Research on Degradation Behavior of Airborne Rubber Products

Xiao Jie Zhang; Tong Min Jiang; Hua Luo; Xiao Rui Zhang

doi:10.4028/www.scientific.net/AMR.466-467.127

Paper Titles

Preparation of Bamboo Charcoal/Polyvinyl Formal Foam as Biological Support Material
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Study on Effects of Cu Content on Properties of Al-Mg-Si Aluminum Alloy
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Modal Analysis of Air Compressor Plate
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The Composite Wood Impregnated with Silicon Sol Solution
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Research on Degradation Behavior of Airborne Rubber Products
p.127

Remote Detection of Soil Humidity Based on Wireless Sensor Network
p.132

Preparation of New Adhesive for Tobacco Sheet
p.137

Modeling and Simulation of a Three-Phase Catalytic Slurry Intensified Continuous Chemical Reactor
p.141

Study of Collagen Assemble into Gel In Situ Used as Tissue Engineering Scaffold
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 466-467Research on Degradation Behavior of Airborne...

Research on Degradation Behavior of Airborne Rubber Products

Abstract:

Due to the complex working and storage environment for airplanes, the consumptive failures of airborne products are unavoidable. Aiming at the problem that degradation behaviors that cause this kind of failures are frequently neglected, based on the concept of degradation for airborne products, a new method of conducting research that treats aging process as a critical degradation behavior is presented. According to the characteristics of airborne mechano-electronic products, steering engine is defined as a critical airplane airborne mechano-electronic product. Through detailed analysis of the vulnerable area of steering engine, the failure mechanism of aging of steering engine rubber seal is discussed. The degradation model of steering engine rubber seal is presented. Finally, feasibility of the method that replaces the research of degradation behavior of the airborne mechano-electronic products with that of aging is verified.

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Periodical:

Advanced Materials Research (Volumes 466-467)

Pages:

127-131

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.466-467.127

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Online since:

February 2012

Authors:

Xiao Jie Zhang, Tong Min Jiang, Hua Luo, Xiao Rui Zhang

Keywords:

Aging, Degradation Behaviour, Failure, Model, Seal, Steering Engine, Vulnerable Area

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