05/15/2023
Which Rubber to use – Properties of rubber compounds
Properties of rubber compounds
The below table is for use as a guide, and represents a highly simplified overview. AVMR moulds a wider variety of materials than in this table.
It is possible to improve rubber compounds performance in a particular area by using additives, for example, natural rubber’s oxidation, ozone & weather resistance properties can be improved significantly.
| Common name | Natural | SBR | EPDM | Butyl | Neoprene | Nitrile | Therban | Viton |
| Chemical name | Isoprene | Styrene Butadiene
Copolymer |
Ethelene Propylene & a Diene | Isobutene – Isoprene | Chloroprene | Acrylonitrile Butadiene Copolymer | Hydrogenated Acrylonitrile Butadiene | Fluoronated Hydrocarbon |
| Abbreviation | NR | SBR | EPDM | IIR | CR | NBR | HNBR | FKM |
| Hardness range (° ShA) | 30 – 95 | 40 – 95 | 20 – 85 | 30 – 85 | 30 – 90 | 40 – 100 | 50 – 95 | 50 – 95 |
| Colours | Full range | Full range | Full range | Limited range | Limited range | Limited range | Full range | Limited range |
| Physical Strength | Excellent | Good | Good | Good | Good | Good | Good | Good |
| Compression Set | Good | Good | Good | Good | Fair | Good | Good | Good |
| Tear resistance | V Good | Fair | Good | Good | Good | Good | V. Good | Good |
| Abrasion resistance | Excellent | V. Good | Good | Good | Good | Good | V. Good | Good |
| Bonding | Good | Good | Fair | Fair | Good | Good | Good | Good |
| RESISTANCE/LIMITS: | ||||||||
| Continuous Heat | 75°C | 85°C | 130°C | 130°C | 95°C | 100°C | 140°C | 205°C |
| Short term Heat | 105°C | 115°C | 150°C | 150°C | 125°C | 130°C | 165°C | 260°C |
| Low temp | -40°C | -40°C | -40°C | -40°C | -40°C | -20°C | -20°C | -20°C |
| Oxidation | Fair | Fair | Excellent | Excellent | V. good | Good | Excellent | Excellent |
| Ozone & weather | Poor | Poor | Outstanding | Outstanding | V. good | Fair | V. good | Excellent |
| Gas permeation | Fair | Fairly low | Fairly low | Excellent | Low | Low | Good | Very low |
| Flame | Poor | Poor | Poor | Poor | Self-Extinguishing | Poor | Poor | Self Extinguishing |
| Water absorption | Very good | Good | Excellent | Excellent | Fair | Good | V. Good | Good |
| Acids | Fair | Fair | Good | Good | Good | Good | Good | Excellent |
| Bases | Good | Good | Good | Good | Fair | Fair | Good | Fair |
| Alcohol @20°C | Good | Good | Good | Good | Good | Good | Excellent | Good |
| Acetone @20°C | Fair | Fair | Good | Good | Fair | X | Good | X |
| Benzene @20°C | X | X | X | X | X | X | Fair | Good |
| Fuel: ASTM Fuel B @40°C | X | X | X | X | Poor | Fair | Good | Excellent |
| Oil: ASTM Oil 1 @20°C | Poor | Poor | Poor | Poor | Excellent | Excellent | Excellent | Excellent |
| @100°C | X | X | X | X | Good | Good | Excellent | Excellent (@150°C) |
| Oil: ASTM Oil 3 @20°C | X | X | X | X | Good | Excellent | Excellent | Excellent |
| @100°C | X | X | X | X | Fair | Good | Excellent | Excellent (@150°C) |
X – Unsuitable or unsatisfactory performance
Note: the above data is provided as a general guide only. Mistakes might have been made in compiling this information. Customers must assure themselves that products are safe to use and perform as required under the relevant user scenarios.
Part 1: Introduction to Rubber
Part 2: Benefits of using Rubber
Part 4: Refining the compound
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