Hydraulic tilting Crucible Furnaces are one type of small-capacity furnace used as a holding furnace. The metal is initially placed in a graphite crucible with a circular furnace, which is then heated with ingots and scrap to raise the temperature. These furnaces are available in a variety of sizes. These furnaces are also among the most versatile and have a lot to offer. If you choose us as the manufacturer of your hydraulic tilting Crucible Furnace, you will benefit from the underlying qualities.
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Aluminium Melting / Holding Furnace (Sklener Fumace) This melting and holding furnace is designed for continuous operation and is suitable for aluminium die casting aluminium casting industries
Fuel Used - L.D.O./ F.O./ Producer Gas/ Coal Gas / Natural Gas Fuel Consumption-75 to 90 Liter, / Ton of F.O. Capacity 300 Kg to 30 Tons.
No Hard Oxidation Material, the temperature in the holding chambers is kept at about 50 c higher than that of molten metal. This minimizes possibility of formation of hard oxidation of material caused by over temperature condition.
Low Energy Cost
Long Heater Life
Low Maintenance cost & small space utilization Superb working condition
A tilting type Rotary Furnace (TTRF or TRF) is in fact an ‘inclined rotating well’ which associates the benefits of Rotary Furnaces, reverberatory furnaces and dry-hearth furnaces in a single machine. In fact, the concept of these furnaces has been around for a long time and was used before the Second World War in the copper industry. However, the technology of the time was not able to extract the full benefit from this simple but ingenious design. Today, with advances in mechanical engineering, hydraulics, refractories and particularly process control, the advantages: concept can reveal all its Eliminating or greatly diminishing the need for salt and/or
* fluxin the melt process
* Improving working conditions for furnacemen
* Melting a wide range of feedstock
* Diminishing or eliminating metal pollution' by trace elements in the charge (by free iron for example)
* Facilitating charge mixing and homogeneity
* Promoting lining 'self cleaning
* Offering low energy consumption and high thermal yields
* Ensuring faster melt rates: 2 to 3 times higher than traditional fumaces