A crucial component of structural design is hanger reinforcement, especially in situations where slabs or beams must sustain suspended loads. The main goal of hanger reinforcement is to make sure that vertical loads are transferred from the hanger to the supporting structure safely. An overview of hanger reinforcement, including its importance, design concerns, and typical reinforcement techniques, is given in this abstract. Maintaining the structural integrity and load-carrying capacity of hanging parts depends heavily on hanger reinforcement. As a result of the imposed loads, it aids in preventing excessive deflection, cracking, and hanger failure. Considerations for the design process include the size and kind of loads, the hanger's geometry, and the characteristics of the supporting structure. Determining the necessary tensile strength and assuring compliance with the supporting structure are design factors for hanger reinforcement. Steel bars, wire ropes, or tendons that have been pre-stressed are just a few examples of the different reinforcement methods that can be used. The load requirements, available space, and construction feasibility all play a role in choosing the best reinforcement method. The anchorage length, development length, and transparent cover requirements are among the detailing factors taken into account when designing hanger reinforcement.
Axial, Design, Hanger, Material, Member.
[Dr. Shrishail Anadinni (2022) Application of the Hanger Reinforcement] (ISSN 2347 - 5552). www.ijircst.org
Dr. Shrishail Anadinni
Assistant Professor, Department of Civil Engineering, Presidency University, Bangalore, India
Email Id-shrishail@presidencyuniversity.in