Super Cell Rubber Fender / Marine Fender (TD-A2000H)

Product Details
Customization: Available
Material: Rubber
Shape: Drum Style
Gold Member Since 2009

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Basic Info.

Model NO.
TD-A2000H
Size
2000h
Type
Inland and Coastal Boats
Marine Parts
Fender, Bumper
Usage
Ship Launching, Protection, Ship Docking
Certification
BV, ISO9001, CCS, SGS
Transport Package
Container
Specification
SGS. Lloyd′s, PIANC2002
Trademark
TIANDUN
Origin
Qingdao, Shandong, China
Production Capacity
50000 Pieces/Year

Product Description

Quick Detail:
1. Material: EPDM, SBR, NR, etc;
2. Usage: Collision avoidance, protect shipboard
3. Shape: Cell Fender
4. Certificate: CE, SGS, BV, CCS, ISO9001
5. Warrantee: 10 years
Description:
1. On the basis that counterforce do not increase, if deflection distance augments by 13%, energy absorption will rise by 17% while counterforce energy absorption ratio (E/R· H) of each unit will go up by 15%.

2. Among stress rubber fender series, TD-A cell fender possesses relatively small inclination and stress change in performance.
3. UHMW-PE frontal pad is fixed in the front of frontal berthing to lower friction coefficient and reduce the shear force in berthing by large margin.



Competitive Advantage:
L Wide range of sizes
L High efficiency
L Good angular performance
L Modular design
L Well proven design
L PIANC tested and certified

1, E/R-H: 15percent more:
Effectiveness of the fender is designated by E/R· H.
The value of E/R-H of super cell rubber fender is 0.450 which is 15% higher than the 0.383 for the ordinary cell fender.
The combination of super cell fender and new grade of rubber fender helps to make designing more economical.
This super cell fender with the new grade of rubber can be a size smaller but perform as well as a size larger.
2, Wider dispersion of stress:
Super cell fender is improved over the ordinary cell fender at the buckling point and the shape of edge of the leg.
Its wider dispersion of stress has been corroborated by the FEM (Finite Element Method).
The wider dispersion of stress makes it possible to increase the design deflection from 47.5% to 52.5%, resulting in superior performance of the super cell fender, as well as being durable.
3, Well performing at angular berthing:
For selecting a fender system suitable for berthing of large vessels, angular performance is one of the most important factors to be considered.



Rubber grade
Performance
Rated deflection 52.5% Maximum deflection 55%
Reaction Force
(KN)
Energy absorption
(KN@M)
Reaction force
(KN)
Energy absorption
(KN@M)
Super high reaction force (P3) 2995 2645 3196 2799
Super high reaction force (P2) 2668 2348 2835 2486
High reaction force (P1) 2310 2040 2556 2155
Standard reaction force (P0) 1781 1564 1892 1656
Low reaction force (P01) 1425 1252 1510 1328

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