- Product Details
Foam Resilience Tester applicable to the determination of flexible polyurethane foam rebound performance off the ball. The instrument by the quality of a given ball diameter and height of free fall in the provisions of foam samples, the calculation of the maximum ball height and ball rebound height ratio of the Percentage drop, that resilience to rebound said foam rebound performance.
This machine uses microprocessor control,LCD Chinese display, and can print the test data. This machine has the use of safe,reliable, measurement accuracy.Double-quick slicing machine for cutting Rubber Research Institute of plasticity of the specimen, from 16 ring knives and two 100 single-edged knife cutting round 10mm diameter, 16mm thick standard sample, without replacement of tools, easy operation, appearance and internal structure have been re-designed to make the performance more reliable, more beautiful shape for the domestic new improved plasticity sampler.
Main Feature:
1.GB can do 460 samples, 500 samples can make the U.S. standard. (National standard of similar
products can only do 460 samples)
2, LCD screen, the Chinese showed the same time increase the service life, easy to understand,
technicians can quickly grasp the method of operation. (Similar products for the digital display,
digital display only)
3, With printing, with printers. (Similar products without printing)
Meet The Standard
HZ-1730 Foam Resilience Tester designed and manufactured in accordance with GB/T6670-97
meet the American standard ASTM D3574 test standards and ISO8307
The Main Configuration And Accessories:
Host set (which includes the release of bodies to capture body height adjusting mechanism)
A set of electro-optical distance sensor
Control box set (LCD display)
A micro-printer (desktop)
Technical Parameters
Model | HZ-1730 |
Steel ball falling from | 460±0.5%mm(GB)500±0.5%mm(American standard) |
Ball diameter | 16±0.05 mm |
Precision ball drop resilience | <1.5% |
Sample size | 100 mm(L) ×100 mm(W)× 50mm(H) |
Automatic calculation of the average rebound debugging | |
Automatic calculation of the average rebound rate |