Vermeil, Gold Plate and Gold Filled
Flex Shafts, Dremels and Drilling Tools
Jewelry Tools Tools at Micro-Mark
Soldering 101 The 4 Steps for Successful Soldering
Soldering Success The Four Steps
Step 2: Clean Metal/Solder/Flux/Hands
Torch Tips Choosing the correct size for the job
have a torch, need to set it up? Heres how.
Soldering 101, part oneandSoldering 101, part two
You need to understand what you are working with!
Important techniques for creating square edges like on ring shanks, tubing, settings, etc. pretty much any two pieces that you want to solder together!
Important steps before you solder.
Mark your solder before confusion reigns!
Extremely important information that every jeweler should know! Dont risk your life or your health! Know the dangers of metal dust? If not, dont sand anything yet!
Creating Consistently Sized Spheres
how do you make perfectly round spheres? You might need to know!
an important skill to have otherwise, you can damage your metal and work twice as hard!
Want broken wire? How about melted wire? Need your wire soft and bendable? These tips will help you to avoid these problems and work with ease!
DIY Fume Extractor for the Studio or Shop
One of the BIG ONES for studio safety. Learn to make your own!
How to Make a Bezel and Set a Cabochon Part One
Want to solder thin material to thick? Want to set a stone or two? Learn how to create and solder bezels.
How to Make a Bezel and Set a Cabochon Part Two
Soldering Jewelry: How to solder settings, bails and wire. We solder dissimilar shapes and sizes of metal together, all the time. Want to stop melting your settings or bails? Can you solder wire without melting it?
Soldering Jewelry Sweat, Flush, or Applique Soldering How to solder two pieces of metal on top of each other. Learn tricks for successful joining of dissimilar sizes and how to apply solder.
My YouTube Soldering Playlist A list of all my soldering videos on YouTube.
Learn all about the material you use.
A huge page with so much more than info on Acetylene! Learn all about torches, soldering and how to protect yourself!
Soldering related charts. Includes things like: annealing temps, compressed gas valve sizes, what temperature does your gas burn at, what are the melting points of your metal. Also, there are wire gauge charts, millimeter to fractions and inches charts, drill bits to wire gauge charts. Lots of information!
nice to know if you plan on soldering anything!
On Pickle, Acid, Crock Pots and Baking Soda
How to remove the schmutz left from soldering, how to make your own pickle, how to use pickle and how to neutralize pickle. Tons of info!
Why does oxidation occur? Why do you keep getting fire scale, how do you get rid of it. Learn the whys of what is happening when you solder and the solutions.
The 4 Steps for Successful Soldering
The 4 steps will help you to achieve soldering success!
How to mark your solder so that you always know what type it is.
: Having a hard time squaring up the ends of your ring shanks? Check out this tool!
See what others have had problems with and find the solutions!
How long to hold your annealing temps. Kiln annealing.
Balling up wire, tapering wire, work hardening wire, straightening wire and more!
They arent just for cookin anymore!
Removing Broken Drill Bits From Your Metal
-snapped your drill bit and cant get it out? Heres how to remove broken drill bits.
i.e.: How to remove the copper coating you might get from pickling. Also, how to remove copper from brass or bronze that comes to the metals surface after soldering.
: Trying to figure out what you need to make fire in your studio? Check out this information before you buy!
my list of basic necessities for soldering.
One of the most asked after subject matter. Many of my web pages have been inspired by soldering issues and questions.
Portable vs. regular torches, problems with torch, butane torches, water torches, setting up a torch safely, buying torches.
Ive been asked about a million questions related to soldering/brazingwell, thats a huge exaggeration but, itisthe subject of many of the questions that Im asked and for good reason. There is probably, no other technique, that causes as much fear, uncertainty and confusion, as soldering. Soldering, and doing it well, takes practice. But, given the right training and some hands-on rehearsing, everyone can solder well.
Most things can seem daunting at first glance:think of the messiest room that you can imagine(no, not my studio). Then think about how youd feel if someone said: clean it! Overwhelmed (and probably a little irritated that you got stuck cleaning this imaginary room), you look around a bit dazed and confused. But, turn on a good audio book, start in one corner, have a few storage boxes, a couple of hooks, a cabinet or two and time and before you know it, the room is clean. Its overwhelming to focus on the total scenario. But, if youfocus on just one small spot,its manageable. So, we are going to look at soldering by only directing our thoughts to small parts of the whole.
Ive broken, in this discussion of soldering, down the process, materials and tools. As the many videos and webpages, listed above, attest: Ive produced a lot of material on soldering. Please take some time and check out my web pages and my videos.
