Specifications
TIANDUN cone rubber Fender:
1. PIANC standard approved
2. Best quality and service
3. Outstanding energy absorption
Main Description of Tiandun Cone Rubber Fender:
TIANDUN cone rubber fender is the result of continuous product development. This fender design is based on the Cell Fender which was introduced to world-wide markets more than 25 years ago. This type of fender can be considered as the latest in state-of-the-art moulded fender products. Its refined geometry and conical shape result in a number of outstanding performance characteristics which include:
1.Internal overload stopper as standard
2.Outstanding energy absorption per weight of fender
3.Very good inherent resistance against shear forces due to its geometry and self-centering characteristics
4. No reduction of energy absorption up to 10° compression angle
5.High shear stability which allows the fender to carry even larger panel weights without using chains
6. Exceptional good energy absorption to reaction force ratio (E/R)
Availability in heights between 350mm and 2000 mm, each in 4 different rubber grades for the most precise fender selection.
Quick Detail:
1.Deflection can reach to max. 72%;
2.High energy absorption,low reaction force;
3.The 3rd generation of cell type rubber fender;
4.Advanced technology and abundant experience;
5.Easy to be installed.
Description:
l Wide range of sizes
l PIANC tested and certified
l Standard and intermediate rubber grades
l High efficiency
l Good angular performance
TD-AA cone type rubber with cone shaped rubber and frontal mount steel frame is the 3rd generation product of cell type rubber. Adopting cone rubber and full-new structure design of preposed steel structure, it is one of most excellent performance fender in that designed compress deformation rise from 52.5% to 70% if reaction force do not increase. Its emergence simplifies wharf structure and reduces the cost of quay wall construction, hence it is and ideal substitute of cell type rubber fender.
Rubber grade
Performance |
Rated deflection 70% |
Maximum deflection 72% |
Reaction Force
(KN) |
Energy absorption
(KN@M) |
Reaction force
(KN) |
Energy absorption
(KN@M) |
Super high reaction force (P2) |
2260 |
1623 |
2536 |
1776 |
High reaction force (P1) |
1819 |
1308 |
2035 |
1361 |
Standard reaction force (P0) |
1431 |
1022 |
1633 |
1054 |
Low reaction force (P01) |
1154 |
824 |
1317 |
854 |