Protective Industrial Polymers PIP 2100 UR-Gloss

• Contains UV blockers and absorbers which protect and minimize epoxy basecoats from yellowing
• High-gloss finish provides UV stable, light reflectivity
• Excellent resistance to tire staining (hot or cold)
• Resists Skydrol®, jet fuels and other chemicals
• Withstands industrial traffic with wear additive
• Two times floor life compared to standard urethanes
• Four times floor life compared to most epoxies

Suited for higher profile decorative mezzanines, show room floors, or laboratories and places where physical and chemical resistance combined with light stability are important. Addition of the DiamondWear or GlossGrip No.10 makes the coating ideal for entrance ways where a slight skid resistance floor and decorative floor is desired.

Texture: GlossGrip #10 Additive can be incorporated into PIP 2100 UR-Gloss to create a wear texture while maintaining an easily cleaned glossy surface. DiamondWear Additive can be incorporated into PIP 2100 UR-Gloss to create a satin finish high wear surface

For applications where the temperatures are between 55°F-65°F combined with relative humidity levels (RH) between 20-35%, the use of PIP 2000-2100-Series Spike accelerator is recommended. Use of this accelerator will hasten the cure to be similar of the standard material in normal conditions (70-80F with 35-80% RH). The use of this accelerator in normal conditions will result in a shorter working time, higher viscosity build, reduced leveling and increases stickiness and roller drag. When relative humidity (RH) is below 20%, please consult Protective Industrial Polymers for specific recommendations and limitations.

Caution! Follow all precautions and instructions prior to installation.

PIP 2100 UR must be applied to an epoxy or other approved primer or base coat. Sections below detailing substrate, moisture and vapor/contamination apply to the required conditions of the concrete substrate prior to application of an epoxy primer.

Substrate: The substrate must be free of curing membranes, silicate surface hardener, paint, or sealer and be structurally sound. If you suspect concrete has been treated or sealed, proceed with complete removal process. Consult your PIP representative for further instruction if silicate hardeners or membranes have been utilized.

Moisture: Moisture and moisture vapor transmission rates are dynamic in nature and may change over time. Initial testing does not guarantee future results. If the PIP 2000 is to be applied direct to the concrete substrate, Protective Industrial Polymers must be consulted.

Vapor/Contamination: Testing for MVT does not guarantee against future problems. If there is no known vapor barrier or the vapor barrier is inadequate, there is an elevated risk of bond failure. Other factors including the migration of oils, chemicals, excessive salts or Alkali Silica Reaction (ASR) from the concrete from may also elevate the risk of adhesion difficulties.

Temperature and Humidity: During the application and cure of the coating, the substrate temperature, material temperature and room conditions must be maintained between 65°F (18°C) and 90°F (32°C). Relative Humidity (RH) should be limited to 30-80%. Do not apply coatings unless the surface temperature is more than five degree over the dew point.

• Protective equipment and clothing
• Jiffy® Mixer Blade model ES
• Clean container for mixing material
• Low speed high torque drill motor
• High quality short nap roller covers- ¼-3/8 inch nap
• Application Squeegee

Surface dirt, grease, oil and contaminates must be removed by detergent scrubbing and rinsing with clean (clear) water.
Mechanical Preparation: Shot Blasting or grinding the surface is the preferred method of preparation. The success of industrial diamond grinding as a concrete preparation method will vary depending on technique and the hardness of the concrete.

Joints: All non moving joints (control joints) can be filled with a rigid or semi-rigid joint compound. Construction joints may be filled with semi-rigid joint filler and might need to be re-built and re-cut depending on conditions. Isolation or expansion joints must be filled with a flexible material designed for expansion and should not be coated over.

Mixing: Use a Jiffy®ES mix blade attached to a slow speed drill. Mix only enough material at one time not to exceed the pot life. Note: Once this material is opened and mixed it can’t be resealed for later use. Add 2100-A (Part A) to the 2100-B (Part B) container and mix together for 2 minutes. Product may be thinned with Xylene or S-1 solvent with a maximum addition of 8 ounces per mixed gallon of the PIP 2100 UR. Never use an alcohol solvent to thin a Protective Industrial Polymers urethane coating. Please consult Protective Industrial Polymers for additional thinning recommendations.

Optional GlossGrip or DiamondWear should be added after the Part A, Part B and color is mixed.

