Polymer has been used to eliminate deterioration of steel from corrosion, cost effectively and to make it available for all structural uses. This paper will give a review on effective type of FRP bar among Glass, Basalt, Carbon, Aramid Fibre Reinforced Polymer bars in terms of ductility, flexural performance and cost. In the study it has been found that many polymers have been used to strengthen the RC structure in various orientation of polymers for their respective strengthening criteria like moment capacity, shear capacity as they are light in weight, high tensile strength, anti-corrosive & non-magnetic. The main disadvantage of FRP bar is its brittleness. Hence, hybrid FRP bars are introduced to improve its ductility and flexure performance. Among all the polymers GFRP was cost effective, easily available and a material with required structural qualities which can replace steel partially. GFRP was used in many forms like bars, fabric sheets etc., based on the requirement and ability to develop a bond & ease of placing. However, steel could not be replaced totally but there was significant increase in strength and ductility when GFRP was used. From the study, it was concluded that the arrangement of GFRP bars shall be placed around the corners so as to enhance ductility and to avoid corrosion [ABSTRACT FROM AUTHOR]

Published

2023

19. Study on the shear performance of hybrid reinforced concrete beams made with FRP rebars.

Author

Naveen, Mandala, Hemalatha, K., Reddy, V. Srinivasa, and Kumari, G. Jyothi

Subjects

REINFORCED concrete, CONCRETE beams, REINFORCING bars, FIBROUS composites, SHEAR strength, FAILED states

Abstract

A feasible replacement for steel reinforcement is offered in reinforced-concrete construction Steel reinforcing corrodes with time, lowering the capacity of a reinforced concrete structure. Some concrete structures have utilized composite fiber reinforced polymer (FRP) reinforcement as a steel substitute; however, this corrosion-resistant alternative comes at the expense of the structure's flexibility. FRP reinforcement is now manufactured in a linear elastic (or brittle) state till failure. The suggested hybrid rebar is made up of multiple types of fibers that fail at different strains during the rebar's load history, allowing for gradual rebar failure. Experiments on concrete beams reinforced with glass fiber reinforced polymer are described in this paper (GFRP) The effect of mixing GFRP bars was explored in detail, and the independent behavior of GFRP reinforced beams was evaluated. In addition, existing analytical methods for predicting the shear strength of GFRP and steel fiber reinforced beams were examined and compared. Based on the findings, the best model for predicting the shear strength of GFRP reinforced beams with steel fibers were chosen and changed. [ABSTRACT FROM AUTHOR]

Published

2023

20. Performance of Microbial Concrete Developed Using Bacillus Subtilus JC3

Author

Rao, M. V. Seshagiri, Reddy, V. Srinivasa, and Sasikala, Ch.

Published

2017

21. Electrical Resistivity and Half-Cell Potential Studies to assess organic and inorganic corrosion inhibitors’ effectiveness in concrete

Author

Reddy V Srinivasa, Trimurty Naidu K Satya Sai, Rao M V Seshagiri, and Shrihari S

Subjects

Environmental sciences, GE1-350

Abstract

Very limited guidelines are available on the use of corrosion resistant inhibitors as a constituent material in concrete due to availability of statistics on its corrosion inhibiting efficiency. So the study is conducted on the M25 grade concrete mixed with few selected corrosion inhibitors of organic and non-organic nature to comprehend the impact of these corrosion inhibitors on the conductivity of electricity in these concretes. Based on the other researchers’ work, four well know corrosion inhibitors such as Calcium nitrate, Di-ethanolamine, Sodium nitrite and Hexamine and are chosen for study. Dosages of 1%, 2%, 3%, 4% and 5% the weight of cement are chosen. Measured electrical resistivity and half-cell potential values of all corrosion inhibitors admixed M25 grade concrete mixes indicates the superior corrosion inhibition ability of calcium nitrate and Di-ethanolamine’s with shows high electrical resistance.

