Difference between revisions of "Electroplate Household Metals"
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| − | Electroplating is a process used to coat one metal with that of a separate metal. There are many objects in our everyday lives that have been plated with other metals: gold-plated jewelry, nickel and copper plated coins, etc. The process involves passing an electric current through a solution of electrolytes that allows for the transfer of metal ions from the donor metal to the recipient metal.<ref>http://www.explainthatstuff.com/electroplating.html</ref> You can easily setup a simple apparatus at home to electroplate your own metals. | + | Electroplating is a process used to coat one metal with that of a separate metal. There are many objects in our everyday lives that have been plated with other metals: gold-plated jewelry, nickel and copper plated coins, etc. The process involves passing an electric current through a solution of electrolytes that allows for the transfer of metal ions from the donor metal to the recipient metal.<ref name="rf1">http://www.explainthatstuff.com/electroplating.html</ref> You can easily setup a simple apparatus at home to electroplate your own metals. |
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#* Steel and nickel are two metals that can easily be plated with copper. | #* Steel and nickel are two metals that can easily be plated with copper. | ||
#Wear proper protective equipment. When electroplating metals, you are dealing with acids and other chemicals that you need to be protected from. Wear protective eye goggles, gloves, and a lab coat or clothes that you don’t mind ruining if something splashes. | #Wear proper protective equipment. When electroplating metals, you are dealing with acids and other chemicals that you need to be protected from. Wear protective eye goggles, gloves, and a lab coat or clothes that you don’t mind ruining if something splashes. | ||
| − | #Scrub the metal surface clean. To get an even electroplated coat, you must first clean the surface of your metal object. Dirt and oils on the surface can prevent the donor metal from coating the surface. Start with a degreaser such as a detergent (dish soap) and then scrub the metal with an abrasive, acidic cleaner to ensure the surface is very clean.<ref>http://chemwiki.ucdavis.edu/Core/Analytical_Chemistry/Electrochemistry/Electrolytic_Cells/Electroplating#Preparing_the_Surface</ref> | + | #Scrub the metal surface clean. To get an even electroplated coat, you must first clean the surface of your metal object. Dirt and oils on the surface can prevent the donor metal from coating the surface. Start with a degreaser such as a detergent (dish soap) and then scrub the metal with an abrasive, acidic cleaner to ensure the surface is very clean.<ref name="rf2">http://chemwiki.ucdavis.edu/Core/Analytical_Chemistry/Electrochemistry/Electrolytic_Cells/Electroplating#Preparing_the_Surface</ref> |
#* A mixture of vinegar and baking soda can be used to scrub the surface clean. | #* A mixture of vinegar and baking soda can be used to scrub the surface clean. | ||
| − | #Measure 5 parts water. To make the electroplating solution you will mix 5 parts of water with 1 part muriatic acid. Never add water directly to acid! Adding water to acid causes an exothermic reaction that can lead to the acid exploding and be very harmful. You want to fill a container large enough to submerge both pieces of metal that will be used for the electroplating process. Start with 5 cups of water and add more as necessary.<ref>https://www.youtube.com/watch?v=SIU3lsZMx7A</ref> | + | #Measure 5 parts water. To make the electroplating solution you will mix 5 parts of water with 1 part muriatic acid. Never add water directly to acid! Adding water to acid causes an exothermic reaction that can lead to the acid exploding and be very harmful. You want to fill a container large enough to submerge both pieces of metal that will be used for the electroplating process. Start with 5 cups of water and add more as necessary.<ref name="rf3">https://www.youtube.com/watch?v=SIU3lsZMx7A</ref> |
#* Always maintain the ratio of 5:1. For example, if you need more than 5 cups, measure out 10 cups of water and add 2 cups of muriatic acid. | #* Always maintain the ratio of 5:1. For example, if you need more than 5 cups, measure out 10 cups of water and add 2 cups of muriatic acid. | ||
| − | #Add 1 part muriatic acid to the water. To avoid injury, remember to always add the acid to the water. If you’ve measured out 5 cups of water, measure out 1 cup of acid and slowly add it to the water while stirring.<ref | + | #Add 1 part muriatic acid to the water. To avoid injury, remember to always add the acid to the water. If you’ve measured out 5 cups of water, measure out 1 cup of acid and slowly add it to the water while stirring.<ref name="rf3" /> |
#* Remember to keep the ratio of 5:1 water to acid. | #* Remember to keep the ratio of 5:1 water to acid. | ||
#* The outside of the container will be warm because adding acid to water is exothermic (it creates heat). | #* The outside of the container will be warm because adding acid to water is exothermic (it creates heat). | ||