So, like cleaning that messy studio, we will take small steps.
As you no doubt know, by now,soldering involves heat a lot of it. We use a gas torch to enable our metal to reach the temperatures necessary to make the solder flow. The solder bonds to the metal bycapillary action(think water moving up a paper towel). Whether you are working with any of the various silvers, golds or base metals (bronze, brass, copper, etc.) the following techniques will be relatively the same. Each metal has its own peculiar characteristics though, which will slightly affect certain parts of the process. A few will be discussed in detail, later on.
Solder is the glue that holds the various pieces of metal together.In order for the solder to flow,the metal must be clean all of it including the solder and the flux. The reason for this is that dirt, grease, oxides, etc.will create a barrier between the metal and the solder. Think of the dirty surface like plastic wrap over your ham sandwich (your potential solder join). The plastic wrap keeps you (the theoretical solder) from your delicious sandwich. It you remove the wrap, your mouth and the sandwich can join happily together. (Is this the weirdest and perhaps worst analogy ever?).
Details on solder, itself, is discussed in detail in myOn SolderPage. Discussions on solder in this section will involve its interaction in the soldering process and problems that can occur.
Ive come up with 4 different procedures that should ensure success when you solder. These steps are:
This just means that the two pieces of metal that you are joining together,fit as closely as possible.
In the instance of a Butt Join, such as you would use for a ring or joining a bezel together, Theedges should be flush and fitted tightly. When held up to the light, you should see very little shining through.
When using round wire and tubing, you shouldfile a flat spot, on each side, of the pieces that will be joined together. Not only will this make it easier to keep the pieces from rolling, during the soldering process, but, it will add strength to the join. Thiswill result in:more area for the solder to flow.
See my video:Flat Square Edges on Sheet Metalfor information on how to achieve a good fit. Also, two invaluable tools for obtaining square edges on metal, tubing and wire are:Miter Cutting Jig and Vise(See my page on this tool)Miter Cutting Jig and Viseand theMachinists Vise(AKA: Toolmakers Screwless Vise). There are alsoTube Cutting Pliersthat can be used for tubing and wire. They are also great for holding tubing and wire if you need to clamp it down: for drilling, for filing grooves into it, etc.
Most people realize that their metal should be clean but what about flux and solder? Another thing people forget about is their hands. You might start out with sparklingly clean fingertips but, did you scratch your face, buff that ring or pet the cat right before setting up to solder? If so, you can bet your hands contain some form of dirt.
Your face contains a lot of oil glands so, while in the studio, get in the habit ofkeeping your hands off of your beautiful face. Ditto for the cute cat.
You canwash your hands with a gritty soaplikeBoraxo.Some soaps have added moisturizers and could add a layer of oil to your hands.
Cleanliness is imperative for successful soldering because, quite simply, both the solder and the flux,will not flow across dirt of any kind: oxidation, grease, and yes, dirt. So, to ensure that you get a perfect solder join, wash up.
Dawn dish detergent and hot water works too. Your hands will be a mess. They will be dry, cracked, calloused. Your hand modeling career is officially over.
Cleaning your metal is discussed in my video:How to Clean Metal.Sandpaper is also an effective way to clean your metal. It has the added benefit of taking the shine off of your surfaces.Flux doesnt flow well on shiny metalso, abrading your surfaces to be soldered will help ensure an even coating of flux. I use 400 to 1000 grit sandpaper for this process.
After cleaning your metal,hold it by the edges, to reduce any contact with dirt.
Cleaning solder is pretty easy if you are using sheet or wire you just clean it like sheet metal. With the wire solder, I pull it through a
It gets crazy when you have to clean pallionsput your pallions into an ultrasonic cleaner. Use a wire mesh container, like those used by watchmakers, to place your pallions in. In England, you can get one atcarries a similar type. Tea strainers are another alternative one with a fine mesh.carries one for 4 5 dollars, US. Picking pallions from the bottom of the ultrasonic, probably isnt too much fun!
by dipping your flux brush into the container. After a while, the bottle will fill up with debris and other contaminants (like bits of rusting steel from paintbrushes, bits of charcoal from your soldering block) and your flux will get dirty. To save you from having to buy new flux just because its dirty use a small, low-walled container to put your flux in.
Tops of jars work fine. Just pour in enough for the day and discard the rest. Dont pour it back into the bottle!
