Maritime Service CPO obverse.
Red enamels and silver.
Maritime Service CPO Reverse.
Note silver toning of solder.
The methods of making a hat badge are similar to the process of making a coin: they can be cast or stamped… only there’re additional processes after the initial coining (stamping). Casting a badge is often imprecise and lacks the crisp lines found in stamping. This entry will detail coining and die production.
Casting
Casting involves wax casting, molten metal, and sand. Casting, more often than not, is the province of reproductions. A cast badge can be quickly identified by a seam along the edge, and a particularly hasty employment of the process is belied by pitting on the reverse. I have never seen a cast badge by any of the major insignia companies: Vanguard, Gemsco, Amico or Viking. Do not be fooled by the claim of “theatre created”; no Navy man or merchant sailor has been so hard up as a cast a badge in a ship’s shop; sew a hash mark, sure.
Coining/Stamping
Badge manufacture is a fairly straight-forward and precise process. If you take a moment to inspect a badge, oftentimes you’ll notice the high level of craftsmanship employed and often crisp lines – this is an artifact of the stamping process. It takes five distinct phases to produce a stamped hat badge; these processes have remained, for the most part, unaltered since the Second World War to the present day.
1. Stamp
A sheet of metal is placed under a press and the metal is embossed with the design found on the die. Common base metals are malleable substances which respond well under pressure, such as brass or silver (never steel or iron). The die will have pins indicating proper line up of the obverse and reverse dies; in a single stroke by either hand wince or machine press, the die pairing brings up the design. Even crisper designs are achieved by two strikes.
On older badges, you can visually determine if the base metal is brass by the presence of verdigris. Verdigris is a pale green coating of the metal produced when the metal has been exposed to sea or saltwater over time. I personally think the presence of verdigris lends a handsome look to a badge.
After the stamping is completed, the edges are trimmed of excess metal (salvage) and the jagged edges are filed. At this point, the badge is pierced if necessary. Piercing may be done with a small precision drill or minute punch points. The overall effect is to not to bend the metal.
2. Solder & Fusion
Devices, such as screw shanks or attach pins are soldered onto the base badge. Common lead/copper amalgams of lead, copper or silver/zinc are used during this process. Here, the jewelers’ or electronic machinists’ soldering gun is employed.
On hat badges, you can oftentimes determine the composition of the solder by using the following visual cues. Lead is highly malleable, and has a quicksilver color; copper oftentimes develops verdigris over time; and silver/zinc presents a deep patina, sometimes almost black, over time.
A hard solder of silver is used with hat badges so manufacturers may enamel the badge or pass assay. Such solder allows the badge parts to not come apart or desolder during the enamel firing process.
Badges which are not to be enameled or have epoxy applied are polished; otherwise…
3. Enamel & Epoxy
After soldering, the badge is allowed to cool and enamels and epoxy are applied. In terms of actual badge production, this is an extremely time-consuming task. Enamel is a paste-like substance comprised of powdered glass and distilled water; epoxy is a resin paste.
After the badge is cleaned in a bath of sulphuric acid and dried at 212F, either paste (glass in a molten state, resin in paste) is applied to the surface of the badge. Application methods involve either being either poured or brushed. The badge is then fired in a kiln between 1400-1500F for 2-5minutes – depending upon the enamel properties – for the enamel to fuse to the metal. This process is repeated for each individual color. The end product of enameling should be of a lustrous and uniform appearance without bubbles.
After enameling, the components of the badge are now stoned. Stoning is done via diamond or sand mesh cloth. At the completion of the process, the enamel is flush, with individual die lines visible.
4. Polish
Badges are now polished to a high luster. Polishing is achieved using high RPM diamond-brush polishing machines.
5. Plate/Anodize
Plating is an electrochemical process of depositing metals onto the surface of the badge. Anodization is a process of altering the crystal structure of the metal near the surface and creating a sealed and overall corrosion resistant surface; the trade name for this is STA-BRITE. Various manufacturers have anodized hat badges since the mid-1970s; Ira Green was a pioneer in the field.
In terms of plating, maritime hat badges are found have nickel, gold, rhodium and silver plate. Since a badge is usually not plated in two metals, more other than not, badges are comprised of different parts and attached to each other via pins, screws, solder or adhesive (super glue anyone? I’ve seen Senior Chief badges with star applied thusly). To plate, the badges are placed on racks and lowered into a tub. Electrodes are put into position, the solution is zapped for a specified period of time and then parts removed.
6. Assembly
Once the badges are air-dried and removed from their plating rack, their constituent parts are assembled and the badge is complete.
Maritime Service CPO hat badge hub.
Die production
Die production is pretty exciting and having an actual hat badge hub or die is quite a gift.
First, an artist creates a large plaster model of the badge. The model can be any where from two to eight times larger than the end badge. Once the model is approved, it is coated with rubber; the rubber is baked and then removed – creating an epoxy galvano. Next, a Janvier reducing lathe is used to reduce the image onto a steel master hub. Once complete, the master hub is then hardened via heat-treating.
The master hub is then used to make a master dies via a process called hubbing. Hubbing involves pressing the master hub into a steel blank to impress the image into the die. The master die is then used to form as many working hubs as needed through the same process, and then the working hubs are put through the same process to form working dies. These working dies are the ones used to produce the badges.
The process of transferring the hub to the die can be repeated as many times as necessary; the difference between a hub and a die is that the hub has a raised image and a die has an incuse image, so one forms the other.