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MARINE FENDER SYSTEMS

ESC has strategic partnerships with PIANC registered manufacturers with over 20 years of experience delivering marine fender system solutions to Asia, North America, Central & South America, Europe and Middle East. ESC's global network provides an end-to-end solution that is customized to project requirements providing detailed support in close proximity to its valuable clients.

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Marine Fender Types             

Design, Manufacture & Testing

Design Standards

Product Images

Marine Rubber Fenders are critical for the energy absorption of a berthing vessel into the berth structure. A single tanker can be over 500 tons so safe energy absorption in worst case scenarios is paramount. The marine fenders primary job is to protect the berthing structure without damaging the vessel hull for all potential vessel types, sizes and approach scenarios. ESC offers a full range of fender options to compliment its marine steel piling products.

ESC offers complete Marine Rubber Fender Systems

  • Full range of fender types, sizes and rubber grades

  • Manufacturers certified to PIANC 2002, ISO 9001, ISO 14001

  • Experienced design engineers for berthing energy calculations & fender selection and detailed design of fender and frontal panels  to PIANC 2002, BS 6349:4 & EAU 2004

  • Intimate understanding for integration into berthing structure

  • Highly skilled and experienced front panel fabricators

  • High quality mixture of natural, synthetic rubbers from reputable and prequalified suppliers with strict quality control

  • Global supply network in Asia and Europe

  • Full suite of in-house testing equipment all the way up to 2,000  metric tons compression

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MARINE FENDER TYPES

Cone Fender
Cell Fender
Element Fender
Arch Fender
Cylindrical Fender
Square Fender
Pneumatic Fender
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DESIGN, MANUFACTURE & TESTING

Preliminary Design & Budgeting

ESC can complete a preliminary assessment and design of the most appropriate fender system to allow budgeting and estimation for projects. ESC can complete this even with a limited information set.

Marine Fender System Detailed Design

ESC has developed software that assist in calculating berthing energies for the project's complete vessel range which are then used to specify the optimal fender configuration which includes - rubber fender selection, frontal panel sizing and location, chain and anchor design and if appropriate cathodic protection design. These calculations are completed to PIANC guidelines by default with some special references to other standards such as Full manufacturing and layout drawings are produced to enable high quality production and comprehensive detailing for installation on site.

Manufacturing

ESC's fender product line is comprehensive, with over 50 profiles and 5 rubber grades (low reaction to super high reaction force) to select from. The frontal pad fabrication facility (complete with blasting and painting) is in close proximity to the fender facility which makes factory visits and ex-mill logistics more convenient and efficient. Components such as chains and anchors are produced by pre-qualified manufacturers also in close proximity to the facilities.

Quality Assurance & Testing

Marine Fender Rubber is an engineered material that exhibits optimal properties in terms of cost, energy absorption, wear resistance, UV resistance and more. An engineered mixture of additives is used to improve the overall mechanical and wear properties of the material. The rubber utilised comes from the highest quality sources and is inspected and testing in accordance with the ISO 9001 Quality Management System. Some parameters tested are: tensile strength, elongation at break, compression set, hardness, density, seawater resistance, tear resistance, ozone resistance, abrasion resistant, bond strength and ageing. 

DESIGN STANDARDS

  • Code of Practice for Design of Fendering and Mooring Systems: BS 6349: Part 4 (2014)

  •  PIANC WG33 Guidelines for the Design of Fenders (2002)

  •  Recommendations of the Committee for Waterfront Structures, Harbours and Waterways (EAU 2004)

  •  PIANC Report of the International Commission for Improving the Design of Fender Systems: Supplement to     Bulletin No.45 (1984)

  •  Actions in the Design of Maritime and Harbour Works: ROM 0.2-90 (1990)

  •  Recommendations for the Design of the Maritime Configuration of Ports, Approach Channels and Harbour Basins:     ROM 3.1-99 (1999)

  •  Dock Fenders – Rosa 2000 Edition No.1

  •  Engineering and Design of Military Ports: Unified Facilities Criteria UFC 4-159-02 (2004)

  •  Design of Piers And Wharves: Unified Facilities Criteria UFC 4-152-01 (2005)

  •  Guidelines for the Design of Maritime Structures – Australia: AS4997 (2005)

  •  Engineering Standards for Port & Harbour Structures Design Manual —Philippine Ports Authority (2009)

  •  Determining and Reporting the Berthing Energy and Reaction of Marine Fenders: ASTM F2192-05 (2005)

 
 

PRODUCT IMAGES

Cone Fender
Cell Fender
Arch Fender
Element Fender
Frontal Panel
Pneumatic Fender
Daha Fazla Göster