REPLACING THPC IN THE APO-THPC FLAME-RESISTANT FINISH FOR TEXTILES
Abstract
An infrared method for the rapid screening of candidate catalysts for the polymerization of APO is described. Of the wide variety of chemicals screened, compounds that are acidic under curing conditions are the most effective catalysts. One of these catalysts, diammonium phosphate, combined with APO produces a new durable flame retardant for cellulosic textilium radicals, Ammonhosphoadicals, Phosphates, Imines, Phosphate coat ings, Infrared spectroscopy, Polymers.An infrared method for the rapid screening of candidate catalysts for the polymerization of APO is described. Of the wide variety of chemicals screened, compounds that are acidic under curing conditions are the most effective catalysts. One of these catalysts, diammonium phosphate, combined with APO produces a new durable flame retardant for cellulosic textilium radicals, Ammonium radicals, Phosphates, Imines, Phosphate coat ings, Infrared spectroscopy, Polymers.An infrared method for the rapid screening of candidate catalysts for the polymerization of APO is described. Of the wide variety of chemicals screened, compounds that are acidic under curing conditions are the most effective catalysts. One of these catalysts, diammonium phosphate, combined with APO produces a new durable flame retardant for cellulosic textiles. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Dec 01, 1962
- Accession Number
- AD0286063
Entities
People
- A. Merola
- F.a. Hoffman
- T.d. Miles
Organizations
- Army Research Office