Published

2020

22. A Review of mathematical models for prediction of Stress-strain and moment –curvature behaviour in concrete

Author

Babu Y Shashank, Reddy V Srinivasa, S P V Raju, and Rao M V Seshagiri

Subjects

Environmental sciences, GE1-350

Abstract

In this paper, a mathematical model for predicting the stress –strain and moment curvature relations in concrete is developed. A good number of empirical equations were proposed to represent stress-strain behaviour of conventional concrete. Most of the equations can be used for the ascending portion of the curve only. In 1997 Mansur et al. have adopted Carriera and Chu (1985) model, which was based on the model proposed by Popovics (1973). As such, model proposed by Mansur et al includes both ascending and descending portions of the stress-strain curve for the confined concrete with introduction of two constants for the descending portion of the curve. Several researchers proposed various empirical equations for stress-strain behaviour as briefly reported in the previous chapter. An attempt has been made in this study to develop mathematical models for concrete in unconfined state. These analytical equations can be applied to any concrete with slight modifications. These models are developed to validate the experimental values obtained.

Published

2020

23. Performance evaluation of nano-silica concrete

Author

Kumar Kakara S J, Seshagiri Rao M V, Reddy V Srinivasa, and Shrihari S

Subjects

Environmental sciences, GE1-350

Abstract

In this paper, the study of the influence of nano-silica (nano-SiO2) on the properties of the interface between CSH gel and cement particles and its effect on nano-mechanical properties of the products at the interface zone was examined. In this paper M50 grade SCC mixes were developed using 5% micro-silica and various percentages of 0.5%, 1.0% and 1.5% nano-SiO2. For 1.0% nano-SiO2 addition to M50 grade SCC mix, the compressive strength is maximum. Similarly concrete quality using non-destructive techniques, water absorbtion capacity and porosity are also assessed.

Published

2020

24. High Volume Fly Ash Self Compacting Concrete with Lime and Silica Fume as Additives

Author

Priya C Chandana, Rao M V Seshagiri, Reddy V Srinivasa, and Shrihari S

Subjects

Environmental sciences, GE1-350

Abstract

SCC is expensive when compared with normal conventional concrete. Hence, it is desired to produce low cost SCC by replacing cement with higher percentages of fly ash, which is a no cost material and available in abundance. At the same time to achieve higher grade HVFASCC, micro silica which is otherwise condensed silica fume can also be used along with fly ash to enhance the strength properties of HVFASCC. By replacing fly ash in high volumes in the mix, high amount of pozzolanic material becomes available, majorly reactive silica, for which more calcium hydroxide is necessary for further pozzolanic reaction. As we are reducing cement quantity, the amount of calcium hydroxide available is reduced thus demanding external addition of hydrated lime which can be supplied as additive to cater to the need of calcium hydroxide required for reactive silica in fly ash.The present investigation aims to achieve strength for high volume fly ash self-compacting concrete. The replacement of cement with fly ash is made in 45%, 50%, 55%, 60%, 65% and 70% with 20% hydrated lime and 10% silica fume in one trial. In another trial, 30% hydrated lime and 10% silica fume is added with replacement of fly ash to cement varying in same percentages. The design mix is tested for workability and flowability and cubes are casted for compression strength test and tested at 28 day,, 56 day, and 90 day,.

Published

2020

25. Assessment of Corrosion Inhibiting Efficiency of Microbes Induced Concrete

Author

Reddy V Srinivasa, Krishna Polina VVSSSR, Karthik G Sai, and Shrihari S

Subjects

Environmental sciences, GE1-350

Abstract

The study present in this paper reveals the corrosion inhibiting efficiency of M25 grade concrete induced with Sporosarcina pasteurii bacteria. The accelerated corrosion induced crack method is applied on reinforced bacterial concrete which is the modified philosophy of constant voltage technique. In the current investigation, for different cover thicknesses considered, total time required for charge passed until full longitudinal crack occurs along the cover thickness due to corrosion of steel reinforcement in concrete specimens are measured using which Charge Deterioration Factors (ChDFs) are evaluated for bacterial reinforced concrete beams made with various cell concentrations of Sporosarcina pasteurii bacteria. It was established that beams made with cell concentration of 105 cells/ml of mixing water offers superior corrosion inhibition ability as time taken to form full length longitudinal crack is more than in other beams made with 103 cells/ml, 104 cells/ml and 106 cells/ml cell concentration of bacteria chosen for the study.

