Wipes and Absorbent Pads
Kimberly-Clark™ Professional Kimwipes™ Delicate Task Wipers
Clean and polish delicate surfaces without scratching or leaving residue. Single-ply Kimwipes™ EX-L wipes are made of a finely textured tissue. Come in a convenient Pop-U™ box with antistatic Lintguard™ polyshield.
Kimtech Science™ Wipe Delicate Task White
Wipe liquids with multi-ply absorbency and low lint content for intricate dusting. Kimberly Clark™ Kimtech Scientific™ Delicate Task Wipers are ideal for cleaning delicate glassware, instruments, and surface/parts.
Texwipe™ Absorbond™ Polyester Blended Wipers
For ISO Class 6 to 7 (Class 1000 to 10,000) applications
Texwipe™ FoamWipe™ Polyurethane Foam Wipers
For ISO Class 7 to 8 (Class 10,000 to 100,000) applications
Fisherbrand™ BloodBloc™ Biohazard Wipes, Liners and Rolls
Prevent leakage of fluids and chemicals to hands, gloves and work surfaces
Texwipe™ AlphaLite™ II Cleanroom Floor Wipes
Cut-edge polyester single ply wipe that is ideal for floor cleaning and for applying cleaning solutions and disinfectants on floors
Texwipe™ Vertex™ Dry Cleanroom Wipers
Sterile dry cleanroom wipers made from 100% polyester material with a sealed edge processed on the fully automated Vertex™ manufacturing system. Vertex™ process advances cleanroom wiper manufacturing technology, bringing it to the highest level in the industry.
Texwipe™ TechniCloth™ Mop Cover
Fabricated from a hydroentangled, nonwoven blend of 55% cellulose and 45% polyester
Texwipe™ ThermaSeal™ 60 Wipers
100% continuous-filament, double-knit polyester fabric. These wipers are laser cut (thermally sealed) polyester, laundered in an ISO Class 4. Ideal for all purpose applications in critical cleanrooms and higher environments.
Fisherbrand™ Grade 605 Very Absorbent Joseph Paper
Used in laboratories and hospitals. Fisherbrand™ Grade 605 Very Absorbent Joseph Paper is thin and not fluffy.
Fisherbrand™ Nonwoven Cleanroom Wipes
Fisherbrand™ Nonwoven Cleanroom Wipes are tough, abrasion resistant, absorbent, and virtually free of particle generation.