Design of Air Bag System by Hydraulic Circuit and Direct Acting Solenoid Flow Regulator
Author(s):
Challagonda Sandeep Reddy , kakatiya university college of engineering and technology; Kandagatla Uday Kiran, Kakatiya Institute of Technology & Science; Challa Karunakar, Kakatiya Institute of Technology & Science
Keywords:
Air Bag Control Module, Chemical Explosion, Fluid Mechanics, Hazardous Systems, Hydraulic Circuit, Sodium Azide
Abstract:
Airbags are responsible for myriad number of lifesavings as well as proved fatal and hazardous systems due to untimely, uncontrolled chemical explosion triggered by airbag control module. The victims are especially children who suffer from broken bones. The airbag chemicals include like sodium azide, potassium nitrates etc, the gases released after airbag deflation are dangerous to victims, besides these conventional method of airbag systems are highly costly that only few of the car owners can afford and other drive without them who are susceptible to fatality in case of crashes. This paper discusses the design of the airbag systems omitting the use of chemical reactions and introducing metal bumper and cylindrical pressure lines and building the hydraulic circuit, utilizing the principles of energy conversions, fluid mechanics and electronic control units associated with pressure differential sensors and solenoid actuated flow control valve which is a highly controlled method for operation of airbag which can even cutdown the overall cost to significant mark.
Other Details:
Manuscript Id | : | IJSTEV4I9055
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Published in | : | Volume : 4, Issue : 9
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Publication Date | : | 01/04/2018
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Page(s) | : | 120-123
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