Published

2020

26. Effect of basalt fibre on the mechanical properties of M70 grade high performance concrete

Author

Singh V Ram, Reddy V Srinivasa, Shrihari S, and Srikanth T

Subjects

Environmental sciences, GE1-350

Abstract

The presented work reveals the strength properties of M70 grade high performance basalt fibre reinforced concrete (BFRCC) containing 0.2%, 0.3% and 0.4% basalt fibre content by volume of concrete. 10% Silica fume is admixed for attaining higher strengths as preferred. Compressive, split-tensile and flexural strengths are evaluated. The BFRCC microstructure is found to be improved due to enrichment of interfacial transition zone with chopped basalt fibres. It was found that different fibre lengths require different dosages to yield maximum effect on the properties of concrete. Stress- strain responses of M70 grade BFRSCC yields improved ultimate strain and strain at peak load indicating its energy dissipation capacity at fracture.

Published

2020

27. Stress-Strain behaviour of basalt fibre reinforced concrete

Author

Goud E Giri Prasad, Singh Dinesh, Reddy V Srinivasa, and Reddy Kaveli Jagannath

Subjects

Environmental sciences, GE1-350

Abstract

This paper prophesies the stress strain behaviour of M30 grade concrete reinforced with basalt fibres of length 12 mm, 36 mm and 50 mm of amounts 0.4%, 0.4% and 0.3% by volume of concrete respectively. Modulus of elasticity and toughness of M30 grade basalt fibre reinforced concretes are also evaluated. It was found that BFRCC mixes show good resistance to impact and has superior dissipation capacity. The optimal basalt fibre volume fraction is 0.3% and length is 50 mm. For this case, toughness index and energy absorbed at fracture have considerably enhanced. With the volume fraction of basalt fiber exceeding the optimum volume fraction, the mechanical properties of basalt fiber are weakened.

Published

2020

28. Pore Structure Analysis of various water-binder ratios Ternary blended Concrete made with

Author

Adinarayana D, Srinivasa Rao P, and Reddy V Srinivasa

Subjects

Environmental sciences, GE1-350

Abstract

This paper presents the chloride ion penetration and diffusion capability of ternary blended concrete made with various water cement ratios. Ternary blended concrete is made with various combinations of microsilica (MS) and fly ash (FA) for water-binder ratio of 0.55, 0.45 and 0.35. A total of five combinations such as 5% micro-silica + 15% fly ash, 5% micro-silica + 20% fly ash, 10% micro-silica + 15% fly ash , 10% micro-silica + 20% fly ash and 0% micro-silica + 0% fly ash by weight of cement were studied for compressive strength, chloride ion permeability and pore structure analysis. It was found that 5% micro-silica + 15% fly ash showed better performance due to due to well-developed pore structure and microstructure.

Published

2020

29. Geo-polymerization mechanism and factors affecting it in Metakaolin-slag-fly ash blended concrete

Author

Kumar A D Sandeep, Singh Dinesh, Reddy V Srinivasa, and Reddy Kaveli Jagannath

Subjects

Environmental sciences, GE1-350

Abstract

This paper presents the mechanism and chemistry behind the geo-polymerization and its application in development of Geo-polymer concrete. In this paper, guidelines to develop a geo-polymer concrete is discussed along with the factors affecting the geopolymerization process in concrete. It is concluded that curing temperature, ratio of alkaline liquids , chemical ratio of silicate and sodium in sodium silicate, alkaline liquids / Si-Al source materials ratio, sodium silicate/ hydroxyl ions ratio, presence of calcium, presence of excess water and Si/Al ratio in source materials have significant effect on the development of geopolymer concrete and its performance.

