The temperature rise due to processing is minimal! Since there is no post-processing after irradiation, it can be shipped immediately.
Sterilization refers to the process of reducing the number of microorganisms or removing specific microorganisms, while sterilization means bringing the possibility of microbial growth as close to zero as possible. There are various sterilization methods, including general flame sterilization and dry heat sterilization, but the methods widely used in industry are high-pressure steam sterilization, gas sterilization, and radiation sterilization. Ultraviolet light is convenient for disinfection but is not suitable for sterilization. Additionally, filtration sterilization methods using special filters may be employed for sterilizing liquids and gases. 【Features】 - Minimal temperature rise during processing - No residual substances - Processing possible in the final packaging state - Continuous processing possible - Easy process management *For more details, please refer to the PDF document or feel free to contact us.
Inquire About This Product
basic information
【General Flow of Validation According to Standards】 1. Determination of Maximum Permissible Dose 2. Identification of Target Products and Product Family 3. Determination of Sterility Assurance Level (SAL) 4. Decision on Sterilization Dose Setting Method 5. Measurement of Bioburden 6. Irradiation with Test Dose 7. Sterility Testing 8. Establishment of Sterilization Dose 9. Measurement of Dose Distribution *For more details, please refer to the PDF document or feel free to contact us.
Price range
Delivery Time
Applications/Examples of results
For more details, please refer to the PDF document or feel free to contact us.
catalog(2)
Download All Catalogs
Company information
Our company was established in November 1971 with the business purpose of providing gamma ray irradiation services and related technological development. Since then, we have steadily enhanced our facilities, including the addition of two gamma ray irradiation facilities and the establishment of an electron beam irradiation facility, in response to the growing demand for radiation irradiation. Today, we contribute to the development of increasingly important fields such as medical devices, container and packaging materials, feed for laboratory animals, and instruments for bio-research, starting with sterilization and disinfection, as well as modification of polymer materials, electronic materials, and radiation resistance testing of components for nuclear reactors and artificial satellites.