- 0.1 What can I use to make homemade wind chimes?
- 0.2 What do you need to make wine bottle wind chimes?
- 0.3 What material makes best sound for wind chimes?
- 1 What makes the best sound for wind chimes?
- 2 How do you make sound with glass and water?
What can I use to make homemade wind chimes?
Flowerpot – 1 /13 A simple terra-cotta flowerpot, some fishing line, floral wire, a washer, acrylic paint, and flat glass shell pieces are all you need to create a playful DIY wind chime to match your outdoor decor, If you can’t find glass pieces, use anything else that can be easily drilled and strung up. myhomemystyle.com
What do you need to make wine bottle wind chimes?
Download Article Download Article Wind chimes are a pretty way to decorate your porch. When the wind blows, they will make a gentle tinkling noise. While you can always buy one from the store, making your own wind chime is easy. All you need is a glass bottle, some ornaments and key rings, and a bit of chain or cording.
- 1 Find an empty wine bottle. You can use one from the recycling bin or you can buy a brand new bottle from the craft store. Be sure to wash the bottle with soap and water and remove any labels,
- Remove the cork and set it aside for a different project.
- If you are buying a tinted bottle from the craft store, be aware that color usually does not go through the bottle and may chip off.
- 2 Prepare a pot of boiling water and a pot of iced water. The key to cutting a bottle in half is to dip it between hot and cold water until it comes apart. Fill a large pot with water and bring it to a boil. Have another pot or bowl filled with iced water close by.
- Keep the water at a steady boil on the stove.
- The iced water needs enough ice in it to make it very cold, but not so much ice that you can’t stick anything inside it.
- 3 Score a line around the bottle with a glass saw. Put on a pair of leather work gloves first. Next, place the bottle on a stable surface, then set the saw down next to it. Rotate the bottle as you apply constant, even pressure with the saw, scoring a thin line. Don’t worry about cutting the bottle completely in half.
- You can use a tile saw with a glass blade instead.
- How far down you make this line is up to you. About 3/4 of the way down from the top would be ideal, however.
- If you want to, you can use a metal clamp or string as a cutting guide.
- 4 Dip the bottle in boiling and iced water until the bottom comes off. You only need to dip the bottle deep enough so that the scored line is submerged. Rotate the bottle while it is under the water, sort of like stirring soup with a spoon. Keep doing this until the bottom half of the bottle breaks off.
- Start with the boiling water, then do the cold. Keep alternating between the 2 pots until the bottom half of the bottle breaks off.
- How many alternations you do will vary each time. It will depend on various factors, such as the depth of the scored line, the thickness and quality of the glass, etc.
- 5 Discard the bottom half of the bottle and keep the top. What you do with the bottom half is up to you. You can toss it into the recycling bin, or you can set it aside for another project. For example, you can turn it into a glass jar or cup.
- If you wish to keep the bottom half, be sure to sand and polish the cut edge.
- 6 Polish the cut edge with various grits of sandpaper. Hold the sandpaper against a flat surface, like a plate, then rub the cut edge of the bottle against the sandpaper. Start with a coarse grit first, then work your way up to a medium grit, and finally to a fine grit.
- Keep the bottle wet as you sand it to prevent dust and chipping.
- The exact grit number does not matter, as long as the packaging says: coarse, medium, and fine. It would be good to finish with a high number, like 400-grit, however.
- Keep your work gloves on during this step. Don’t take them off until after you have finished smoothing the glass.
- 1 Decide how long you want the hanging chain to be. Starting at the base of the bottle’s neck, measure towards the top of the bottle. Add this measurement to however long you want your hanging chain to be.
- For example, if your bottle’s neck measures 3 inches (7.6 cm) and you want your hanging chain to be 14 inches (36 cm) long, you should cut the chain down to 17 inches (43 cm).
- 2 Cut a piece of chain with wire cutters according to this length. The chain should be thin enough so that you can slide it down the neck of the bottle, and delicate enough so that you can cut it with wire cutters. A jewelry chain could work, but the loops need to be big enough so that you can thread a split key ring through them.
- It is better to cut the chain too long than too short. You can always trim it shorter.
- Alternatively, you can a length of nylon cording instead. Cut it a little longer than you need it so that you can tie knots into it.
- 3 Secure a split key ring to the bottom of the chain. Find a split key ring that is wider than the neck of your bottle-about 1 inch (2.5 cm) wide should be fine. Separate the key ring, and feed it onto the end of your chain. The key ring will act as a stopper inside the bottle.
- The key ring must be bigger than the neck of the bottle. If it is too small, it won’t hold the bottle up.
- If you are using a cord, tie the bottom end to a large key ring using a secure double-knot. If you can’t find a key ring, you could use plain, metal ring.
