A high performance fender was developed by making use of Finite Element Methods. Simple in a shape and higher in evergy absorption capacity under the natural deflection contrary to its lower reaction load.The fender is put to use and mounted on a wharf in a manner equivalent to those in case of V-shape fender. Unlike V-shape fender, LAMBDA (hereinaftercalled LMD) type extends its rated deflection upto 52.5% to offer 26% higher energy absorption than V-shape for a certain level of reaction load. The diversified types-"LMD.F-Type" andLMD. P-Type" are available.
Standard Size
| Size |
Height (mm) |
Length(m) |
| LMD-250H |
250 |
1.0γ1.5γ2.0γ2.5γ3.0γ3.5 |
| LMD-300H |
300 |
1.0γ1.5γ2.0γ2.5γ3.0γ3.5 |
| LMD-350H |
350 |
1.0γ1.5γ2.0γ2.5 |
| LMD-400H |
400 |
1.0γ1.5γ2.0γ2.5γ3.0γ3.5 |
| LMD-500H |
500 |
1.0γ1.5γ2.0γ2.5γ3.0γ3.5 |
| LMD-600H |
600 |
1.0γ1.5γ2.0γ2.5γ3.0 |
| LMD-800H |
800 |
1.0γ1.5γ2.0γ2.5γ3.0 |
| LMD-1000H |
1000 |
1.0γ1.5γ2.0γ2.5γ3.0 |
Rubber compound
| Rubber Compound |
CLA |
CL0 |
CL1 |
CL2 |
CL3 |
| Performance Index |
150 |
140 |
120 |
100 |
80 |
| Hard <---- Stiffness ----> Soft |
Portfolio of Lambda-TYPE Fender
