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Product Details:
Payment & Shipping Terms:
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| Material: | Integral Skin Foam | Structure: | As Drawings Design |
|---|---|---|---|
| Color: | Any Color | OEM: | Yes |
| High Light: | rigid polyurethane foam,expanding polyurethane foam |
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Polyurethane Spare Seat Cushion for compact Fold Up Shower Seat
Introduction of Integral polyurethane skin
Integral skin, also called “self-skinning foam’’ is a microcellular core with a tough,
abrasion-resistant outer surface.
Integral skin foams come in a wide range of molded densities, and they are the perfect
solution for a broad variety of applications that require a soft touch and feel, as well as a
highly durable finish.
Fields of application
(Medical technology,Handling units,Access systems,Bank and payment
stations,Consumer electronics,Workpiece carriers)
Product Gallary
Hardness: ShoreA:20±5 Density:270±50kg/m³ Size: Customized
Why this foam?
1. Sandwich-style design with high inherent rigidity
2. Extraordinary design flexibility
3. Good thermal and acoustic insulation properties
4. Variable wall sections in a part without sink or distortion
Values not absolute some may be altered.
The Technical data is totally provided by SGS test , We accept custom
Design request.
We are very expert in manufacturing customized Integral polyurethane
skin foam parts
|
Items |
Test Standard |
Test Result |
|
Burning Performance |
ISO 3795:1985 |
Sweep rate<100mm²/min |
|
Tensile Strength(foam part) |
ISO 37:2005/Cor.1:2008 |
1.19N/㎡>1.17N/㎡ |
|
Break Elongation(foam part) |
ISO 37:2005/Cor.1:2008 |
197%>150% |
|
Tear Resistance(foam part) |
ISO 34-1:2010 Method B |
3.9N/mm |
|
UV |
ASTM G154-06 Cycle 1 |
Gray Level:4-5 |
|
Abrasive Resistance |
ISO1294-2-1998+Cor.1:2002; Martindale Wear&Abrasion Tester; 12kPa |
>1000 |
|
CF to Rubbing |
Ref.ISO 105*12-2001 |
Dry stainning degree:4; Wet dyed gray:4-5 |
|
Fire Resistance |
ISO8191-1:1987/ISO8191-2:1988 |
Conformity with flame retardancy |
|
Hardness(23±2°c) |
ISO868/ASTM D2240 |
50 ShoreA±5 |
|
Density |
ISO845 |
250±50kg/m³ |
|
Surface Fire Resistance |
ASTM E162 |
Conformity with flame retardancy |
TIPS
Reaction Injection Molding
RIM is the result of a reaction between two liquid components isocyanate and polyol as
they are injected into a closed mould at low pressure. The two components are mixed
together as they flow into the mould as a low viscosity liquid and the reaction,
which increases the temperature and the pressure at the surface of the tool,
forms the polyurethane part in the tool cavity.