There are alsoflux dispensersthat work great. Although, after a while, they need to be thoroughly cleaned because the flux crystallizes when it dries. The crystals inhibit the function of the dispenser. But, it takes quite a while for this to happen.The dispenser keeps your flux clean and dispenses flux in controlled amounts.Amazonand other jewelry suppliers carry this product.Kingsley Northcarries them as doesRio Grande.
flux dispensersthat come in squeeze bottles with various sized
. These work well, if you squeeze the flux into a little bowl. Otherwise, they can flood the area with too much flux.
TIP: After flux application, heat the flux until it glasses (the white bubbly stuff calms down). Now, dip your paintbrush in a bit of flux, pick up a pallion of solder and place it on the (cooled but, still warm paint brush wont melt) metal. The solder has less of a chance of bubbling off now. You can also ball up the solder first the solder granules dont flip off as easily.
Just an aside here: use decent brushes for applying flux. Cheap plastic brushes wont easily pick up and place solder pallions. Decent brushes make solder placement less frustrating. If you touch a plastic brush to hot metal, of course, it will melt. The hair brushes dont survive unscathed either. But, you can trim them down and continue to use them. I, generally, purchase a few, new brushes each year. I, also, like to have at least two different sizes on hand: one for larger areas and one for smaller.
There are brushes designed just for applying flux. Rio, of course, sells one type:the non-contaminating flux brushin sizes 1 and 8 (larger). They are non-contaminating because they dont use steel to hold the bristles in eliminating any potential rust or steel transfer to your work.
There is also aBurn-Away Flux Brush.
You can also use small,Chinese bamboo brushes. They have great tips and are relatively inexpensive.
One of the biggest problems in learning to solder is the fear/fearlessness of the torch wielder
which is just a reflection on the users inexperience with the tool.
Most students are so afraid to melt their pieces that they never quite reach solder flow temp. Of course, there is the other extreme, whereevery soldering experience ends in liquid metal. What to do?
Well, this is where practice comes in.Start with scrap metal. Practice every type of join Butt, T or Strip andSweatSoldering(link to my video on Sweat Soldering).Solder again and again and be fearless. If it melts, try again with less heat, less time. There is nothing wrong with melting your metal if it is a practice piece.Melting a piece of jewelry that youve spent hours on is sooooooo depressing. But, IT DOES HAPPEN! Eventually, though, you and your torch will have bonded and the number of jewelry (jeweler) meltdowns decreases significantly.
One thing that will help you to achieve a flowing solder seam, is to have the correct torch tip for the size of your work.
So,those that are melters (you know who you are!)have no problem getting their solder to melt. But, is it flowing? Is it running along the seam or did it scale the walls on one side? Did it get so hot that the solder was absorbed by the metal? Do you have pits? (You overheated the piece and burned out the zinc in the solder!)
The Answer is: BYou want a torch tip, especially with silver, that will heat the metal up rather quickly.
Pure Silver(235(Btu/(hroF ft))is the bestmetalconductor of heat copper (223(Btu/(hroF ft)), is next in line followed, rather poorly, by gold (182(Btu/(hroF ft)). Now, knowing these fact, you can understand why you need a larger torch tip (which results in a larger flame)! When that fiery, ultra hot flame heats your metal,the heat starts to travel and it travels AWAY from the flame.So, in the example above, the larger tip (tip B) is going to heat the metal faster. It could take quite a while to heat this whole piece with the small torch tip. Then, you would probably have developed a lot of oxidation and expended a ton of gas. You would also be thinking about now:wonder if this solder will ever flow?
All items touching the metal you are soldering, especially metal, will pull away some of that heat, slowing down the process further. The term heat sink, applies to the pulling away of the heat. Sometimes you want a heat sink, like when you are trying to protect a prior solder join or a thin, small object like a stone setting. Charcoal blocks absorb heat but, they reflect it back up onto the metal.
Torch tips come in a variety of sizes. The numbering system depends on the type of torch you have.
So, if youve gone through your checklist of: fit, flux, cleanliness and the solder isnt flowing, think about changing tips.
Here are two flame charts fromRio Grande. See how different the flame sizes are for the same numbers. In my video, I compare the 2 tips.
Youll probably want to own at least two tips. Three would be better. In fact, thats pretty much all I use. I have a small tip, medium and large. The large tip is used for annealing, steel work, refining and for soldering large pieces. The small tip is for tiny solder joins like a 3mm basket setting or jump ring soldering. I use my middle sized tip for most of my soldering processes.
The next important information on heat is that,in order for the solder to flow, you must heat the metal on both sides of the join, up to solder flow temperature. If you heat one side more than the other, the solder will flow to the hot side.