Published

2020

30. An IoT enabled real-time monitoring system for automatic curing and early age strength monitoring of concrete

Author

Reddy, V. Mallikarjuna, primary, Hamsalekha, S., additional, and Reddy, V. Srinivasa, additional

Published

2021

31. Assessment of efficiency of corrosion inhibitors in mitigating corrosion of rebars in concrete

Author

Reddy, V. Srinivasa, primary, Prashanth, Thoodi, additional, Reddy, V. Mallikarjuna, additional, and Shrihari, S., additional

Published

2021

32. Assessment of efficiency of corrosion inhibitors in mitigating corrosion of rebars in concrete.

Author

Reddy, V. Srinivasa, Prashanth, Thoodi, Reddy, V. Mallikarjuna, and Shrihari, S.

Subjects

*CONCRETE corrosion, *REINFORCED concrete, *CORROSION & anti-corrosives, *CORROSION potential, *ELECTRICAL resistivity, *SODIUM nitrites, *STEEL corrosion

Abstract

This paper presents the use of modified method of constant voltage technique, electrical resistivity and corrosion potential measurements in determining the effectiveness of corrosion inhibitors' in concrete in arresting corrosion in the steel rebars in reinforced concrete specimens. Accelerated corrosion test is conducted on the different corrosion inhibitor mixed reinforced beams made with different cover thickness to understand the effect of cover thickness and type of inhibitor on the rate of corrosion based on the accelerated cracking initiated. Various inhibitors of corrosion, including calcium nitrite, sodium nitrite, hexamine and Diethanolamine, have been used in optimal dosage and investigated for their corrosion resistivity in concrete. [ABSTRACT FROM AUTHOR]

Published

2020

33. An IoT enabled real-time monitoring system for automatic curing and early age strength monitoring of concrete.

Author

Reddy, V. Mallikarjuna, Hamsalekha, S., and Reddy, V. Srinivasa

Subjects

STRUCTURAL health monitoring, STRUCTURAL engineering, INTERNET of things, CIVIL engineering, INTELLIGENT sensors

Abstract

This paper presents the assessment of the strength at early age and automatic curing of concrete using the IoT (Internet of things). IoT can be used for SHM (structural health monitoring) and for other civil engineering applications. Evaluating the strength of concrete structures at early age is very important for a structural engineer, similarly the controlling the waste of water during continuous curing of concrete done manually is also a matter of concern. So the concept of assessing the early age strength using smart rock sensor and automatic curing using moisture sensors are installed to address the above issues in construction. The functioning of these entire processes can be monitored and controlled from remote location. [ABSTRACT FROM AUTHOR]

Published

2020

34. A Review of mathematical models for prediction of Stress-strain and moment –curvature behaviour in concrete.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Babu, Y Shashank, Reddy, V Srinivasa, S P V, Raju, and Rao, M V Seshagiri

Published

2020

35. Assessment of Corrosion Inhibiting Efficiency of Microbes Induced Concrete.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Reddy, V Srinivasa, Krishna, Polina VVSSSR, Karthik, G Sai, and Shrihari, S

Published

2020

36. Electrical Resistivity and Half-Cell Potential Studies to assess organic and inorganic corrosion inhibitors' effectiveness in concrete.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Reddy, V Srinivasa, Trimurty Naidu, K Satya Sai, Rao, M V Seshagiri, and Shrihari, S

Published

2020

37. Pore Structure Analysis of various water-binder ratios Ternary blended Concrete made with.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Adinarayana, D, Srinivasa Rao, P, and Reddy, V Srinivasa

