How can you make rope

If you want to learn how to reverse wrap your threads to make a rope, keep reading the article! Did this summary help you?

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We use cookies to make wikiHow great. By using our site, you agree to our cookie policy. Cookie Settings. Learn why people trust wikiHow. Download Article Explore this Article parts. Tips and Warnings. Related Articles. Article Summary. Part 1. Choose your material. Rope can be made from a large number of materials, many of which you may have lying around the house, yard, or campsite.

Depending on what you have available to you, you can make rope from: Plant fibers like grass, hemp, flax, straw, bark, nettles, yucca, and any other fibrous or vine-like plant. Plastic bags or paper, shredded into strips. Cut or gather your threads. Your thread could be a blade of grass, or a piece of string, or a strip of bark, depending on what you're making rope from.

Make sure that all the threads are roughly the same length and thickness. For a thicker rope, you will need more threads; for a thinner rope, start with about six pieces of thread. If you are working with a material like string, where you are cutting lengths, remember that your rope will get shorter as you twist it together. With materials like grass and other plant fibers, you can easily splice in more lengths of thread later to make your rope longer.

Tie your threads together. Lay your threads together so they are all lined up, and tie a knot at one end to keep them secured together. Then, divide the bunch into two even sections. Twist the two sections. Grab one section in each hand and begin tightly and evenly twisting all the threads in the same direction. Splice in additional threads to make a longer rope.

As you near the end of your first bundle, grab two more sections of thread that are the same thickness as the original two. Overlap the tails of the original thread sections with the heads of the new sections, making sure the tops of the heads actually extend beyond the tails, so that the new threads are anchored into place.

Ropes intended for general purpose use are sold by diameter and tensile strength. Tensile strength is determined by breaking a sample piece under load. Basic raw material specification and a visual inspection are the only quality control measures used for these ropes. Ropes intended for high-risk applications—such as rappelling, rescue work, and lifting objects over people—are more closely inspected and tested.

These ropes have a finite service life and may also have a color code or other coding to indicate the date of manufacture. Some ropes incorporate some type of wear tracer formed into the rope.

These tracers are usually a single yarn of contrasting color placed just under the outer wrap of yarn. Should any abrasion or overextension of the rope occur, this filament would be exposed, indicating an unsafe condition and requiring that the rope be replaced. The future of rope making is directly linked to improvements in materials. Over the years, almost every conceivable type of rope configuration has been attempted. In the past, new materials have allowed rope makers to reduce the diameter of the rope while maintaining the tensile strength and improving the resistance to weathering and abrasion.

It is expected that a new generation of very strong, very light fibers and forming techniques will produce even further improvements in ropes. Merry, Barbara. The Splicing Handbook. International Marine, Foster, G.

Toggle navigation. Made How Volume 2 Rope Rope. Periodical Foster, G. Betts Chris Cavette. Test your rope with a game of tug-of-war or by tying a figure 8 knot. This Webby award-winning video collection exists to help teachers, librarians, and families spark kid wonder and curiosity.

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Reply 7 years ago on Introduction. Velcro rules and the nation is just a little but less self-sufficient! LOL And yes - "excellent job" to the fellow who posted the instructable.

This method of rope making is primarily for natural fiber ropes. The fibers of one strand "bite" into the other strands, holding the rope together quite effectively. Any rope will have problems with unraveling if you don't tend to the end. You can fuse most synthetic ropes, but natural fiber ropes must be tied off or whipped. Even braiding would have its own faults with fraying.

I wonder if you could make a 'fabric rope' using this device Very nicely done. Similar, though quite smaller in scale, than the rope walks I've seen at seaport museums where very large lines were made.

Good job! I was just looking up how to do this. I wanted to try it with yarn. Any chance you can put up a video of it in action? Reply 8 years ago on Step 7. That's exceptionally impressive. The good pictures and useful descriptions add nicely to this presentation of very olde technology implemented with coat-hangars and scraps of wood. Well done. Just curious: what's the source and material of that twine?

Any chance this process can be done completely from scratch? Reply 8 years ago on Introduction. I bought the twine at the Home Depot. Absolutely you can do it from scratch. If you do an Internet search you'll find plenty of videos about it. Very clear and well done!