- 4 Feed the other end of the chain through the neck of the bottle. Turn the bottle upside down, and place the chain inside. Let the chain fall through the neck of the bottle and out the top. The key ring will sit right inside the neck.
- Follow this same process if you are using a nylon cord.
- 5 Thread another split key ring onto the top of the chain. This will allow you to actually hang the finished wind chime from a hook. Hold the wind chime up by the second key ring; the bottle will slide down the chain and stop at the first key ring.
- The first key ring will be either somewhere inside the neck or just below it.
- If you are using a nylon cord, simply tie the other end to another key ring or metal ring.
- 1 Cut a second chain for the wind catch to dangle from. Hold the bottle up by the chain and note where the key ring sits inside. Measure from this point down to about 1 inch (2.5 cm) from the bottom edge of the bottle. Cut a second piece of chain according to that length.
- The wind catch is the little ornament that dangles from the bottom of the wind chime.
- If you used a nylon cord previously, you should use a second piece here. Extend the cord below the bottom edge of the bottle.
- 2 Add the second chain to the key ring inside the bottle. Reach into the bottle and pull out the key ring. Thread the end of your second chain onto this key ring, then hold your wind chime up again.
- You will have 2 chains in your bottle. The first chain should be sticking out of the top of the bottle. The second chain will be dangling inside the bottle.
- If you used a nylon cord, tie it to the ring. For extra noise, thread a large, wooden bead onto the cord, then tie a knot below it so that it sits inside the bottle.
- 3 Thread a third split key ring to the bottom of the dangling chain. This will allow you to secure your desired ornament. Alternatively, you can skip this step and rely on a small hook attached to the top of the wind catch.
- Keep in mind that if you choose the hook, you’ll need to screw it onto your dangle first. It must also be small enough to fit through the bottom loop on the chain.
- If you used a nylon cord, then tie a metal ring to the bottom. Don’t use a hook.
- 4 Choose an ornament to use as the wind catch. A chunky necklace pendant will work just fine, but you can also use a wooden ornament instead. If you choose a wooden ornament, drill a hole into the top, then add a hook or eye screw.
- Alternatively, you can repeat the process to add a smaller bottle to the bottom of the first one. This will give you a stacked wind chime.
- 5 Secure the ornament onto the key ring. Split open the key ring, and thread it onto the loop that’s on top of your pendant. If you used a hook, simply slide it onto the bottom ring of the chain.
- 6 Hang the wind chime using the key ring at the top of the chain. You can hang it outside where the wind will catch it, but if you want to use it for purely decorative purposes, hang it indoors instead.
Add New Question
- Question Do I have to worry about the bottle sliding off the cork? You shouldn’t have to. The cork should be tight enough to keep the bottle from slipping.
- Question What do I do with the other half of the wine bottles? Sand the edges of the remaining bottles with 200 grit sand paper and use them as retro/modern cups or showpieces.
- Question When you cut the bottle, do you press hard or light with the glass cutter? Do not press too hard as the glass might splinter. You just want to break the surface tension on the glass by making a faint gray line, along which the glass cracks when put alternately in hot (near boiling point) and ice cold water.
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- Add a small bell to the bottom of your wind catch. A standard trumpet-shaped bell will work better than a jingle bell.
- You can hang the ornament further up inside the bottle to make more noise.
- You can leave the label on if you really want to. It would be a good idea to paint over it with a few coats of clear, outdoor gloss, however.
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Be careful when cutting the glass bottle. If you are concerned about chips and dust, put on a pair of safety goggles and a dust mask.
- Empty glass wine bottle
- Glass saw or a tile saw with a glass blade
- Leather work gloves
- 2 pots
- Boiling water
- Iced water
- Coarse, medium, and fine-grit sandpaper
- Thin chain
- 3 split key rings
- Wire cutters
- Medallion or ornament
Article Summary X To make a wine bottle wind chime, start by gathering the supplies you’ll need, including a wine bottle, glass saw, sandpaper, chain, and wire cutters. Then, score a line with the saw around the bottle about 3/4 of the way down from the top.
Once you’ve completed the line, alternate between dipping the bottle in a pot of boiling water and a bowl of ice cold water until the bottom falls off. Sand the sharp edges down with sandpaper, then cut off a piece of chain with your wire cutters. Attach a keyring to the end of the chain that’s wider than the neck of the bottle so it can hold the bottle up.
Next, thread the chain through the bottleneck so the keyring comes to rest at the bottom of the neck. Finally, attach a second keyring to the other end of the chain so you can hang up your chime. For tips on how to add the wind catcher, keep reading! Did this summary help you? Thanks to all authors for creating a page that has been read 487,310 times.
How do you make a beer bottle ring?
