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Product Details:
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| Technical Standard: | (EU)2020/1170,item NO.MED/1.29.SOLAS 74 As Amended,Reg.III/4.III/11,III/34&X/3,LSA Code,2000,HSC Code 8 And IMO MSC.1/Circ 1285 | Material Metallic: | Metal Fastener Corrosion-resistant,Ferrous Metal Coated,Stainless Steel Part At Least 316,Aluminium Part 5254 Or 5652 Alloy |
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| Material Side Rope: | Mildew-resistant Manila Rope Or A Spum Thermoset Polyester Rope With A Polypropylene Core Of A Colour That Contrasts With The Spum Polyester | Material Wooden Part: | Hardwood(eg:ash,oak,elm,beech,teak Or Apitong)free From Knots |
| Type: | Embarkation Ladder,flat Steps,rope Seizing | Steps Number: | 19-77, Customized |
| Length: | 6000 To 25000mm, Customized | Certificates: | Class Society Type Approval, EC MED Type Approval Etc |
| Marking: | In Accordance With ISO5489:2008(E),Sec 7,the MED Mark Of Conformity And USCG Approval Number If Applicable | Application: | Ship's Embarkation And Disembarkation |
| Highlight: | 3100mm Marine Rope Ladder,Wooden Step Marine Rope Ladder,18500mm pilot embarkation ladder |
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ISO 5489-2008 Ship's Embarkation Rope Ladder
Description:
ISO5489-2008 Ship's Embarkation Rope Ladder is the equipment used for getting on and off ships. Design & manufacture latest Standard ISO 5489-2008 .For this essential requirement, all ships are equipped with multiple numbers of what is known as embarkation ladders. They are nothing but foldable ladders that can hang from any deck (especially the main or exposed deck) along the hull side and enable the person to embark and disembark to and from the vessel. It is also been used for crews to embark when anchoring. Light weight, sate, used widely for various ship.
Main Technical Specification:
Test of ISO5489-2008 Ship's Embarkation Rope Ladder
| Test | Item to be tested | Test procedure | Acceptance criteria |
| Visual examination |
Fully assembled ladder. | Compare lo construction requirements In Clause 4, and the manufacturer’s drawings. | The ladder shall comply with the construction requirements in Clause 4, and be constructed in accordance with the manufacturer’s drawings |
| Step flexibility | Six steps, which shall include at least one of each different type, including replacement steps, if different from steps used in the ladders original construction. | Place each step on a pair of Supports located where the side ropes would normally pass through the step. Apply a static load uniformly for a period of at least 1 min over a 100mm wide contact area at the center of the step. The load shall be 3,0 kN | Deflection at the center of the step shall not exceed 25 mm under load There shall be no residual deflection after the load is removed and the step is allowed to recover. |
| Step fricton | One step of each different material of construction and step surface design One reference step constructed of clean oak 115mn wide and 480 mm long The step surface shall have groove 3mm wide,3mm deep and 15 mm apart. The grooves shall run parallel to each other and parallel to the long edge of the step One metal hook of a mass between 1.5 kg and 3.0 kg The metal block shall have a flat surface no more than 100 mm wide by 135 mm long. The flat surface shall have leather or composition shoe-sole material attached to it. |
Set the reference step in a level position. Place the metal block at the centre of the stepping surface of the reference step, and with the longer edge of the metal block running across the reference step over both edges Slowly raise one edge of the step with the metal block on it. Measure the angle at which the block begin to slide. Repeat the procedure with the standard reference step and the block under water. Repeat the procedure in both dry and wet conditions using each different ladder step. |
The angles at which the block begins la slide on the dry and wet embarkation ladder step shall be greater than or equal to the corresponding angles measured for the standard reference step. |
| Step surface durability |
One step of each different material of construction and step surface design. A metal block of the type described under the step friction test arranged to enable a vertical load of 380 N to be applied to it as it slides back and forth over the step under test |
secure the Step in a horizontal position, with the loaded block resting on it. Move the block back and forth from one end of the step surface to the other and back In the same line, for a total of 1500 cycles. Repeat the step friction test on the worn step in both dry and wet conditions, making sure the sliding block is resting completely on the worn surface of the step |
The angles at which the block begins to slide on the dry and wet embarkation ladder step shall be greater than or equal to the corresponding angle measured for he standard reference step. |
| Ladder and step attachment strength |
Fully assembled ladder of longest length e be approved |
Suspend the ladder vertically, hanging to its full length or extend the ladder to its full length on a horizontal surface, with the top end of the ladder secured using its own attachments; Apply static load of 8.8 Kn widely distributed over the bottom step for a period of at least 1 min, So that the load is applied evenly between the side ropes through the step attachment fittings. Repeat the procedure at five different steps, except that the ladder is not required to be hanging at full length and only the step under test, its side rope attachments and the side rope immediately above the step attachment fittings are required to be subjected to the load | Steps shall not break or crack Attachments between any step and a side rope shall not loosen or break Side ropes shall not sustain any observable damage, elongation or deformation that remains after the test loads is removed |
| Unrolling | Fully assembled ladder of longest length to be approved | Attach the rolled-up ladder lo anchoring fixtures in a place away from any wall or structure that would prevent it from falling freely, and where it can hang vertically. Allow the ladder to unroll freely. | The steps and attachments shall not cracked ,broken loosened. The ladder shall not sustain damage that would make it unsafe to use. |
Details of ISO5489-2008 Ship's Embarkation Rope Ladder
Products of ISO5489-2008 Ship's Embarkation Rope Ladder
FAQ:
Q0: Are you a factory or trading company?
A0: We are a professional manufacturer for synthetic rope, rope net, rope ladders and relevant etc. We also trade steel wire rope and etc.
Q1: What is your terms of packing?
A1: We use synthetic bags for package. We can pack the goods in your brand after your approval.
Q2: What is your terms of payment?
A2: T/T & LC.
Q3: What is your terms of delivery?
A3: EXW, FOB, CFR, CIF, DDU.
Q4: How about your delivery time?
A4: Generally, it will take 1 to 7 days after receiving payment. The specific delivery time depends on the products and the quantity.
Q5: Can you produce according to the samples?
A5: Yes, we can produce as your samples or drawings.
Q6: What is your sample policy?
A6: We can supply the sample it is stock available, while courier cost and sample cost (it depends) are to be covered by buyer. It will be refunded for next time order.
Q7: Do you test all your goods before delivery?
A7: We test our finished products & raw material by bathes, and as requirement by third party case by case
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