- Overview
- Product Description
- Detailed Photos
- Product Parameters
Basic Info.
Model NO.
HRB HS 6000
Standard
International
Type
Bearing
Material
Polyurethane rubber
Thickness
12.5/25mm
Roll
1.5m wide, 5.0m long
Strip
Up to 1.5m wide, up to 5.0m long
Shape
Customized
Transport Package
Carton
Specification
Customized
Trademark
THERMOTEST/OEM
Origin
China
Production Capacity
50000/Month
Product Description
Material: closed-cell PU elastomer (Polyurethane)
Color: dark blue
Dimensions can be customized,Other dimensions, punched and moulded parts on request.
Thermotest is using "Sylodyn," a polyurethane dampening material. Compared to existing dampening rubber, Sylodyn is more durable, more stable and is able to be made thinner in order to fit into small spaces, making installation quick and easy.
Range of use | Compressive | Deformation |
| Shape factor-dependent, the specified values apply to shape factor of q=3 | ||
| Static range of use (static loads) | up to 6.0N/mm2 | approx. 12% |
| Dynamic range of use (dynamic loads) | up to 9.0N/mm2 | up to 15% |
| Load peaks (occasional, brief loads) | up to 18.0 N/MM2 | approx. 25% |
Technical Data
| Material Properties | Test Methods | Comment | |
| Mechanical loss factor | 0.07 | DIN 53513 1 | temperature-, frequency-, specific load- and amplitude-dependent |
| Compression set 2 | < 5 % | EN ISO 1856 | 25 % deformation, 23 °C, 72 h, 30 min after removal of load |
| Static shear modulus3 | 3.5N/mm2 | DIN ISO 1827 1 | at a pretension of 6.0 N/mm2 |
| Dynamic shear modulus3 | 4.2N/mm2 | DIN ISO 1827 1 | at a pretension of 6.0 N/mm2, 10 Hz |
| Coefficient of friction (steel) | ≥ 0.6 | Werkstoffe | dry, static friction |
| Coefficient of friction (concrete) | ≥ 0.7 | Werkstoffe | dry, static friction |
| Thermal conductivity | 0.17 W/mK | DIN EN 12664 | |
| Temperature range | -30 °C to 70 °C | short term higher temperatures possible | |
| Flammability | class E | EN ISO 11925-2 | normal combustible, EN 13501-1 |
1Measurement/evaluation in accordance with the relevant standard
2 The measurement is performed on a densitydependent basis with differing test parameters
3 Values apply to shape factor q = 3
· Quasi-static load deflection curve measured with a loading rate of
0.6 N/mm2/s.
· Testing be tween sandblasted, flat steel-plates; recording of the 1st load, with filtered starting range in accordance with ISO 844, testing at room temperature.
· Shape factor q = 3
0.6 N/mm2/s.
· Testing be tween sandblasted, flat steel-plates; recording of the 1st load, with filtered starting range in accordance with ISO 844, testing at room temperature.
· Shape factor q = 3
· Quasi-static modulus of elasticity as tangential modulus from the load deflection curve. Dynamic modulus of elasticity from sinusoidal excitation with a velocity level of 100 dBv re. 5 · 10-8 m/s corresponding to a vibration amplitude of 0.22 mm at 10 Hz and 0.08 mm at 30 Hz.
· Measurement in accordance with DIN 53513
· Shape factor q = 3
· Measurement in accordance with DIN 53513
· Shape factor q = 3
· Natural frequencies of a vibratory system with a single degree of
free dome, consisting of a mass and an elastic bearing made of
Sylodyn® HRB HS 6000 on a rigid surface.
· Parameter: thickness of the Sylodyn® bearing
· Shape factor q = 3
free dome, consisting of a mass and an elastic bearing made of
Sylodyn® HRB HS 6000 on a rigid surface.
· Parameter: thickness of the Sylodyn® bearing
· Shape factor q = 3
· Deformation under consistent loading.
· Parameter: permanent static load
· Shape factor: q = 3
· Parameter: permanent static load
· Shape factor: q = 3
· Typical dependency of the dynamic modulus of elasticity on the
amplitude of vibration.
· Sylodyn® HRB HS 6000 materials exhibit a negligible dependency of
amplitude.
amplitude of vibration.
· Sylodyn® HRB HS 6000 materials exhibit a negligible dependency of
amplitude.