Pinhole Effects on Venus Superpressure Balloon Lifetime

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Pinhole Effects on Venus Superpressure Balloon Lifetime

Hall, Jeffery L. / Yavrouian, Andre H.

Experimental results are presented for a series of experiments that addressed the effect of small pinhole defects on the potential lifetime of a Venus superpressure balloon. The experiments were performed on samples of a candidate balloon envelope material through which a single small hole of 80 to 300 microns in diameter was deliberately made in each one by puncturing with a metal pin. The material was mounted horizontally in a test apparatus and then a 2-3 mm thick layer of sulfuric acid was placed on top to mimic balloon wetting at Venus. Acid penetration and damage manifested itself as a darkening of the aluminum metal and adhesive layers around the hole in the balloon material. There were no test conditions under which the acid simply fell through the pinhole due to gravity because the surface tension forces always compensated at this size. Very little acid-damaged material was observed for the smallest 80 micron pinholes while gas flowed through the hole due to balloon-like pressurization: the black spot size was approximately 0.2 mm in diameter after 6 days with 86% sulfuric acid. The damage area grew more quickly in the absence of gas flowing out of an 80 micron hole, namely at a rate of 2 mm/day. It was concluded that the flow of escaping gas out of the hole provides a substantial reduction of the rate of acid penetration and damage. Larger diameter pinholes of approximately 300 micron diameter showed larger growth rates of 0.7 mm/day with gas flow and 1.7 mm/day without. The pinhole size did not change over the duration of these experiments because the material has an outer layer of fluoropolymer film that remained intact during the process and thereby held the hole size constant. None of the damage rates measured in these experiments pose a threat to the lifetime of the balloon over the projected course of a 30 day mission because the affected area is too small to cause a structural failure either through direct damage or increased solar heating and attendant balloon pressurization leading to burst.

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Document information

Title :

Pinhole Effects on Venus Superpressure Balloon Lifetime

Contributors:

Hall, Jeffery L. (author) / Yavrouian, Andre H. (author)

Conference:

AIAA Balloon Systems Conference ; 2013 ; Daytona Beach, FL, United States
AIAA Aerodynamic Decelerator Systems Technology Conference and Seminar ; 2013 ; Daytona Beach, FL, United States
AIAA Lighter-Than-Air Systems Technology Conference ; 2013 ; Daytona Beach, FL, United States

Publication date :

2013-03-26

Type of media :

Conference paper

Type of material :

No indication

Language :

English

Keywords :

aerobot , Venus , Lunar And Planetary Science And Exploration , acid , Spacecraft Design, Testing And Performance , pinhole , Mechanical Engineering , balloon