AquaMatte® 22 | Micro Powders, Inc. | AquaMatte® 22 is an ultrafine grade of micronized oxidized polyethylene for gloss reduction of paints and industrial coatings. Also useful as an additive in seed coatings. | |
AquaMatte® 26HD | Micro Powders, Inc. | AquaMatte® 26HD is a very fine grade of densified oxidized polyethylene for gloss reduction and optimum stability in water based paints and coatings | |
AquaMatte® 31 | Micro Powders, Inc. | AquaMatte® 31 is a fine micronized oxidized polyethylene for gloss reduction of paints and industrial coatings. Also useful as an additive in seed coatings. | |
AquaPoly 215 | Micro Powders, Inc. | AquaPoly 215 is a micronized oxidized polyethylene for rub resistance and slip in aqueous systems | |
AquaPoly 250 | Micro Powders, Inc. | AquaPoly 250 is a unique micronized polyethylene wax blend for maximum rub and scratch resistance with improved slip in aqueous systems. | |
AquaSuperslip 6550 | Micro Powders, Inc. | AquaSuperslip 6550 is a unique micronized polyethylene/amide wax composite that provides lubricity with a smooth surface feel in aqueous systems. | |
Fluo 750TX | Micro Powders, Inc. | Fluo 750TX is a high molecular weight PTFE for creating strong and consistent texture with matting in powder coatings. | |
Fluo 850TX | Micro Powders, Inc. | Fluo 850TX is an ultra high molecular weight PTFE for creating maximum texture with matting in powder coatings. | |
MicroMatte® 1213 UVW | Micro Powders, Inc. | MicroMatte® 1213 UVW is a modified polypropylene wax densified with silica for consistent gloss control with clarity and stability in water based and UV/EB coatings. | |
Micromide 520 | Micro Powders, Inc. | Micromide 520 is a micronized fatty amide wax for maximum surface slip, scratch resistance and release properties. | |
Microspersion® 1213 UVW | Micro Powders, Inc. | Microspersion® 1213 UVW is a water based dispersion of modified polypropylene wax, densified with silica for consistent gloss control with clarity and stability in water based and UV/EB coatings. | |
Microspersion® 1406 | Micro Powders, Inc. | Microspersion® 1406 is a unique nonionic water based dispersion of submicron PTFE. | |
Microspersion® 150-50 | Micro Powders, Inc. | Microspersion® 150-50 is a nonionic water based dispersion of a unique, high performance composite of polyethylene and PTFE for surface lubricity with scratch and abrasion resistance. | |
Microspersion® 1935 | Micro Powders, Inc. | Microspersion® 1935 is a polyethylene wax dispersion that provides improved surface coatings properties. | |
Microspersion® 214-50 | Micro Powders, Inc. | Microspersion® 214-50 is a nonionic water based dispersion of micronized oxidized Fischer-Tropsch wax for rub resistance and improved surface slip. | |
Microspersion® 214VF-50 | Micro Powders, Inc. | Microspersion® 214VF-50 is a nonionic water based dispersion of micronized oxidized Fischer-Tropsch wax for rub resistance and improved surface slip. | |
Microspersion® 230-50 | Micro Powders, Inc. | Microspersion® 230-50 is a nonionic water based dispersion of an economical grade of micronized polyethylene wax for abrasion resistance and slip. | |
Microspersion® 250-50 | Micro Powders, Inc. | Microspersion® 250-50 is a nonionic water based dispersion of micronized oxidized polyethylene wax for maximum rub and scratch resistance with improved slip in aqueous systems. | |
Microspersion® 295-40 | Micro Powders, Inc. | Microspersion® 295-40 is a nonionic water based dispersion of a micronized blend of polyethylene and carnauba wax for slip and scratch resistance with excellent clarity and gloss retention. | |
Microspersion® 418-40 | Micro Powders, Inc. | Microspersion® 418-40 is a nonionic water based dispersion of MicroKlear 418. | |
Microspersion® 418-40 for Seed Coatings | Micro Powders, Inc. | Microspersion® 418-40 for Seed Coatings is a nonionic water based dispersion of MicroKlear 418 designed for use in seed coatings. | |
Microspersion® 519 | Micro Powders, Inc. | Microspersion® 519 is a water based dispersion of a specially formulated wax composite that provides immediate water repellency and weather resistance. | |
Microspersion® 520 | Micro Powders, Inc. | Microspersion® 520 is an anionic water based dispersion of EBS for maximum surface slip, scratch resistance and release properties. | |
Microspersion® 523AL-50 | Micro Powders, Inc. | Microspersion® 523AL-50 is a nonionic water based dispersion of a highly engineered HDPE/PTFE/alumina nanocomposite for unsurpassed scratch and scuff resistance. | |
Microspersion® 526E | Micro Powders, Inc. | RMicrospersion® 526E is an anionic modified polyethylene wax emulsion for improving surface properties in water based coatings. | |
Microspersion® 530E | Micro Powders, Inc. | Microspersion® 530E is an anionic emulsion of oxidized high density polyethylene to improve surface properties. | |
Microspersion® 580E | Micro Powders, Inc. | Microspersion® 580E is a nonionic water based wax emulsion for use in seed coatings. | |
Microspersion® 611-50 | Micro Powders, Inc. | Microspersion® 611-50 is a nonionic water based dispersion of a high performance grade of micronized polyethylene wax for inks and coatings. | |