Do Not Spray!!
Prior to coating, the floor must be completely free of fine dust and minute debris. It is best to mechanically wash, rinse and finally damp wipe the floor with clean towels and water. It is also recommended to rid roller of initial loose nap by wetting and painting a small scrap piece of plastic sheeting or cardboard prior to using on the floor. Atmospheric Relative Humidity above 50%, regardless of temperature, has a dramatic effect on reducing the workable wet edge tie-in time relating to consistent color development of PIP 2000 or PIP 2100 series urethanes. Temperatures above 75F have the same impact. When encountering either of these situations or a combination of both, it is imperative to mix, apply, and finish roll the coating within 10 minutes. Exceeding this time may present roller marks or dark edge lines. Plan your application pattern ahead of time so that these wet tie-in times can be met as practically possible.

Smooth Gloss Application

Pour entire mix as quickly as possible to the floor. Quickly spread material uniformly using a notched squeegee over the floor. Then level by back-rolling with a 3/8”-3/16 inch nap non-shedding roller. Care should be taken to overlap and cross lap, but not over roll the coating introducing air into the surface. Applying the material too thin (less than 6 mils) may result in poor leveling, may exhibit a slight orange peel finish and not sufficiently hide small dust, dirt and roller lint commonly encountered and exacerbated on high gloss floors. The best practice is to measure and grid the floor to be sure of the proper application rate.

Textured Application Apply PIP 2000 UR containing GlossGrip #10 to the floor surface utilizing a roller pan and roller. Do not squeegee as it will be very difficult to remove the squeegee lines. It is best to place a screen at the bottom of the pan to prevent the roller from picking up settled aggregate at the bottom of the pan. Roll often so as to expose aggregate uniformly. Material applied excessively heavy (greater than 3.5 mils) will exhibit irregular texture, may blister or gas and can be soft during curing. Applying the material too thin will result in a non-uniform gloss. The best practice is to measure and grid the floor to be sure of the proper application rate.

Curing (Drying): The cure time of PIP 2000 UR is greatly dependent on both temperature and relative humidity. At 70-75 degrees F and 35% RH, PIP 2000 UR should be tack free and light foot traffic or recoat ready after 6-8 hours of cure. Allow the coating to cure (dry) for a minimum 24 hours before vehicular traffic. Final physical and chemical resistance properties are achieved at 7-10 days. Allow for longer cure times at lower temperatures and low humidity.

PIP 2000-2100-Series Spike can be added to decrease the curing time of PIP 2000 UR. Below are approximate guidelines to use for additions of PIP 2000-2100-Series Spike. Jobsite conditions other than which are listed may also affect curing profile. Use only as a general guideline.

Cure Profile (72°F and 35% RH) PIP 2000

Cure Profile (60°F and 35% RH) PIP 2000

Cure Profile (90°F and 60% RH) PIP 2000

Allow floor coating to cure at least one week before cleaning by mechanical means (IE: sweeper, scrubber, disk buffer).

Care: Increased life of the floor will be seen with proper maintenance and will help maintain a fresh appearance of your new Protective Industrial Polymers floor. Regularly sweep to avoid ground in dirt and grit which can quickly dull the finish, decreasing the life of the coating. Spills should be removed quickly as certain chemicals may stain and can permanently damage the finish. Only soft nylon brushes or white pads should be used on your new floor coating. Premature loss of gloss can be caused by hard abrasive bristle Polypropylene (Tynex®) brushes.

Caution: Heavy objects dragged across the surface will scratch all floor coatings. Avoid gouging or scratching the surface. Pointed items or heavy items dropped on the floor may cause chipping or concrete pop out damage. Plasticizer migration from rubber tires can permanently stain the floor coating. If a rubber tire is planned to set on the floor for a long period of time, place a piece of acrylic sheet between the tire and the floor to prevent tire staining. Rubber burns from quick stops and starts from lift trucks can heat the coating to its softening point causing permanent damage and marking.

Repair: Repair gouges, chip outs, and scratches as soon as possible to prevent moisture and chemical under cutting and permanent damage to the floor coating.

Contamination and surface defects: If contaminates including oil, silicone, mold release agents and/or other materials are present, PIP 2100 UR may fisheye or crawl away from the surface. All surface contaminates should be removed with a suitable detergent prior to application. Solvent cleaning of silicone based contaminates is not recommended; please contact Technical Service for additional recommendations.

Do not apply PIP 2100 direct to PIP 1300 MVR. Always apply another pip epoxy product such as PIP 1000 series coatings on top of the PIP 1300 MVR before applying the PIP 2100 urethane.

*Properties and results are based on laboratory testing at 72°F (22°C) %50 RH, theoretical calculations and estimates. Typical properties, as stated, are to be considered as representative of current production and should not be treated as specifications.

*Based on spot testing of the clear coating after 14 days of cure. Pigmented versions may see reduced chemical resistance and staining.

Legend:
E- Excellent (Not Effected)
G-Good (Limited Negative Effect)
F-Fair (Moderate Negative Effect)
P-Poor (Unsatisfactory)