Notice Board :

Call for Paper
Vol. 5 Issue 10

Submission Start Date:
Oct 01, 2024

Acceptence Notification Start:
Oct 10, 2024

Submission End:
Oct 25, 2024

Final MenuScript Due:
Oct 30, 2024

Publication Date:
Oct 30, 2024
                         Notice Board: Call for PaperVol. 5 Issue 10      Submission Start Date: Oct 01, 2024      Acceptence Notification Start: Oct 10, 2024      Submission End: Oct 25, 2024      Final MenuScript Due: Oct 30, 2024      Publication Date: Oct 30, 2024




Volume V Issue VII

Author Name
Tabassum Khan, Sukhlal Rashiya
Year Of Publication
2024
Volume and Issue
Volume 5 Issue 7
Abstract
aadhunik hindee naatak haal ke varshon mein mahatvapoorn roop se vikasit hua hai, jo samakaaleen bhaarateey samaaj ke lie praasangik vividh saamaajik-saanskrtik rujhaanon aur vishayagat anveshanon ko darshaata hai. yah saaraansh hindee naatak ke prakshep path kee jaanch karata hai, isake vartamaan sandarbh aur vishayagat vyastataon par dhyaan kendrit karata hai.
PaperID
2024/IJEASM/5/2024/2121

Author Name
Prateek Kumar, Nitish Munjal
Year Of Publication
2024
Volume and Issue
Volume 5 Issue 7
Abstract
The connecting rod, which joins the crankshaft and piston, is a crucial component of many car engines. The piston's rotary motion is transferred into rotational motion via the engine's crankshaft. The connecting rod is secured to the crankshaft at its large end by two bolts that pass through the bottom big end bearing; a piston pin connects the rod's tiny end to the piston. A digitally created connecting rod for a diesel engine was created using SolidWorks 2021 Premium. On the connecting rod, finite element analysis is done. To do static analysis, we use the analytical workbench R18.1 program to assess the strain, deformation, and stress caused by applied loads on various materials. The durability and dependability ANSYS Workbench R18.1 software is used to perform a fatigue test on the connecting rod in order to evaluate its condition. The modal section is undergoing modifications. Ansys Workbench R18.1 is used for static structural analysis while working with IGS file formats. The str
PaperID
2024/IJEASM/5/2024/2122

Author Name
Somnath Mondal, Yamini Rai, Ajay Swarup, Rajendra Prasad Kushwaha
Year Of Publication
2024
Volume and Issue
Volume 5 Issue 7
Abstract
Structural resilience is a critical aspect of civil engineering, particularly in the context of sustainable infrastructure development. This abstract explores the concept of structural resilience and its advancement in civil engineering practices to ensure the longevity and sustainability of infrastructure systems. The increasing frequency and severity of natural disasters, along with the challenges posed by aging infrastructure, highlight the need for resilient structural design and engineering practices. Structural resilience goes beyond traditional strength and safety considerations, emphasizing the ability of a structure to withstand and recover from extreme events while maintaining functionality. Advancements in materials, design methodologies, and construction techniques have enabled civil engineers to enhance the resilience of structures. These advancements include the use of innovative materials such as fiber-reinforced polymers, high-performance concrete, and smart materials t
PaperID
2024/IJEASM/5/2024/2123

Author Name
Soumitra Maity, Yamini Rai, Ajay Swarup, Rajendra Prasad Kushwaha
Year Of Publication
2024
Volume and Issue
Volume 5 Issue 7
Abstract
The seismic assessment of tall structures with shear wall support is crucial for ensuring their structural integrity and safety during seismic events. This study focuses on the seismic evaluation of a twenty-story multistory structure designed with shear walls to resist lateral forces. Shear walls are fundamental elements in high-rise buildings, providing substantial stiffness and strength against lateral loads such as those induced by earthquakes. The assessment methodology integrates detailed structural analysis techniques, including nonlinear static (pushover) analysis and dynamic analysis using appropriate ground motion records. Nonlinear static analysis helps assess the global behavior and capacity of the structure under progressively increasing lateral forces, while dynamic analysis evaluates its response to realistic earthquake excitations. Key parameters such as inter-story drifts, base shear distribution, and performance levels under different seismic intensities are evaluated
PaperID
2024/IJEASM/5/2024/2124