Microspersion® 611XF-50 | Micro Powders, Inc. | Microspersion® 611XF-50 is a nonionic water based dispersion of a high performance grade of micronized polyethylene wax for inks and coatings. | |
Microspersion® 635F-50 | Micro Powders, Inc. | Microspersion® 635F-50 is a nonionic water based dispersion of polyethylene wax for maximum rub and abrasion resistance in inks and coatings. | |
Microspersion® 6550 | Micro Powders, Inc. | Microspersion® 6550 is a water based dispersion of a unique micronized polyethylene/amide wax composite that provides lubricity with a smooth surface feel in aqueous systems. | |
Microspersion® 900-50 | Micro Powders, Inc. | Microspersion® 900-50 is a nonionic water based dispersion of a unique ceramic fortified composite of low density polyethylene and PTFE for maximum abrasion and burnish resistance, surface durability and antiblocking. | |
Microspersion® HT | Micro Powders, Inc. | Microspersion® HT is a nonionic water based dispersion of micronized PTFE that provides superior lubricity, abrasion and temperature resistance to industrial coatings and inks. | |
MP-22C | Micro Powders, Inc. | MP-22C is a spherical grade of Fischer-Tropsch wax for improved slip, scratch and rub resistance. | |
MP-28AL | Micro Powders, Inc. | MP-28AL is a value-engineered synthetic wax/aluminum oxide nano-composite for scratch and scuff resistance. | |
MPP-1241 | Micro Powders, Inc. | MPP-1241 is a micronized high molecular weight polyethylene wax for maximum rub and abrasion resistance in inks and coatings. | |
MPP-635F | Micro Powders, Inc. | MPP-635F is a micronized high molecular weight polyethylene wax for maximum rub and abrasion resistance in inks and coatings. It has a maximum particle size of 31μm. | |
MPP-635G | Micro Powders, Inc. | MPP-635G is a micronized high molecular weight polyethylene wax for maximum rub and abrasion resistance in coatings and inks. | |
MPP-635VF | Micro Powders, Inc. | MPP-635VF is a micronized high molecular weight polyethylene wax for maximum rub and abrasion resistance in inks and coatings. It has a maximum particle size of 22μm. | |
MPP-635XF | Micro Powders, Inc. | MPP-635XF is a micronized high molecular weight polyethylene wax for maximum rub and abrasion resistance in inks and coatings. It has a maximum particle size of 22μm. | |
NatureMatte® C44 | Micro Powders, Inc. | NatureMatte® C44 is a fine cellulose powder for superior gloss reduction with excellent viscosity stability. | |
NatureTex 140 | Micro Powders, Inc. | NatureTex 140 is a micronized naturally derived cellulose acetate for reducing gloss and adding consistent surface texture and structure to a wide variety of paints and coatings. | |
NatureTex 200 | Micro Powders, Inc. | NatureTex 200 is a micronized naturally derived cellulose acetate for reducing gloss and adding consistent surface texture and structure to a wide variety of paints and coatings. | |
NatureTex 270 | Micro Powders, Inc. | NatureTex 270 is a micronized naturally derived cellulose acetate for reducing gloss and adding consistent surface texture and structure to a wide variety of paints and coatings. | |
NatureTex 325 | Micro Powders, Inc. | NatureTex 325 is a micronized naturally derived cellulose acetate for reducing gloss and adding consistent surface texture and structure to a wide variety of paints and coatings. | |
Polyfluo® 200 | Micro Powders, Inc. | Polyfluo® 200 is a high performance combination of high slip polyethylene and PTFE for surface lubricity with scratch and abrasion resistance. | |
Polysilk® 600 | Micro Powders, Inc. | Polysilk® 600 is a formulated wax composite that provides surface slip with scratch and rub resistance, as well as a smooth surface feel. | |
Polysilk® 750 | Micro Powders, Inc. | Polysilk® 750 is a formulated wax composite that provides surface slip with scratch and rub resistance, as well as a smooth surface feel. | |
Propylfluo 824 | Micro Powders, Inc. | Propylfluo 824 is a complex modified blend of polypropylene and PTFE that provides gloss control with slip and lubricity. | |
SuperGlide 904 | Micro Powders, Inc. | SuperGlide 904 is a unique combination of amide wax and Fischer-Tropsch wax that provides slip, scratch and block resistance with a very smooth surface feel. | |
Superslip 6515 | Micro Powders, Inc. | Superslip 6515 is an economical combination of polyethylene and amide wax that provides scratch and mar resistance with a smooth surface feel. | |
Superslip 6530 | Micro Powders, Inc. | Superslip 6530 is a combination of high performance polyethylene and amide wax that provides maximum lubricity with scratch resistance, antiblocking, and a smooth surface feel. | |
Synslip 3750 | Micro Powders, Inc. | Synslip 3750 is a combination of Fischer-Tropsch wax and amide wax that provides scratch resistance, antiblocking and surface lubricity. | |
Synslip 3780 | Micro Powders, Inc. | Synslip 3780 is an economical combination of high molecular weight Fischer-Tropsch wax and amide wax that provides scratch resistance, antiblocking and surface lubricity. |