S. Siva Rama Krishna scite author profile

S. Siva Rama Krishna

13Publications

14Citation Statements Received

4Citation Statements Given

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Affiliations

Aeronautical Development Agency, Siddhartha Medical College

Publications

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ESTIMATION OF —SOOH (SULFINIC) GROUP AND FE⁺⁺⁺

Krishna¹,

Singh²

1928

J. Am. Chem. Soc.

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here given show that at each temperature the yield of ether passes through a maximum as the time of contact is lengthened. The yield of ethylene, on the other hand, increases continuously. This is in agreement with the results of Pease and Yung1 at 300°. The maximum yields of ether are, however, higher than those reported by Pease and Yung1 and are as high as the best yields reported by Clark, Graham and Winters.2 These maximum yields amount to 82.20% at 269°, 73.50% at 300°and 55.00% at 354°. Pease and Yung1 report 62.00% at 275°; Clark, Graham and Winters2 report 85.00% at 275°. The author obtained 82.20% at 269°. The indication is that the higher value is more nearly correct.

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CCCXXI.—Synthesis of derivatives of phenothioxin

Krishna¹

1923

J. Chem. Soc., Trans.

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Development of Novel Concrete for Recharging the Ground Water Levels in the Rocklands of Urban Areas

Malagavelli

Babu

Krishna

et al. 2021

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Detection of Fake and Clone Accounts in Twitter Using Classification and Distance Measure Algorithms

Krishna¹,

Reddy²,

Reddy³

et al. 2021

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XIX.—Synthesis of substituted thianthrens. Part I. Thianthren and nitrothianthren

Krishna¹

1923

J. Chem. Soc., Trans.

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Seismic analysis of Multi storey Building on Sloping Ground and Flat Ground by using ETABS

Babu¹,

Krishna

Malagavelli

2023

IOP Conf. Ser.: Earth Environ. Sci.

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Due to urbanization and industrialization, which paved the door for the development of tall, multi-story structures on mountainous terrain, land is scarce in emerging nations like India. Buildings built on hilly terrain differ from those built on flat terrain due of their uneven and asymmetrical vertical and horizontal structures. These buildings are also significantly more vulnerable to earthquake pressures when located in mountainous terrain. The primary goal of the current endeavor is to investigate how structures behave on level and sloping terrain. Hilly places require different construction configurations than level areas. Hill structures vary from those on lowlands in that they are torsionally linked, highly irregular, and asymmetrical in both the horizontal and vertical planes. As a result, they are vulnerable to severe damage when an earthquake strikes. The behavior of a multi-story structure with two distinct slope angles was attempted to be studied in this paper, and a comparison with flat ground was made. by taking Earthquake Zone II into account. Buildings on level ground and buildings on slanted ground are compared. The models are created with the aid of the structural analysis program ETABS. Response spectrum analysis is used for analysis. The analysis’s findings, including storey shear, storey drifts, moments, and displacement, are tabulated and examined.

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CCCXXII.—Synthesis of substituted thianthrens. Part II

Krishna¹

1923

J. Chem. Soc., Trans.

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Study on brick masonry columns with different slenderness ratios and small openings

Malagavelli

Krishna

A.K.Kale

et al. 2022

Materials Today: Proceedings

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