Dont heat the solder. The solder is one of the smallest pieces of metal on your piece. It will melt first but, wont do much except (if you heat it enough) absorb into the metal, maybe start eating away at the metal, resulting in pits or melt into a puddle.
When you are soldering silver (sterling and fine not Argentium or gold they dont conduct heat as well: see more information below) and copper, you want to heat the largest pieces first.
The drawing on the left illustrateshow to heat a piece with multi-sized elements.
As the black square gets hot, it transfers heat to the pink square. So, the pink square is pretty warm now. At the same time, the small blue square is getting pretty hot too because, it is the smallest element there are less places for the heat to run off to and elope. By the time you bring the torch to the blue square, the solder will probably be flowing or danged close. Usually, you dont even need to heat area three.
How can you tell when its time to move the torch?Watch your flux or the color of the metal. The flux will get translucent near solder flow temperatures. The silver will get light pink and the copper, brass and bronze will get red. The most obvious clue of all is that the solder melts or flows. Dont forget, copper, in particular, likes to create tons of oxidation. Because of this tendency, you need toget in there hot and fast!Dont slowly heat copper up, if you can at all help it.
When soldering Argentium or Gold, the heat doesnt run like a mad woman.The heat tends to stay near the torch so, heating the entire piece is not that important. You can direct the heat, with these metals, to the two sides, near the join, where you want the solder to flow.
When I solder, I move my torch in and out, heating and letting it cool, heating and letting it cool. By removing the torch I can check for melting metal, solder flow and other indicators. A light fast touch is needed when the solder is about to flow.
For information on the 4th step:Flux,please see my page:Soldering 101: Oxidation, Flux and Firescale/stain Prevention.
Excerpt from Oxidation, Flux and Firescale/Stain Prevention page:
Flux plays many important roles in soldering.
It creates a glaze, on the metal, which
protects the metal from interaction with the atmosphere.
when soldering when either paste or liquid flux reaches solder flow point, they become translucent.
Flux needs to be compatible with the metal being used
. Use fluxes designed for the metal you are using.
. If the heat present, surpasses the working temperature of the flux, the flux will no longer work.
1100F (593.33C) 1700F (926.67C)
1100F (593.33C) 1500F (815.56C).
, check to see if flux is included in the mixture. If it is, you dont need to flux.
But, you might want to add additional flux to protect your sterling from firescale!
Flux is important for soldering, even if your metal doesnt produce oxidation, like fine silver orargentiumsilver. It helps solder to flow.
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The Rivited Portrait Pendant Trailer
Vermeil, Gold Plate and Gold Filled
Photoshop Tutorial Image to Line Drawing
Making a Heart Shaped, Enameled Pendant
Inspirations, Thoughts, Motivation for Jewelers
Stone Setting: Cabochons and Faceted Stones
Buffing Motors, Dental Lathes, Polishing Motors, etc.
Flex Shafts, Dremels, Drills and Other Things Like That!
3M WetorDry Tri-M-Ite Polishing Paper Chart
Annealing Temperatures, Melting points, Annealing information from Aluminum to Tin
BS Gauge in MMs and Decimals
BS Gauge to Millimeters, Decimals and Fractions: Common Jewelry Gauges
Drill Bit Sizes in MMs and Decimals (Smaller Sizes) with Closet Matching BS Gauges
Gas Oxygen Maximum Temperatures for Torches
Radial Bristle Discs: Grits and Colors Chart
Setting Burs and Drill Bits Comparison Spreadsheet
This chart presents the BS AWG Gauges and their closest matching metric and standard drill bits.
Wire Gauge BS, AWG and European Cross Section: MM2
Guilds, Directories and Other Resources
In the Studio with Nancy Past and Present Volumes
Jewelry Instruction and Information
Pin Back or Brooch Back Patterns Jewelry Making
Etching Chemical Recipes: Silver and Copper Nitrates and Copper Sulfate
Red Patina on Copper: Heat and Hot Water
DIY Jewelers Workholding System with a Ring Clamp
Flex Shafts, Dremels and Drilling Tools
Jewelry Tools Harbor Freight
Jewelry Tools Tools at Micro-Mark
Finding the Center of a Disc or Circle
Sculpt Nouveau Patinas and Metal Finishes
Acetylene, Propane, Mapp and Oxygen Gases Torches, Hoses, Regulators, Setup
On Pickle, Acid, Crock Pots and Baking Soda
Soldering 101 Oxidation, Flux and Fire Scale Prevention
Soldering 101 The 4 Steps for Successful Soldering
Settings for Irregularly Shaped Stones and Objects