On October 4th and 5th Canada's largest welding, fabricating, and metal finishing conference is taking place in Edmonton, Alberta.
The CanWeld Expo is described as "the only Canadian-made major exhibition dedicated to welding, metal fabricating and finishing. Held in partnership with the Canadian Welding Bureau’s award-winning CanWeld Conference, this annual event will visit the centre of Alberta’s manufacturing heartland – Edmonton. This location also aims to service the region’s active oil & gas, petrochemical, agriculture and general manufacturing supply chains."
Hofoil-EHS will in exhibiting as a guest of Stein Industries in London, Ontario. Stein will be exhibiting its high quality, custom designed, affordable induction heaters built to withstand harsh environments with wide applications.
This is a great opportunity to see major welding equipment vendors and new technologies being introduced. If you plan on being at CanWeld, please stop by the Stein Industries at booth 820 in the Main Hall.
A blog that provides educational information on electric heating systems used on hoppers, chutes, tanks and vessels; electric heating systems used for pre and post weld heat treating; heat treating power consoles; custom heat treating furnaces; and single & multi-operator welders. For more information, visit HotfoilEHS.com
Diagram of Equipment for Typical Weld Heat Treating
Weld preheat console in use |
The heating may or may not continue during welding, dependent on the heat generated by the arc. The goal is to maintain a certain temperature from the first weld pass to the last.
Preheating produce several very beneficial effects, including producing a more ductile metallurgical structure that cracks less, helps in releasing trapped hydrogen, and reduces stress cracking during cooling.
It is always recommended that you should consult with weld heating experts and learn the fundamentals of this process in order to avoid costly errors in preparation or wasting money on the using the wrong equipment.
Here is a very general diagram of the typical welding pre-heat equipment layout.
For more information, visit HotfoilEHS.com or call 609.588.0900
Industrial Heat Treating: Gas Train Basics
Industrial Heat Treating Burners |
The combustion provides the thermal energy to heat the workpieces in an oven or furnace to the desired temperature. The gas train can be broken down into several major components. The major parts of a gas train are:
Blower:
Industrial Heat Treating Gas Train |
Regulator
Regulates the total volume of fuel available to the burner and available to mix with the combustion air.
Control System
Gas Train Control System |
Ignition System and Transformer
Provides the required voltage to create an arc sufficient to light the burner. The ignition system is used to ignite the fuel / air mix - once the ignition takes place, the ignition system is no longer active. Electrical system includes circuit breakers for high and low voltage, starter contactors with over-load, and 750vA transformers for low voltage side.
High Velocity Nozzle Burners
Where the mix of fuel and air combusts and expels a high velocity / high BTU flame as the thermal energy source. Common sizes for burners are 6-10 million BTU, 3-6 million BTU, and 1 million BTU. Features commonly included are separate air and gas connections, UV hook-up, spark ignitors, ample lengths of air and gas hoses.
Watch the video below for a great visual on how a gas train works!
For more information, contact Hotfol-EHS at www.hotfoilehs.com or call 609.588.0900.
New Hotfoil-EHS Catalog Available for Download
Electric Heating Systems, Inc. (EHS), established in 1994 in Robbinsville, NJ, is a designer and supplier of turnkey, permanent low temperature heating systems for the electric power and tank fabricating industries. Later, this division's name was changed to Hotfoil, and the EHS division began manufacturing ceramic mat (pad) heaters, power consoles, and accessories for the heat treating industry.
Hotfoil-EHS is now a major manufacturer and producer of standard and custom designed industrial heat treating products with an exhaustive inventory including custom control panels, heat treating power consoles, cables and splitters, temperature recorders, thermocouple attachment units and pin guns.
Hotfoil-EHS is now a major manufacturer and producer of standard and custom designed industrial heat treating products with an exhaustive inventory including custom control panels, heat treating power consoles, cables and splitters, temperature recorders, thermocouple attachment units and pin guns.
Pre and Post-weld Stress Relief with Induction Heating
Induction heating is unique because it uses molecular excitation as its source of heat, as opposed to open flames or external electric elements. Conduction heaters consist of a few primary components: An electromagnet and an electronic oscillator that passes a high-frequency alternating current (AC) through the electromagnet. RF (radio frequency) energy is transferred into the workpiece via electromagnetic waves. These alternating magnetic waves penetrate the object, creating electric eddy currents. These eddy currents (Foucault currents) flow through the target piece and produce heat. Its important to note that the heat is created from inside the object itself, with no open flame or external electric heat source.
Induction heating works very quickly, and since there is no contact with the target piece, there are far less concerns about part contamination. Many industrial processes use induction heating when very high temperatures and uniform control is desired.