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#Connect one alligator clip to each prong of the battery supply. The battery will serve to produce the current necessary for the electroplating process. Attach one clip to one prong and the second clip to the second prong of the battery. | #Connect one alligator clip to each prong of the battery supply. The battery will serve to produce the current necessary for the electroplating process. Attach one clip to one prong and the second clip to the second prong of the battery. | ||
#* At this stage, it doesn’t matter which clip is connected to which terminal, just that a separate clip is attached to each one. | #* At this stage, it doesn’t matter which clip is connected to which terminal, just that a separate clip is attached to each one. | ||
| − | #Connect the copper to the positive terminal of the battery. Using the alligator clip attached to the positive terminal of the battery, clip the other end to the metal piece of copper. If you clip the copper piece to the wrong terminal, the electroplating will not work.<ref | + | #Connect the copper to the positive terminal of the battery. Using the alligator clip attached to the positive terminal of the battery, clip the other end to the metal piece of copper. If you clip the copper piece to the wrong terminal, the electroplating will not work.<ref name="rf1" /> |
#* On a standard 9 volt battery, the positive terminal is the male side of the battery. | #* On a standard 9 volt battery, the positive terminal is the male side of the battery. | ||
| − | #Connect the metal piece to be plated to the negative terminal of the battery. Take the clip attached to the negative terminal of the battery and attach it to the metal you are trying to plate. Attach the clip in the least conspicuous place possible. If there is no out-of-the-way place to attach the clip, you will need to alter the location of the clip during the plating process so the piece of metal gets evenly coated.<ref | + | #Connect the metal piece to be plated to the negative terminal of the battery. Take the clip attached to the negative terminal of the battery and attach it to the metal you are trying to plate. Attach the clip in the least conspicuous place possible. If there is no out-of-the-way place to attach the clip, you will need to alter the location of the clip during the plating process so the piece of metal gets evenly coated.<ref name="rf3" /> |
#* The negative side of a standard 9 volt battery is the female component. | #* The negative side of a standard 9 volt battery is the female component. | ||
#* If you attach the positive clip to the metal, the electroplating will not work. Double check that you have the correct terminals attached. | #* If you attach the positive clip to the metal, the electroplating will not work. Double check that you have the correct terminals attached. | ||
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#* You can use a battery with a voltage as low as 1.5 volts if you don’t have a lantern battery. | #* You can use a battery with a voltage as low as 1.5 volts if you don’t have a lantern battery. | ||
#* Use a container large enough to submerge the metal that you’re trying to plate. | #* Use a container large enough to submerge the metal that you’re trying to plate. | ||
| − | #Combine and heat equal parts vinegar and hydrogen peroxide. You will need enough of this solution to submerge your to-be-plated metal. To make four cups of solution, add two cups of vinegar to two cups of hydrogen peroxide.<ref>http://hackaday.com/2013/11/01/copper-electroplating-the-cheap-and-safe-way/</ref> | + | #Combine and heat equal parts vinegar and hydrogen peroxide. You will need enough of this solution to submerge your to-be-plated metal. To make four cups of solution, add two cups of vinegar to two cups of hydrogen peroxide.<ref name="rf4">http://hackaday.com/2013/11/01/copper-electroplating-the-cheap-and-safe-way/</ref> |
| − | #* Combining vinegar and hydrogen peroxide makes peracetic acid which must be handled with caution.<ref>http://science.blurtit.com/163489/what-would-happen-if-i-mixed-vinegar-and-hydrogen-peroxide-together</ref> | + | #* Combining vinegar and hydrogen peroxide makes peracetic acid which must be handled with caution.<ref name="rf5">http://science.blurtit.com/163489/what-would-happen-if-i-mixed-vinegar-and-hydrogen-peroxide-together</ref> |
| − | #Soak half of the copper scrubbing pad in the vinegar-peroxide solution. The solution will turn blue, indicating that the scrub has dissolved into the solution. You now have a copper ion solution that can be used for electroplating.<ref | + | #Soak half of the copper scrubbing pad in the vinegar-peroxide solution. The solution will turn blue, indicating that the scrub has dissolved into the solution. You now have a copper ion solution that can be used for electroplating.<ref name="rf4" /> |
#* Wear gloves from this step on because the copper solution is toxic. | #* Wear gloves from this step on because the copper solution is toxic. | ||
#* Soak the copper until the solution turns a light blue. It is better for the solution to be of weak concentration, so remove the copper scrub before the solution gets too dark. | #* Soak the copper until the solution turns a light blue. It is better for the solution to be of weak concentration, so remove the copper scrub before the solution gets too dark. | ||
