Container Type Container Type | Show |
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Container Type Container Type | Hide |
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| Tube | Cartridge |
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| Can | Syringe |
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| Bottle | Jar |
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| Stick | Pail |
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| Aerosol Can | Mixer Cup |
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| Jug | Patch |
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| Pen | Strip |
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| Single-Use Packet | Bag |
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| Cylinder | Drum |
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| Sausage Pack | Spray Bottle |
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| Box | Brush-Top Bottle |
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| One-Time-Use Capsule | Brush-Top Can |
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| Roll | Nozzle-Top Can |
Container Material Container Material |
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Material Material |
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DFARS (Defense Acquisition Regulations Supplement) DFARS (Defense AcquisitionRegulations Supplement)  |
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Compatible With Compatible With |
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Form Form |
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Particle Size Particle Size |
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CAS Number CAS Number |
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For Use On For Use On |
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Color Color |
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 | Gray |
Type Type |
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RoHS (Restriction of Hazardous Substances) RoHS (Restriction ofHazardous Substances) |
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Approximate Coverage @ Thickness Approximate Coverage@ Thickness |
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Reaches Full Strength Reaches Full Strength |
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Contains Aggregate Contains Aggregate |
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Formulation Formulation |
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Maximum Thickness Maximum Thickness |
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Consistency Consistency |
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REACH (Registration, Evaluation, Authorization and Restriction of Chemicals) REACH (Registration,Evaluation, Authorization and Restriction of Chemicals) |
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Clarity Clarity |
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Maximum Application Temperature Maximum ApplicationTemperature |
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Concrete Patching Compounds
Patch concrete floors, stairs, and walls with these compounds.
Mix gypsum compounds with water. They can also be used to anchor bolts, railings, and posts. When used outdoors, apply a sealer (not included) for best results.
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| Net Weight, lbs. | Type | Begins to Harden, min. | Reaches Full Strength | Consistency | Mix Ratio | Approximate Coverage @ Thick. | Max. Thick. | Application Temp. Range, °F | For Use On | Color | Each | |
Gypsum | ||||||||||||
| 5 | Box | 15 | 60 min. | Powder | 3.5:1 | 2 1/2 sq. ft. @ 1/4" | Not Rated | 25° to 100° | Concrete | Gray | 0000000 | 000000 |
| 25 | Box | 15 | 60 min. | Powder | 3.5:1 | 13 sq. ft. @ 1/4" | Not Rated | 25° to 100° | Concrete | Gray | 0000000 | 00000 |
Additives and Reinforcements for Composites
Mix these additives with melted plastic, epoxies, or adhesives to make parts stronger and more wear resistant without adding much weight. You can use them in batches to tackle repairs and small parts instead of machining your part from a sheet, bar, or other shape.
Carbon Fiber and Recycled Carbon Fiber
Often used in vehicles to increase fuel efficiency, these additives can double your composite’s strength to make stiff pieces that are stronger and lighter in weight than aluminum. The more you add to your mixture, the stronger it becomes. These additives also carry electric currents, so they’re good for directing electromagnetic energy away from electrical devices. However, they don’t direct electricity as well as metal. They’re made of chopped fibers, which makes them ideal for repairs and intricate parts. But, they’re not as strong or as stiff as materials with continuous fibers, such as fabric and tow.
The size of carbon fiber’s particles affects its ease of use and strength. The smaller the particle size, the less effort it requires to mix. On the other hand, larger particles make parts stronger and stiffer. Choose carbon fiber with smaller particle sizes when making intricate parts and repairs.
Recycled carbon fiber additives have a low carbon footprint to help you meet environmental goals. But, they’re not as strong or as stiff as standard carbon fiber additives.
Carbon fiber additives for thermoplastics bond with most melted plastic pellets, except PVDF. Shape your mixture into parts with compression and injection molding or 3D printing. You can shape your finished product multiple times without losing its strength. Start by adding 10% by volume to your mixture. Carbon fiber additives for thermosets mix with epoxies, adhesives, vinyl compounds, and phenolic. Use compression molding to turn your mixture into parts, or fill in cavities after curing without adding weight. You can’t shape your product once it’s cured. Begin with 5% by volume in your mixture.
Kevlar
Choose these additives when your application is likely to wear down your finished part—they improve a part’s ability to stand up to corrosion, bangs, bumps, and scrapes. They’re also used to reinforce points where honeycomb cores connect to fabric. To start, mix in 1 part Kevlar to 15 parts composite.
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| Compatible With | Concentration | Net Weight | Type | Material | Form | Particle Size | CAS Number | Each | |
Carbon Fiber | |||||||||
| Thermoplastics | 91% | 1 lbs. | Box | Cardboard | Flake | 6350 microns | 7440-44-0 | 0000000 | 000000 |
| Thermoplastics | 91% | 5 lbs. | Box | Cardboard | Flake | 6350 microns | 7440-44-0 | 0000000 | 000000 |
| Thermosets | 91% | 1 lbs. | Box | Cardboard | Flake | 3175 microns | 7440-44-0 | 0000000 | 00000 |
| Thermosets | 91% | 1 lbs. | Box | Cardboard | Flake | 6350 microns | 7440-44-0 | 0000000 | 00000 |
| Thermosets | 91% | 5 lbs. | Box | Cardboard | Flake | 3175 microns | 7440-44-0 | 0000000 | 000000 |
| Thermosets | 91% | 5 lbs. | Box | Cardboard | Flake | 6350 microns | 7440-44-0 | 0000000 | 000000 |
Recycled Carbon Fiber | |||||||||
| Thermoplastics | 91% | 1 lbs. | Box | Cardboard | Flake | 6350 microns | 7440-44-0 | 0000000 | 00000 |
| Thermoplastics | 91% | 5 lbs. | Box | Cardboard | Flake | 6350 microns | 7440-44-0 | 0000000 | 00000 |
Kevlar | |||||||||
| Thermoplastics | 80% | 1 lbs. | Box | Cardboard | Loose Fiber | 1050 microns | 26125-61-1 | 0000000 | 000000 |
Chemicals
Also known as technical-grade chemicals, these industrial-grade chemicals are not suitable for food or medicinal use.