Pre and post-weld heat treating (stress relieving) is a growing market for induction heating systems because it offers significant benefits such as excellent heat placement and distribution, lower cycle times, safety, ease of use, and efficiency.
Induction heaters provide temperatures and cycle times hard to achieve otherwise. By virtue of their high temperature capabilities, very fast heat up times, precise application of heat, excellent controllability, and ease of setup / breakdown, the use of induction heating has been know to cut 30% to 50% of total weld cycle time in real-life welding applications.
For more information about induction heaters for pre and post-weld heat treating contact:
Hotfoil-EHS, Inc.
2960 East State Street Ext.
Hamilton, NJ 08619
Phone # 609.588.0900
Fax # 609.588.8333
www.hotfoilehs.com
Demand Pulse Welding: A Brief History
Demand Pulse Welder |
From the 1930’s until 1990, nearly all Multiple Operator Systems were the same general layout – a big bulk power supply, with “grids” connected by means of cable to form a system of distributed power. Originally designed for use in shipyards, this system minimized the use of high voltage primary power, distributing 75-80 volts of secondary voltage instead.
Historically, the most common application of resistor controls has been in Multiple Operator Welding Systems, widely used in shipyards and heavy construction. Nearly all the Nuclear Electric Power Plants were built using Multiple Operator Systems.
Big Four Manufacturing Company of Saint Louis, Missouri, pioneered the concept of connecting Multiple Operator systems in a complete loop configuration. This LOOP concept greatly improved the voltage stability of Multiple Operator systems, because with all the power connected to a single circuit, voltage drops were reduced or eliminated due to the nature of a DC circuit. In 1977, Big 4 Manufacturing introduced their innovative and very successful Series 77 Control.
After the Three Mile Island incident and the subsequent slowing of the Nuclear Power Industry, Big 4 decided it was in their best interest to expand into the general fabricating, refinery and petro-chemical markets. Their popular soft arc was great for most welding, but was inadequate on pipe root passes with 5P, then the most common method use for oil related pipe. To provide an arc better suited for pipeline, Big 4 devised a circuit to make their resistor grid “think” it was a Lincoln generator. They called this new system “Arc Ram”. Arc Ram worked beautifully with 5P and similar electrodes and led to the design of a MIG system which they called Demand Pulse.
Not to be confused with ...
"Short-circuiting Metal Transfer" (Short Arc) welding was introduced by Linde in the late fifties for welding sheet metal. During the 1960s, short-arc became widely used, sometimes for the wrong applications. When using short-arc the wire can contact the molten weld pool resulting many times with the weld not fusing to the base metal. This is called a "cold lap". Cold lap associated with Short Arc became a reason why many welding shops won’t use “wire” welding processes on pressure welds. Unfortunately, mis-used Short Arc welding gave ALL GMAW welding on pressure welds a bad name.
Demand Pulse to the Rescue
Demand Pulse rarely extinguishes the arc. Metal transfers through the arc, and the arc’s are much shorter than those from Pulse Spray. The transfer occurs above the molten pool, so spatter doesn't explode from the puddle. It is a "constant current" process. The operator selects a base current, similar to some GMAW Pulse Spray applications, adjusts the wire feed speed to give the correct voltage, and begins to weld. Lower voltage will cause the puddle to freeze faster, higher voltage will cause the puddle to be more fluid.
In short arc, a current pulse is triggered by the short-circuit condition caused by the wire driving into the work piece. Demand Pulse forces the transfer to occur before short-circuit, at a voltage selected by the operator, above the weld pool. This has two important effects: the arc does not extinguish and the spatter level is greatly reduced because the molten tip of the wire does not contact the weld pool. Because the arc is not extinguished, cold laps are virtually eliminated.
Many reference books describe short arc as a "random pulse" method of welding. Random in the sense that the pulse is triggered as a function of wire feed speed. The faster the wire feed speed, the faster the short circuits (pulses). Demand Pulse is exactly the same, except it does not short!
This blog post was abstracted from a 2004 press release from Aftek Welders, the only remaining company providing resistor controlled welding machines, and parts supplier for all Multiple Operating Systems. You can read the full version of "AFTEK – the Best Welders you never heard of…” here.
New Video Highlighting Custom Heat Treating Power Console Examples
This new video illustrates the variations in design and custom capabilities Hotfoil-EHS has for building specialized power consoles. Special power requirements, corrosion-resistance, weather-proofing, custom paint or coatings, special control options and custom cable sets are all available from Hotfoil-EHS. Challenge them with your toughest heat treating requirement. You'll be pleasantly surprised with the response.
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