Add to ORKGHeat studies with the highly resistant bacterial spore isolated from Cape Kennedy soil were continued, and the D130C was determined. The interior surfaces of the command module of the Apollo 17 spacecraft were studied for microbial contamination during assembly and testing. The thermal resistance of naturally occurring airborne bacterial spores was determined, using the heating times of 2, 4, 6, and 8 hr. at 125 C. The evaluation of a terminal sterilization process for unmanned lander spacecraft is also continuing
Heat shock effects on bacterial spore recovery and Apollo 9, 10, and 11 microbial contamination dat
Dry heat resistances of bacterial spores, and levels of microbial contamination on Apollo spacecraf
Moisture effects on thermal inactivation of microbial spores for spacecraft sterilizatio
The microbiological studies of the Apollo 17 command module pre- and postflight samples are reported...
The project to evaluate thermal sterilization for unmanned landers is reported. A temperature contro...
A quantitative means was developed to investigate the sensitivity of current spacecraft sterilizatio...
The efficiency of a biodetection grinder, used to recover buried contamination, was tested using spa...
Dry heat treatment is specified as the preferred means for the terminal sterilization of spacecraft ...
A series of experiments was conducted to determine the dry heat resistance of microorganisms in soil...
Microbiological studies of spore release, vacuum probe sampling, effectiveness of ultrasonic baths, ...
Dry heat sterilization of spacecraft was investigated by studying the production of spore crops, and...
Dry heat inactivation characteristics were compared for 4-6 (B. brevis) spores and microbes from the...
The evaluation is discussed of the terminal sterilization process for unmanned lander spacecraft. Re...
Evaluation equipment for terminal sterilization process on unmanned landers and determination of the...
Dry heat resistance of bacilus globigii spores encapsulated in lucite and dried on paper strips for ...
Heat shock effects on bacterial spore recovery and Apollo 9, 10, and 11 microbial contamination dat
Dry heat resistances of bacterial spores, and levels of microbial contamination on Apollo spacecraf
Moisture effects on thermal inactivation of microbial spores for spacecraft sterilizatio
The microbiological studies of the Apollo 17 command module pre- and postflight samples are reported...
The project to evaluate thermal sterilization for unmanned landers is reported. A temperature contro...
A quantitative means was developed to investigate the sensitivity of current spacecraft sterilizatio...
The efficiency of a biodetection grinder, used to recover buried contamination, was tested using spa...
Dry heat treatment is specified as the preferred means for the terminal sterilization of spacecraft ...
A series of experiments was conducted to determine the dry heat resistance of microorganisms in soil...
Microbiological studies of spore release, vacuum probe sampling, effectiveness of ultrasonic baths, ...
Dry heat sterilization of spacecraft was investigated by studying the production of spore crops, and...
Dry heat inactivation characteristics were compared for 4-6 (B. brevis) spores and microbes from the...
The evaluation is discussed of the terminal sterilization process for unmanned lander spacecraft. Re...
Evaluation equipment for terminal sterilization process on unmanned landers and determination of the...
Dry heat resistance of bacilus globigii spores encapsulated in lucite and dried on paper strips for ...
Heat shock effects on bacterial spore recovery and Apollo 9, 10, and 11 microbial contamination dat
Dry heat resistances of bacterial spores, and levels of microbial contamination on Apollo spacecraf
Moisture effects on thermal inactivation of microbial spores for spacecraft sterilizatio