DEYUAN
China (Mainland)
DEYUAN
UHMW PE pad
UHMW PE pad
refer to the picture.
Nude packaging,inflated it and piled it up.
About 15 to 30 days
UHMW PE pad:
High quality UHMW PE pad:
UHMW PE pad (ultra high molecular weight polyethylene pad) is the first choice material for facing steel fender panels and other heavy duty applications.
It combines very low friction with excellent impact strength and a wear resistance much better than steel.
UHMW offers a combination of excellent properties outstanding abrasion resistance,superior impact resistance,non-sticking and self-lubricating properties and excellent mechanical properties,even in cryogenic conditions.UHMW product reduces noise from impact and vibration.It is a self-lubricating material that is chemical,corrosion,and wear-resistant.And its food safe.The weight is light.Life is higher than steel.The wear resistance is 3-7 times of carbon steel and stainless steel
The Advantage of UHMW PE pad:
1. Non-Toxic and smell
2. Low coefficient of friction
3. Corrosion resistant,Abrasion and impact resistant
4. Anti-Weather and Anti-Aging
5. Sell-lubricating ,wear Resistant
6. Great liner material for industrial material handing applications
7. UV Resistant/ultraviolet-resistance sheet
8.High Operating Temperature,
9.High Tensile Strength,High Viscosity
10.Reprocessed,
Our Service:
We can produce all kinds UHMW PE marine fender pad if you send us the drawings.
Our PE pad can be made in many colors and thicknesses according to your requirements and also can be provided in a re-processed grade for a economical solution.
Item | Test method | Test result | unit |
Specific weight | ASTM D-792 | 0.938 | g/cm3 |
Yield strength | ASTM D-638 | 22 | MPa |
Ultimate strength | ASTM D-638 | 45 | MPa |
Breaking Elongation | ISO527 | 355 | % |
Impact strength | ISO179 | 130 | Mj/mm2 |
Abrasion | ISO15527 | 83 | Steel=100 |
Shore Hardness | ISO868 | 66 | Shore D |
Friction Coefficient | ASTM D-1894 | 0.11 | Unitless |
Coefficient of thermal expansion | ASTM D-696 | 0.0002 | °C |
Water Absorption | ASTM D-570 | 0.0094 | % |
Melt point | ASTM D-3417 | 138 | °C |
UHMW PE pad:
High quality UHMW PE pad:
UHMW PE pad (ultra high molecular weight polyethylene pad) is the first choice material for facing steel fender panels and other heavy duty applications.
It combines very low friction with excellent impact strength and a wear resistance much better than steel.
UHMW offers a combination of excellent properties outstanding abrasion resistance,superior impact resistance,non-sticking and self-lubricating properties and excellent mechanical properties,even in cryogenic conditions.UHMW product reduces noise from impact and vibration.It is a self-lubricating material that is chemical,corrosion,and wear-resistant.And its food safe.The weight is light.Life is higher than steel.The wear resistance is 3-7 times of carbon steel and stainless steel
The Advantage of UHMW PE pad:
1. Non-Toxic and smell
2. Low coefficient of friction
3. Corrosion resistant,Abrasion and impact resistant
4. Anti-Weather and Anti-Aging
5. Sell-lubricating ,wear Resistant
6. Great liner material for industrial material handing applications
7. UV Resistant/ultraviolet-resistance sheet
8.High Operating Temperature,
9.High Tensile Strength,High Viscosity
10.Reprocessed,
Our Service:
We can produce all kinds UHMW PE marine fender pad if you send us the drawings.
Our PE pad can be made in many colors and thicknesses according to your requirements and also can be provided in a re-processed grade for a economical solution.
Item | Test method | Test result | unit |
Specific weight | ASTM D-792 | 0.938 | g/cm3 |
Yield strength | ASTM D-638 | 22 | MPa |
Ultimate strength | ASTM D-638 | 45 | MPa |
Breaking Elongation | ISO527 | 355 | % |
Impact strength | ISO179 | 130 | Mj/mm2 |
Abrasion | ISO15527 | 83 | Steel=100 |
Shore Hardness | ISO868 | 66 | Shore D |
Friction Coefficient | ASTM D-1894 | 0.11 | Unitless |
Coefficient of thermal expansion | ASTM D-696 | 0.0002 | °C |
Water Absorption | ASTM D-570 | 0.0094 | % |
Melt point | ASTM D-3417 | 138 | °C |