Published

2020

38. High Volume Fly Ash Self Compacting Concrete with Lime and Silica Fume as Additives.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Priya, C Chandana, Rao, M V Seshagiri, Reddy, V Srinivasa, and Shrihari, S

Published

2020

39. Effect of basalt fibre on the mechanical properties of M70 grade high performance concrete.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Singh, V Ram, Reddy, V Srinivasa, Shrihari, S, and Srikanth, T

Published

2020

40. Stress-Strain behaviour of basalt fibre reinforced concrete.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Goud, E Giri Prasad, Singh, Dinesh, Reddy, V Srinivasa, and Reddy, Kaveli Jagannath

Published

2020

41. Geo-polymerization mechanism and factors affecting it in Metakaolin-slag-fly ash blended concrete.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Kumar, A D Sandeep, Singh, Dinesh, Reddy, V Srinivasa, and Reddy, Kaveli Jagannath

Published

2020

42. Performance evaluation of nano-silica concrete.

Author

Tummala, S., Kosaraju, S., Bobba, P., Singh, S., Kumar, Kakara S J, Seshagiri Rao, M V, Reddy, V Srinivasa, and Shrihari, S

Published

2020

43. FREE PROLINE ACCUMULATION AND REDUCTION IN RWC UNDER MOISTURE STRESS IN GENOTYPES OF SAFFLOWER

Author

Reddy, V. Srinivasa and Sastry, K. S. Krishna

Published

1977

44. PHYSIOLOGICAL COMPENSATION IN THE MANIFESTATION OF ECONOMIC TRAITS OF MULBERRY SILKWORM RACES UNDER IMPOSED THERMAL STRESS.

Author

Malik, FirdoseAhmad and Reddy, V. Srinivasa

Subjects

PHYSIOLOGICAL effects of temperature, PHYSIOLOGICAL effects of heat, GENOTYPE-environment interaction, INSECT age, SILKWORMS, EFFECT of temperature on larvae, PHYSIOLOGY

Abstract

Pure Mysore and two bivoltine breeds NB4D2 and CSR2 were reared at 25°C, 30°C and 35°C and 75-80 RH% from a day before 4th moult till spinning. Larval weight, larval duration, silk gland weight, silk gland - somatic index, silk conversion index, silk productivity, ERR, rate of cocooning, cocoon yield, cocoon weight, shell weight, shell percentage, filament length and fecundity were significantly reduced at 35°C than at 30°C. The economic characters were affected more in bivoltine races than in PM, and in CSR2 than in NB4D2 in the two bivoltine races. Expression of economic characters, when late age worms were held at high temperature, has a functional value in the selection of high temperature tolerant breeds. The physiological basis of temperature compensation in the expression of economic traits in races having different limits of high temperature tolerance is examined. The severity of impairment of economic traits, and the time and the number of larvae and pupae died have a strong racial bias. [ABSTRACT FROM AUTHOR]

Published

2010

45. Prospects of Topoisomerase Inhibitors as Promising Anti-Cancer Agents.

Author

Yakkala, Prasanna Anjaneyulu, Penumallu, Naveen Reddy, Shafi, Syed, and Kamal, Ahmed

Subjects

DNA topoisomerase I, ANTINEOPLASTIC agents, DOUBLE-strand DNA breaks, DNA topoisomerase II, DNA replication, METASTASIS, MULTIDRUG resistance

