ISSN 2394-5125
 

Research Article 


LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS

D Samuel Abraham, G Hemalatha.

Abstract
Seismic waves dampening is a mechanism of reducing the intensity of vibrating waves coming on the structures and thus reducing energy dissipating demand on structures. Beam column joint, when it undergoes severe vibrations, will have a large impact on the structure and results in the formation of cracks and leads to failure of the structure. Hence beam column joint is considered as the critical zone under seismic vibrations. In the beam column, damages occur in the joints when compared to the other areas. Traverse shear reinforcement, applied in the joints will surge the shear strength, until threshold limit. When it goes beyond the threshold limit, it will decrease the shear strength. This requests for more research and analysis in controlling joint failures. In recent days, three-dimension printing (3DP), also termed as Additive manufacturing, is highly developing and provides new idea for engineers and researchers in the construction industry. 3DP provides high building efficiency, less construction waste, low labor cost compared to traditional construction technology. In the modern era, researchers are involved in the analysis and design of experimental verified lattice structure, developed using 3DP, to improve the vibration isolation properties. The focus of this project is to develop 3-D printed beam column joint shear dissipating models- and test the specimens for wide range of frequencies. The strength of the 3-D models is tested using ANSYS Software. Based on the results obtained from ANSYS Software, experiments will be conducted by placing the 3-D models in the beam-column joint and the comparison study will be performed.

Key words: Beam-column joint, vibration control, damping, seismic, 3-D printing, shear dissipating model


 
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Pubmed Style

D Samuel Abraham, G Hemalatha. LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS. JCR. 2020; 7(9): 416-422. doi:10.31838/jcr.07.09.86


Web Style

D Samuel Abraham, G Hemalatha. LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS. http://www.jcreview.com/?mno=112170 [Access: May 30, 2021]. doi:10.31838/jcr.07.09.86


AMA (American Medical Association) Style

D Samuel Abraham, G Hemalatha. LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS. JCR. 2020; 7(9): 416-422. doi:10.31838/jcr.07.09.86



Vancouver/ICMJE Style

D Samuel Abraham, G Hemalatha. LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS. JCR. (2020), [cited May 30, 2021]; 7(9): 416-422. doi:10.31838/jcr.07.09.86



Harvard Style

D Samuel Abraham, G Hemalatha (2020) LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS. JCR, 7 (9), 416-422. doi:10.31838/jcr.07.09.86



Turabian Style

D Samuel Abraham, G Hemalatha. 2020. LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS. Journal of Critical Reviews, 7 (9), 416-422. doi:10.31838/jcr.07.09.86



Chicago Style

D Samuel Abraham, G Hemalatha. "LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS." Journal of Critical Reviews 7 (2020), 416-422. doi:10.31838/jcr.07.09.86



MLA (The Modern Language Association) Style

D Samuel Abraham, G Hemalatha. "LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS." Journal of Critical Reviews 7.9 (2020), 416-422. Print. doi:10.31838/jcr.07.09.86



APA (American Psychological Association) Style

D Samuel Abraham, G Hemalatha (2020) LITERATURE STUDY ON SEISMIC RESISTANCE OF STRUCTURES USING 3-D PRINTED MODELS. Journal of Critical Reviews, 7 (9), 416-422. doi:10.31838/jcr.07.09.86