The next time you’re at a bar, and you find that special someone that you just can’t let go, don’t let her slip away to another drunkard, propose to her! But wait, you don’t have a ring! Well, make a redneck ring to show her you really care. This video tutorial will show you how to make a ring from two beer bottles. All you do is rub the two lips of the beer bottles together until one of them pops off. It fits right around your fingers. Import beers have thicker rims, so make sure you rub the American beer bottles together for a really special ring for your girl. Want to master Microsoft Excel and take your work-from-home job prospects to the next level? Jump-start your career with our Premium A-to-Z Microsoft Excel Training Bundle from the new Gadget Hacks Shop and get lifetime access to more than 40 hours of Basic to Advanced instruction on functions, formula, tools, and more. Buy Now (97% off) > Other worthwhile deals to check out:
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What material makes best sound for wind chimes?
Sound and Tone – For Dubow, begin by figuring out what sound you want. “There are many kinds of wind chimes varying in sizes and materials, and finding the best variety depends on the ambiance of your space,” she says. “Some widely-used wind chime materials include bamboo, metal, glass, and wood.
What makes the best sound for wind chimes?
Q: Which material is the best for wind chimes? A: It is best to use wind chimes that are made of metal tubes. This is because metal can be easily tuned to produce certain notes while other materials like glass or wood can not do that. Metal wind chimes also produce a louder sound as compared to others.
What kind of tubes are used for wind chimes?
Aluminum : By far the most popular material due to the clarity, volume, and duration of its chimes, as well as its superb durability and weather resistance.
Which glass produces the loudest sound?
Science Experiments For Kids
ObjectivesTo learn how vibrating air columns affect the pitch of soundMaterials
Six identical small-mouthed bottles or tall glasses Metal spoon Water
Procedure Pour different amounts of water in each glass or bottle. Line up the glasses from least to most full. Carefully tap each glass with the metal spoon. Do they sound alike? Conclusion The glass with the most water has the lowest pitch. The glass with the least amount of water has the highest pitch. : Science Experiments For Kids
How do you make sound with glass and water?
Kid Science: Making (Sound) Waves Sound waves are a tricky scientific concept, but the basic idea is: the slower a sound wave is, the lower it sounds. Tap on the side of a glass of water, and you create sound waves. If the glass is full of water, the sound wave gets slowed traveling through the water, and the pitch of the sound is lower.
Simply line up a few glasses.Add water to different levels
Tap with a fork or spoon and listen to the different pitches – high vs. low! : Kid Science: Making (Sound) Waves
Can you let bottles air dry?
2. Why should I air-dry infant feeding items on a clean towel instead of using a drying rack? – Air-drying infant feeding items on a clean dish towel or paper towel is probably more hygienic than using a drying rack. Drying racks may trap moisture, allow mold and germs to grow, and be difficult to clean. If you prefer to use a drying rack, use it to dry only your infant’s feeding items. Every few days (or at least daily if your baby is less than 2 months old, was born prematurely, or has a weakened immune system), be sure to wash it, sanitize it, and allow it to dry thoroughly to reduce contamination.
Can you trap sound in a bottle?
This animation shows the self-bending dynamics and obstacle-circumventing capabilities of the acoustic bottle field compared to a Gaussian beam. Sound energy can be seen flowing through the curved shell of the bottle. Click to see. (Courtesy of Xiang Zhang group) There’s a new wave of sound on the horizon carrying with it a broad scope of tantalizing potential applications, including advanced ultrasonic imaging and therapy, and acoustic cloaking, levitation and particle manipulation.
- Researchers with the U.S.
- Department of Energy (DOE)’s Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a technique for generating acoustic bottles in open air that can bend the paths of sound waves along prescribed convex trajectories.
- Sound waves move much like light waves.
- They travel on a straight path but this path – through reflection, diffraction or refraction – can be bent.
This is the basis for ultrasound medical imaging and non-destructive testing of materials. An intense search has been underway in recent years to develop techniques that can bend the paths of sound waves along a curved trajectory so as to meet the more stringent demands of super high-resolution imaging, acoustic cloaking and other exotic applications.
Artificial nanoconstructs known as “metamaterials” have been engineered that can bend sound waves sufficiently but the nature of these materials places limits on their applications, especially for biological purposes. “We need to find ways to bend acoustic wave fields without depending on the use of a highly engineered medium,” says Xiang Zhang, director of Berkeley Lab’s Materials Sciences Division.
“With our bottle beam technique, we can design and synthesize acoustic bottles that are capable of directing sound waves along paths of desired curvature through homogeneous space without the need of metamaterials or any other highly engineered medium.” After being emitted from a planar-phased source, sound energy forms a 3D acoustic bottle of high-pressure walls and a null region in the middle. Pressure field at bottom shows self-bending ability of the bottle beam to circumvent 3D obstacles. Dashed arrows indicate wave front direction.
