Recreating History with Modern Technology
|Watch an interview with Dan Webb—|
welder extraordinaire—at www.metalshapingblog.com. Just enter Dan Webb in the search bar.
Beneath its bubble-shaped bronze exterior lay evidence of a compulsive designer fixated on detail and craftsmanship. Harry Miller meticulously constructed that car and his other cars well beyond most practical consideration. Sheetmetal parts, unseen deep within the car’s chassis, were formed and finished to the same painstaking standards as the rest of the visible components.
Modern-Day Arc-Welding Expertise Honors Century-Old Craftsmanship
In 2007, Dan Webb set out to honor Miller’s iconic creation by building a low-sloping hotrod variation of the original. For Webb, the project needed to transcend mere steel and rubber and embrace the spirit of Miller’s obsession with quality. What Webb brought to the project 90 years later was a new level of welding technology available only in the last few years.
Early car builders experimented with different techniques of oxyfuel welding, the popular
|How to Select a GTAW Power Supply|
Gas-tungsten-arc welding (GTAW) is a highly skilled and precise welding process, frequently used for cosmetic applications or those involving thin sheetmetal that require strict control of heat input. Selecting the right power supply for your application is easy if you follow the right criteria. Amperage range
A GTAW machine with too narrow an amperage range can limit the variety of materials that can be welded. A machine with a range of 5 to 230 A provides the flexibility needed to weld on thin materials like 24-gauge stainless as well as aluminum alloys to ¼ to 3⁄16 in. Aluminum requires higher amperages compared to steels, so purchasing a welding machine that cannot reach at least 200 A will limit the maximum thickness of aluminum to 3⁄16 in. The wider the range, the more applications you can perform without having multiple machines.
Low-amperage welding performance
Select a power supply that offers good arc stability at below 10 A. This provides easier arc starts and better arc control, critical when welding on thin materials, as well as optimum crater-fill capability at the end of each weld. Beware of machines that only will produce hot starts, which can cause workpiece burnthrough.
AC and DC welding
To weld a variety of materials—ferrous and nonferrous including aluminum alloys—select a welding machine that offers AC and DC power. AC finds use on self-oxidizing soft alloys like aluminum and magnesium, while DC gets the call for welding carbon and stainless steels and deoxidized copper.
The right controls
Heat control represents a critical success factor for successful GTAW, to minimize workpiece distortion. One way to control heat input into the weld without sacrificing weld penetration is to pulse weld—the machine alternates between a higher peak current and a lower background current. This maintains the arc while allowing the weld joint to cool.
Many GTAW machines include a number of features that will optimize durability and lifespan. These include environmentally coated PC boards and double-dip varnished transformer windings.
Submitted by Jim Harris, product manager,
Today, most high-end racing and show cars are gas-tungsten-arc (GTA) welded. Webb GTA welds every part of his show cars, relying on the precise control of arc starts, power settings and arc stability afforded by state-of-the-arc power supplies. Most recently, for his shop in Burton, MI, he’s opted for a Lincoln Electric model, the Invertec V310-T AC/DC, which provides a number of variable settings as well as digital display of the effects of each welding parameter.
The Perfect Beads for a Perfect Golden Submarine Replica
Webb considered the V310’s technology capabilities to be a substantial breakthrough, and so with the original builder in mind, he decided to lay down perfect GTA-weld beads throughout his Golden Submarine replica, regardless of the need for visibility—just as Harry Miller would have done.
“Sure, there’s parts in there nobody sees, but I know they’re there,” Webb says. “When you leave a perfect stacked-dime weld on every joint, you know the car is done right, and that’s something Harry Miller would have done.”
Attention to detail? Webb deposited welds on similar parts at exactly the same length; identical welds repeated on opposite sides of the car have the same number of ripples; and each ripple is spaced equally apart. On brackets, for instance, with two parallel welds, identical stacked-dime patterns are laid down on the first side and then back up the second side, creating mirror images of each other.
To ensure similar weld sizes throughout, Webb used a center punch to mark the base metal at weld start and end points. He then counted the number of times he dabbed the consumable weld rod into the molten puddle, precisely timing intervals and travel speeds. His ultimate goal was for weld continuity throughout the entire car.
Digital Display a Key Enabler
The digital display on the Invertec power supply helped Webb achieve such a strict level of control. As needed, he could scroll through preset welding parameters and dial in weld-current settings for each application. He also controlled AC frequency and balance by monitoring the digital display to see how the arc reacted to different parameters between welds.
Webb put more than 3000 hr. of metal shaping into his Golden Sub replica. He says that the meticulous quality rested on his ability to be aware of the weld current and heat going into each weld.
“A good welder must control the metal at all times,” Webb says “The technology facilitates much of that, but patience plays a pivotal role as well. You really have to have the fortitude for this kind of work. The original builders would have loved this machine, and I also like that the inverter technology is quieter than other power sources. That makes a big difference when you’re welding for long periods of time.”
Other Features of Webb’s Gem
The original Golden Sub’s notable golden hue came from a combination of lacquer and bronze dust. Webb’s modern tribute car, on the other hand, features a hand-formed, unpainted raw-steel body that purposely exposes the builder’s workmanship. Webb says he will never paint the car.
Steering, shifting and pedal controls on Webb’s car are all hand-formed in steel. It sports a 2.0- l Ford Zetec four-cylinder engine with mounted disc brakes borrowed from a motorcycle. The torque tube passes between the driver’s legs, and the exhaust is channeled through wrapped pipes down the drive’s left side, exiting through the rear tail tip of the teardrop body.
In its day, the original Golden Submarine embodied a never-before-seen blend of form and function that won 20 major races and qualified for the Indianapolis 500 before its engine died, along with its chances to race on. It cost $15,000 to construct, entirely by hand, but was later lost in a fire in Joliet, IL.
After a car show last year, when Webb first displayed his replica, the nephew of Golden Submarine driver Barney Oldfield sent a letter to Webb writing that he thought his father would be proud of the reproduction.
“That really meant a lot to me,” adds Webb. MF
See also: Lincoln Electric Co.
Related Enterprise Zones: Welding
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