Abstract

Topoisomerases are very important enzymes that regulate DNA topology and are vital for biological actions like DNA replication, transcription, and repair. The emergence and spread of cancer has been intimately associated with topoisomerase dysregulation. Topoisomerase inhibitors have consequently become potential anti-cancer medications because of their ability to obstruct the normal function of these enzymes, which leads to DNA damage and subsequently causes cell death. This review emphasizes the importance of topoisomerase inhibitors as marketed, clinical and preclinical anti-cancer medications. In the present review, various types of topoisomerase inhibitors and their mechanisms of action have been discussed. Topoisomerase I inhibitors, which include irinotecan and topotecan, are agents that interact with the DNA-topoisomerase I complex and avert resealing of the DNA. The accretion of DNA breaks leads to the inhibition of DNA replication and cell death. On the other hand, topoisomerase II inhibitors like etoposide and teniposide, function by cleaving the DNA-topoisomerase II complex thereby effectively impeding the release of double-strand DNA breaks. Moreover, the recent advances in exploring the therapeutic efficacy, toxicity, and MDR (multidrug resistance) issues of new topoisomerase inhibitors have been reviewed in the present review. [ABSTRACT FROM AUTHOR]

Published

2023

46. Zebrafish in Lung Cancer Research.

Author

Wu, Xiaodi, Hua, Xin, Xu, Ke, Song, Yong, and Lv, Tangfeng

Subjects

BIOLOGICAL models, DISEASE progression, IN vivo studies, GENETICS, ANIMAL experimentation, LUNG tumors, INDIVIDUALIZED medicine, MOLECULAR biology, FISHES, DRUG development, MEDICAL research

Abstract

Simple Summary: Zebrafish is a crucial in vivo model for lung cancer research and is widely employed in studies focusing on cancer proliferation, metastasis, and angiogenesis. It plays a pivotal role in cancer drug development, being used for target validation, compound screening, and personalized therapy. This review provides a comprehensive overview of the current state of lung cancer research that uses zebrafish, highlighting the advantages and limitations of this model organism and discussing future directions in the field. Zebrafish is increasingly used as a model organism for cancer research because of its genetic and physiological similarities to humans. Modeling lung cancer (LC) in zebrafish has received significant attention. This review focuses on the insights gained from using zebrafish in LC research. These insights range from investigating the genetic and molecular mechanisms that contribute to the development and progression of LC to identifying potential drug targets, testing the efficacy and toxicity of new therapies, and applying zebrafish for personalized medicine studies. This review provides a comprehensive overview of the current state of LC research performed using zebrafish, highlights the advantages and limitations of this model organism, and discusses future directions in the field. [ABSTRACT FROM AUTHOR]

Published

2023

47. Organometallic gold(I) and gold(III) complexes for lung cancer treatment.

Author

Juzheng Zhang, Yanping Li, Ronghao Fang, Wei Wei, Yong Wang, Jiamin Jin, Feng Yang, and Jian Chen

Subjects

GOLD, LUNG cancer, CANCER treatment, METAL compounds

Abstract

Metal compounds, especially gold complexes, have recently gained increasing attention as possible lung cancer therapeutics. Some gold complexes display not only excellent activity in cisplatin-sensitive lung cancer but also in cisplatin-resistant lung cancer, revealing promising prospects in the development of novel treatments for lung cancer. This review summarizes examples of anticancer gold(I) and gold (III) complexes for lung cancer treatment, including mechanisms of action and approaches adopted to improve their efficiency. Several excellent examples of gold complexes against lung cancer are highlighted. [ABSTRACT FROM AUTHOR]

Published

2022

48. Pyrazole Paradigms: Unveiling Synthetic Pathways and Unraveling Anti-Cancer Potential.

Author

Kumari P, Agrawal N, and Mujwar S

Subjects

Humans, Structure-Activity Relationship, Neoplasms drug therapy, Neoplasms pathology, Animals, Cell Proliferation drug effects, Molecular Structure, Pyrazoles pharmacology, Pyrazoles chemistry, Pyrazoles chemical synthesis, Antineoplastic Agents pharmacology, Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry

