Category Archives: Metal Working

Choosing Which Metal To Use – Part 2

Posted on by

Last time we talked about choosing true bronze in order to get the look, feel, and functionality that we see in many pre-1600 pieces. But there is at least one metal that I generally avoid like the plague in my workshop – lead. Lead was widely used in many pre-1600 items (for that matter it wasn’t banned from house paint in the US until 1978). When we look at period examples of inexpensive jewelry, it is often made from lead, tin, or an alloy with lead.

This example, of a lead cross pendant from Egypt, is typical of some of the less expensive jewelry that would have been made for ordinary people.

Lead can also be used as a decorative element in jewelry, including niello and leaded enamels. Niello is a black substance that can be fused to the metal in a piece of jewelry to create a contrasting design. If you are interested in the details of how niello is made and used, please visit my blog on this topic.   The Anglo Saxon’s were masters in the use of niello. The black stripe up the middle of this Anglo-Saxon brooch is niello (and so is a lot of the tracery on the Sutton Hoo pieces).

Prior to 1990, Thompson Enamel, which produces a considerable percentage of the enamels used by both artists and industry, contained lead. Many companies still make leaded enamels. And it is safe to say that most enamels that were used before 1600’s would have contained lead. Lead makes the enamels very stable and gives them good flow properties. For more information on enamels, here is the link to one of my blogs on enamels and how they were used (I mentioned it last week, too).  And yes, I do sometimes use leaded enamels.

Lead, being a naturally heavy substance, was also used for many practical purposes like this steelyard weight.  The Bronze weight was cast as a hollow piece and then filled with lead until it was the desired weight.

Spindle whorls are another excellent example of an item was very frequently cast in lead. I own several lead spindle whorls, all of which were found in England. Lead, being a rather soft metal, is relatively easy to damage. Two of the spindle whorls in the bottom row of this picture are excellent examples of this. The far left whorl has been compressed slightly, and the spindle whorl that is the second from the right shows a significant gouge, probably from a plow.

spindles

Lead can certainly be used and worked in a safe manner, but legally there are a lot of issues. Every state has different rules about how much lead is legally permissible in jewelry, especially in jewelry that may be used by children. When I first started making jewelry I sat down to read all of the different regulations for the states that I was planning to merchant in. It didn’t take me long to decide that it was simply easier to avoid it. Whenever pewter or lead is called for in jewelry or other accessories, like spindle whorls, I simply use a good quality unleaded pewter from a reputable supplier.

Next Time: Are there any other issues with metal that should be considered?

Choosing Which Metal To Use

Posted on by

I often hear conflicting complaints from historic re-enactors and SCA folks alike:  “the problem with my group is too many authenticity Nazis” and “why can’t people at least make a more accurate attempt at their clothes?”

As a professional jeweler and merchant at SCA events, I frequently wrestle with the disparity of these sentiments. Some of the choices are difficult, but some are easy from my perspective. I make many of my items using a copper alloy known as bronze. Some merchants choose any old copper alloy without regard to what would have been used historically. But using true bronze gives my pieces the look and feel of the originals that they are patterned after.

Bronze was used to make weapons, armor, knives, brooches, hooks, crosses, and many, many, other items. It’s a ubiquitous material throughout Medieval history, and much earlier. Bronze is a remarkable alloy with multiple formulations. The first bronze included copper and arsenic (yes arsenic). Fortunately for real sticklers for accuracy, arsenic bronze was largely replaced by a tin and copper formulation that we recognize today as true bronze. A bit of good news for authenticity fans – true bronze became the primary bronze from the 3rd millennium BC.

There are very few places on the earth where copper and tin are found together (one site each in Thailand and Iran), so true bronze is reliant on trade. Great Britain was the major source of tin in Europe, which can explain some of the unusual trade goods found in Britain.

