Available Quantity Option: Case
Case Unit: 20 Flexpacks of 50 Wipers Per Case
TX3214 Sterile TechniSat 9" x 11" Polyester and Cellulose Wiper Pre-Wetted 70% IPA
*This item is considered a Consumer Commodity ORM-D shipment and can only be shipped Ground
ITW Texwipe is a worldwide leader in contamination control supplies and critical cleaning products including lint free clean room wipers, cleanroom swabs, cleanroom stationery, sterile products, adhesive mats and more.
ITW Texwipe TX3214 Sterile TechniSat is constructed from a hydro-entangled polyester/cellulose blend that is pre-wetted with 70% isopropyl alcohol and packaged in a resealable flex pack. Each package is gamma irradiated to 10-6 Sterility Assurance Level. Sterile TechniSat is used for alcohol wiping in sterile environments in pharmaceutical aseptic fill areas, biotechnology manufacturing facilities, microbiological laboratories, sterile suites and prep rooms.
ITW Texwipe TX3214 Features:
- Gamma irradiated to 10-6 Sterility Assurance Level, according to AAMI Guidelines ensures sterility
- Lot-specific information simplifies record keeping
- Certificate of Irradiation confirms radiation dosage
- Certification of Compliance
- Expiration date marked on each package
- Pre-wetted with 70% isopropyl alcohol/30% deionized water, filtered through a 0.2μm filter
- Binder-free, hydro-entangled polyester/cellulose substrate
- Independent quality control audits for sterility assurance
ITW Texwipe TX3214 Benefits:
- Optimizes solution usage and reduces spill potential
- Eliminates problems associated with filtration, sterilization and mixing of alcohol and DI water
- Packaging permits alcohol wipe down of exterior bag before introduction into sterile suites
- Offers low levels of solvent extractables and particle generation
ITW Texwipe TX3214 Applications:
- Designed for cleaning and polishing equipment and environmental surfaces during and following the production flow
- Ideal for wiping gloved hands
- Suitable for sterile wiping of production equipment and laminar flow hoods requiring low solvent extractables and low particle generation