Abstract

This review investigates the synthetic methods and anti-cancer activities of pyrazole compounds. Various synthetic approaches, including traditional organic synthesis and microwaveassisted synthesis, have been used to change the pyrazole core structure, resulting in new compounds with improved pharmacological properties. The paper also covers the mechanisms of action that underpin pyrazole derivatives' anti-cancer characteristics, focusing on interactions with major molecular targets implicated in cancer growth and proliferation. SAR insights help to rationally develop novel anti-cancer drugs. In conclusion, the review emphasizes the versatility of pyrazole derivatives as scaffolds for the discovery and development of new anti-cancer medicines. By understanding synthesis routes and unravelling anti-cancer potential, this study hopes to encourage new research endeavours focused on leveraging the therapeutic advantages of pyrazole paradigms in the fight against cancer., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

49. Evaluation of Substituted Pyrazole-Based Kinase Inhibitors in One Decade (2011–2020): Current Status and Future Prospects.

Author

El-Gamal, Mohammed I., Zaraei, Seyed-Omar, Madkour, Moustafa M., and Anbar, Hanan S.

Abstract

Pyrazole has been recognized as a pharmacologically important privileged scaffold whose derivatives produce almost all types of pharmacological activities and have attracted much attention in the last decades. Of the various pyrazole derivatives reported as potential therapeutic agents, this article focuses on pyrazole-based kinase inhibitors. Pyrazole-possessing kinase inhibitors play a crucial role in various disease areas, especially in many cancer types such as lymphoma, breast cancer, melanoma, cervical cancer, and others in addition to inflammation and neurodegenerative disorders. In this article, we reviewed the structural and biological characteristics of the pyrazole derivatives recently reported as kinase inhibitors and classified them according to their target kinases in a chronological order. We reviewed the reports including pyrazole derivatives as kinase inhibitors published during the past decade (2011–2020). [ABSTRACT FROM AUTHOR]

Published

2022

50. Design and synthesis of novel (Z)-5-((1,3-diphenyl-1H-pyrazol-4-yl)methylene)-3-((1-substituted phenyl-1H-1,2,3-triazol-4-yl)methyl)thiazolidine-2,4-diones: a potential cytotoxic scaffolds and their molecular modeling studies.

Author

Subhashini, N. J. P., Kumar, Kolluri Prashanth, Kumar, Edigi Praveen, Shravani, Putta, Singh, Surya Sathyanarayana, Vani, Tamalapakula, and Vijjulatha, Manga

Abstract

In an effort to discover potential cytotoxic agents, a series of novel (Z)-5-((1,3-diphenyl-1H-pyrazol-4-yl)methylene)-3-((1-substituted phenyl-1H-1,2,3-triazol-4-yl)methyl)thiazolidine-2,4-dione derivatives (8a–n) were designed and synthesized in various steps with acceptable reaction procedures with quantitative yields and characterized by 1H NMR, 13C NMR, IR, HRMS and ESI–MS spectra. These newly synthesized novel derivatives were screened for their in vitro cell viability/cytotoxic studies against human breast cancer cell line (MCF-7) with various concentrations of 0.625 µM, 1.25 µM, 2.5 µM, 5 µM and 10 µM, respectively. The biological interpretation assay outcome was demonstrated in terms of cell viability percentage reduction and IC50 values against standard reference drug cisplatin. Based on these results, most of the derivatives exhibited promising cytotoxic activity. Among them, particularly compounds 8j (R1 = OMe and R3 = NO2) and 8e (R3 = CF3) demonstrate remarkable cytotoxic activity with IC50 values 0.426 µM ± 0.455 and 0.608 µM ± 0.408, which are even better than the standard drug cisplatin 0.636 µM ± 0.458 and compounds 8m (R2 = OMe and R3 = OMe) and 8c (R3 = OMe) exhibited closely equivalent IC50 values to the standard drug with IC50 values 0.95 µM ± 0.32 and 0.976 µM ± 0.313 and rest of the compounds exhibits moderate cytotoxic activity. Moreover, molecular modeling studies and ADME calculations of the novel synthesized derivatives are in adequate consent with the pharmacological screening results. [ABSTRACT FROM AUTHOR]

Published

2021