Niax* Catalysts for HR Molded Foam
Product Properties
Niax Catalysts |
Blow | Balance | Gel | Delayed Action |
A-1 | ♦ | |||
A-107 | ♦ | ♦ | ||
A-400 | ♦ | ♦ | ||
A-440 | ♦ | ♦ | ||
A-4 | ♦ | |||
C-15 | ♦ | |||
C-174 | ♦ | |||
C-225 | ♦ | ♦ | ||
A-310 | ♦ | ♦ | ||
A-338 | ♦ | ♦ | ||
A-33 | ♦ | |||
A-300 | ♦ | ♦ | ||
EF-150 | ♦ | ♦ | ||
EF-600 | ♦ | ♦ | ||
EF-680 | ♦ | ♦ | ||
Niax Additives - Performace Improver | ||||
WSI-1 | ♦ | ♦ | ||
WSI-2 | ♦ | ♦ | ♦ |
HR = High Resilience; TM80 = TDI/MDI 80/20; FTC = Force to Crush; TDI = Toluene diisocyanate; MDI = Methylene diphenyl diisocyanate
Product Description
Niax Catalysts |
Product Description | |||
A-1 | Industry standard | |||
A-107 | Industry standard delayed action blow catalyst | |||
A-400 | Delayed action load building (TDI), cell opening blow catalyst, can improve flowability (MDI) (low corrosion) | |||
A-440 | Delayed action load building (TDI), cell opening blow catalyst, can improve flowability (MDI) (low corrosion) | |||
A-4 | Low staining catalyst that can improve surface cure | |||
C-15 | Tertiary amine used for molded foam surface curing catalyst | |||
C-174 | HR MDI blow catalyst | |||
C-225 | Delay-balanced action catalyst with enhanced curing | |||
A-310 | Balanced cost effective catalyst for enhanced skin cure | |||
A-338 | Tertiary amine catalyst, that can help to improve skin cure at low mold temperatures | |||
A-33 | Industry standard gelling catalyst | |||
A-300 | Delayed action load building, cell opening gel catalyst (low corrosion) | |||
EF-150 | High efficiency blowing catalyst , low volatility | |||
EF-600 | Low odor, virtually emission free balanced catalyst predominantly in gel | |||
EF-680 | High catalyzing efficiency gel catalyst with low odor and virtually emission free property that can improve molded foam end cure | |||
Niax Additives - Performace Improver | ||||
WSI-1 | Provides lower FTC, improved wet set | |||
WSI-2 | Provides lower FTC, improved wet set and mild delayed reactivity for better flow |
HR = High Resilience; TM80 = TDI/MDI 80/20; FTC = Force to Crush; TDI = Toluene diisocyanate; MDI = Methylene diphenyl diisocyanate