Copper alloys are truly remarkable. They can be harder than wrought iron, be sharpened for cutting edges, and the alloying process is comparatively easy. Depending on the alloy (tin, zinc, lead, silver and other additives) the metal can take on many different hues. Each formulation has unique characteristics, and in our modern society they have very specific names – brass, yellow brass, and nickel silver, to name a few. Some alloys are malleable, others are hard and brittle, and still others have differing degrees of chemical resistance.

Are there any other practical reasons for me to want to use true bronze instead of some other bronze alloy? Yes. True bronze can be enameled. Now some of the other alloys can be enameled, too. But the problems with enamels changing color because of the zinc in brass, for example, can be difficult to overcome. True enamel is a form of ground glass that is melted and fused to the metal. If you are interested in more detail about enamel and enameling, just visit my enamel blog.

Handled ewer. Copper alloy with champlevé enam...

Handled ewer. Copper alloy with champlevé enamel, Late Roman work. (Photo credit: Wikipedia)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Today we know that iron replaced bronze for knives, weapons, and many other larger items, as iron working skills matured. Iron could maintain a sharp edge longer, withstand greater bending forces, and eventually could be made into steel. The transition to iron seems to have been encouraged along by a tin shortage. Around 1200 BC the shipment of tin around the Mediterranean plummeted – coincident with population migration. There’s no definitive proof of the link between migration and the tin shortage, but some archaeologists believe that there is a causal relationship between the two.

But are there any other metal choices that we need to make for period reproductions? We’ll talk about that next time.

My Casting Process Up Close – No It Is Not Instant! Part 3

Posted on by

Last time we ran through some of the basic techniques that I use to process my lost wax cast pieces. And we asked the question : Are We Done Yet?

Well, almost. I use essentially the same process for both bronze and silver. The biggest differences in the way pieces are processed depends on the shape of the piece. Flat pieces, like regalia medals, often require a lot less sanding and polishing than three dimensional pieces, like buttons, or pendants. The Raven Viking Pendant, for instance, has more than one sprue connection that needs to be cut and polished off for each piece (three to be exact).

If the piece needs to be drilled, this is when it happens. I use my little drill press to drill holes in the regalia medals and make sure that any other holes, whether they are in dress hooks, pendants, or anything else, are the size that they are supposed to be.

drill press

This is also when any pieces that do not have carved maker’s marks can acquire stamped marks, if appropriate.

makers mark

I then use the Cratex wheels to remove any rough spots from pieces that were drilled.  Assuming that everything has gone well up to this point, the pieces go into a rotary tumbler with stainless steel shot to burnish.

Jewlery in TUmbler

Here is a picture of the rotary tumbler barrel, with stainless steel shot and a collection of dress hooks. You can see how much cleaner the castings are. The stainless shot will make the pieces a lot shinier. After they have tumbled for about 20 minutes, a quick check will reveal if they need more cleaning or not. Some pieces just need a little more help. And that help usually comes from the magnetic tumbler.

Magnetic Tumbler

And this is a view inside of the magnetic tumbler. Those tiny little hairy things are pieces of stainless steel which are about 1.5 mm in diameter and 5 mm long. The machine uses magnetism to fling the tiny pieces of steel in a vortex at about a gazillion miles an hour. It is great for getting into nooks and crannies and cleaning them out.

Once the piece is clean and polished enough, it is rinsed and then put in the dryer. The dryer? Yes. I have a vibratory tumbler filled with ground corn cob. The cob absorbs all of the moisture and prevents the piece from developing water spots.

vib tumbler dryer

And this is what a piece looks like after it comes out of the dryer.

Etsy 61 hand held

Shiny! Of course at this point the pieces are once again examined in a bright light and checked for imperfections.  Scuffs or dirty spots will send them back into the process for touch-up.

I hope that this picture-rich blog gives you at least an idea of the process that every single piece of cast metal goes through in my shop. There are lots of other systems and techniques that can be used to accomplish the same end results, but no matter what system is used, there is nothing instant about the process!