#Attach one end of each alligator clip to the terminals of the battery. The battery provides the current necessary to transport the metals from the donor to the recipient. Connect one alligator clip to the positive terminal of the battery and another alligator clip to the negative terminal. | #Attach one end of each alligator clip to the terminals of the battery. The battery provides the current necessary to transport the metals from the donor to the recipient. Connect one alligator clip to the positive terminal of the battery and another alligator clip to the negative terminal. | ||
#* At this stage, it doesn’t matter which clip is connected to which terminal, as long as there is a separate clip attached to each one. | #* At this stage, it doesn’t matter which clip is connected to which terminal, as long as there is a separate clip attached to each one. | ||
| − | #Clean the metal to be electroplated. Before starting the electroplating method, you must ensure that the metal is clean so the new metal atoms can form a solid bond to the recipient metal.<ref | + | #Clean the metal to be electroplated. Before starting the electroplating method, you must ensure that the metal is clean so the new metal atoms can form a solid bond to the recipient metal.<ref name="rf1" /> Wear gloves to both protect your hands and keep the metal surface clean. It is essential to do this step well for an even electroplate. |
#* Clean the grease with a mild detergent such as dish soap. | #* Clean the grease with a mild detergent such as dish soap. | ||
| − | #* Scrub the metal surface with an acidic, abrasive cleaner. Vinegar works well to clean copper.<ref>https://www.youtube.com/watch?v=Q8Xo43sfLgY</ref> | + | #* Scrub the metal surface with an acidic, abrasive cleaner. Vinegar works well to clean copper.<ref name="rf6">https://www.youtube.com/watch?v=Q8Xo43sfLgY</ref> |
#* Rinse the surface well to remove any residue and pat dry with a paper towel. | #* Rinse the surface well to remove any residue and pat dry with a paper towel. | ||
#* From this point on, handle the metal only with gloves on to avoid contaminating the surface. | #* From this point on, handle the metal only with gloves on to avoid contaminating the surface. | ||
| − | #Connect the positive alligator clip to the copper scrub. Take the other half of the copper scrub that wasn’t used to make the solution. Attach the alligator clip connected to the positive terminal of the battery and connect it to the copper scrub. If you attach it to the negative terminal, the electroplating won’t work.<ref | + | #Connect the positive alligator clip to the copper scrub. Take the other half of the copper scrub that wasn’t used to make the solution. Attach the alligator clip connected to the positive terminal of the battery and connect it to the copper scrub. If you attach it to the negative terminal, the electroplating won’t work.<ref name="rf4" /> |
#Connect the negative alligator clip to the to-be-plated metal. The other clip should be connected to the negative terminal of the battery. Attach this clip to the metal that you are plating. Try to attach it in a place that is inconspicuous. | #Connect the negative alligator clip to the to-be-plated metal. The other clip should be connected to the negative terminal of the battery. Attach this clip to the metal that you are plating. Try to attach it in a place that is inconspicuous. | ||
#* You may need to move the clip during the plating process, so you get an even coat. | #* You may need to move the clip during the plating process, so you get an even coat. | ||
#* If you attach the metal to be plated to the positive terminal, the electroplating won’t work. Simply switch the clips and the process will work. | #* If you attach the metal to be plated to the positive terminal, the electroplating won’t work. Simply switch the clips and the process will work. | ||
| − | #Submerge the metals in the blue copper solution. Once both metals have been connected, submerge them in the blue copper solution you already made. Because they are connected to the battery, a current is flowing through the circuit. Atoms of copper will transfer from the copper metal and bond with the metal you are plating to form a coat.<ref | + | #Submerge the metals in the blue copper solution. Once both metals have been connected, submerge them in the blue copper solution you already made. Because they are connected to the battery, a current is flowing through the circuit. Atoms of copper will transfer from the copper metal and bond with the metal you are plating to form a coat.<ref name="rf4" /> |
#* To avoid burn spots (spots where the copper accumulates too quickly), keep the two metals at least one inch apart and keep the solution in constant motion. | #* To avoid burn spots (spots where the copper accumulates too quickly), keep the two metals at least one inch apart and keep the solution in constant motion. | ||
#Remove the metal when the coat is even. When you are satisfied with the look of the plating on your metal, remove it from the solution. You can take it out of the solution and check the coat, then replace it in the solution without disrupting the process. | #Remove the metal when the coat is even. When you are satisfied with the look of the plating on your metal, remove it from the solution. You can take it out of the solution and check the coat, then replace it in the solution without disrupting the process. | ||