Courtesy of Xiang Zhang group) Zhang, who also holds the Ernest S. Kuh Endowed Chair Professor at the University of California (UC) Berkeley, directs the National Science Foundation’s Nano-scale Science and Engineering Center, and is a member of the Kavli Energy NanoSciences Institute (ENSI) at Berkeley.
He and his group have gained international acclaim for research involving the manipulation of light and sound that has yielded some extraordinary results – an invisibility cloaking device, a plasmonic Airy beam that curves light, the world’s first acoustic hyperlens, a four-dimensional crystal that will keep perfect time forever, and much more.
- In this latest project, three members of Zhang’s research group, Peng Zhang, Tongcang Li and Jie Zhu, created an acoustic “bottle” that features a three-dimensional curved shell, in which a wall of high acoustic pressure surrounds a null pressure region in the middle.
- Sound waves forming the bottle are concentrated into a beam that travels through the high pressure wall of its curved shell.
The sound waves are generated by an array of loud speakers, 1.5 centimeters in diameter and spaces 2.5 centimeters apart, operating at a frequency of 10 kilo Hertz (kHz) and can be launched along a designated trajectory by precisely adjusting the phase profile of the speaker array.
- Since the principle of adjusted phased arrays is well-established and now being used in ultrasound imaging, we can directly apply our acoustic bottle beam technique to current acoustic systems,” says Peng Zhang, lead author of a paper in Nature Communications that described this work.
- See below for details).
“Our technique offers a new degree of freedom for controlling the flow of acoustic energy at will.” Acoustic intensity distribution of self-bending bottle beam shows the predesigned trajectory (red-dashed curve) and the propagation direction of the beam (gray-dashed curve). The scale bar = 0.1 meter. (Courtesy of Xiang Zhang group) Because the high pressure wall of the acoustic bottle exerts a pulling force, there are no sound waves passing through the null pressure interior of the bottle and the bottle can be used for acoustic trapping.
Furthermore, the bottle beam is not influenced by any obstacle placed inside the bottle and can even restore itself when an obstacle blocks its path, as the researcher demonstrated with a steel rod. “Our acoustic bottle beams open new avenues to applications in which there is a need to access hard-to-reach objects hidden behind obstacles, such as acoustic imaging and therapeutic ultrasound through inhomogeneous media,” co-author Li says.
“We can also use an acoustic bottle as a cloaking device, re-routing sound waves around an object and then recovering them in their original form, making the object invisible to sonar detection.” Acoustic bottle beams might also serve another application that ranks among the hottest in the high-tech community these days – acoustic levitation, in which sound waves are used to lift and manipulate millimeter-sized objects, including particles, microorganisms and droplets of water.
A recent study reporting the use of standing sound waves for 3D graphic printing was hailed as a major breakthrough. “Our acoustic bottle beams can do the same thing but offer better stability, true 3D graphics, and more freedom of motion as our beam can propagate along a curved path,” co-author Zhu says.
“We can also levitate much larger 3D objects than can be lifted and manipulated with other acoustic levitation techniques.” Sui Yang, another co-author of the Nature Communications paper and member of Zhang’s research group, notes that the trapping capability for objects larger than the half-wavelength offered by acoustic bottle beams may also add important new tools for material-related studies.
- These giant acoustic traps could lead to new technologies and devices for a variety of applications in chemistry, materials, as well as biosciences,” he says.
- For example, by creating this three-dimensional bottle-like acoustic trap, we could use it as a micro-chemical reactor and manipulation of biological trafficking devices.” The Nature Communications paper describing this research is titled ” Generation of acoustic self-bending and bottle beams by phase engineering,” Additional co-authors were Xuefeng Zhu, Sui Yang, Yuan Wang and Xiaobo Yin.
This research was supported by the Office of Naval Research’s MURI program. Additional Information For more about the research of Xiang Zhang go here Xiang Zhang can be reached for comment at: 510-643-4578. ### Lawrence Berkeley National Laboratory addresses the world’s most urgent scientific challenges by advancing sustainable energy, protecting human health, creating new materials, and revealing the origin and fate of the universe.
- Founded in 1931, Berkeley Lab’s scientific expertise has been recognized with 13 Nobel prizes.
- The University of California manages Berkeley Lab for the U.S.
- Department of Energy’s Office of Science.
- For more, visit www.lbl.gov,
- Berkeley Lab is supported by the Office of Science of the U.S.
- Department of Energy.
The Office of Science is the single largest supporter of basic research in the physical sciences in the United States, and is working to address some of the most pressing challenges of our time. For more information, please visit science.energy.gov,