Wednesday, 24 May 2017

Comparing Induction Hardening, Case Hardening

What Is Induction Heating?

Induction hardening job workInduction Hardening relies on the existence of eddy currents discovered by Léon Foucault in 1855. Briefly, when a changing magnetic field passes through any conductive object, current flow is induced in the object. That current flow creates a secondary electric field in the conductor. The secondary electric field, in turn, produces another flow of current which is known as the eddy current, so named because it flows in a circular pattern, much like water can swirl in a slow-moving stream when it encounters an obstacle. The push-pull between these fields—literally, the kinetic energy caused by electrons being shuttled back and forth—produces heat in the conductor.

Induction Heating Applications
Induction heating is used to manufacture end items as diverse as bulldozers, spacecraft, faucets and sealing plastic lids on pharmaceutical bottles. The fundamental design of an induction heating device uses a coil of wire and an AC current to induce a changing magnetic field in the item to be heated—the work piece. The coil can measure only a few centimeters in diameter, or any other dimension suited to the job at hand.
The work piece is placed inside the magnetic field generated by the coil, but not in contact with it, then heated to the desired level by the eddy currents. Depending upon the material being heated, temperatures as high as 2,200° F (1,200° C) can be achieved.
Induction heating is clean, requiring no fossil fuels. Parts exposed to induction heating simply heat up, so there's no cleanup afterward and no worry about contamination of the work piece. It's also fast. For example, manufacturers of pipes and tubular channels use induction heating to weld a seam along the longitudinal dimension of pipes passing by at high speed on a conveyor.
A few other processes that use induction heating include:
  • ·      Induction hardening and tempering, which alters the physical characteristics of materials to meet the needs of various applications.
  • ·       Induction melting can be used to melt any ferrous or non-ferrous metal, including nuclear material and various alloys used in medicine and dentistry.
  • ·     Metal and carbon fiber materials can be bonded together by heating them, thereby curing adhesives placed between two surfaces.
  • ·     Soldering, brazing and welding are all natural applications for induction heating where precise temperature control and accurately confining heat to the desired area is important in air cooler oil cooler.
Induction Heating Solves Real Problems
Induction hardening job workThe so-called Tylenol Murders took place in Chicago during 1982 when someone, never identified, laced Tylenol bottles with cyanide. The subsequent events led to a nationwide recall of Tylenol products. The poisoning also forced the entire over-the-counter pharmaceutical industry to package their products in tamper-proof containers.
The aluminum foil that's commonly used to seal OTC drugs is part of the industry's solution, and it uses induction heating. The process begins by placing the foil, which is electrically conductive, into the cap. The cap is screwed down, and then the entire package is placed inside an induction heating coil. As the foil heats up, adhesives around its edge adhere it to the lip of the bottle.
Designers of induction cap sealing equipment must take several factors into account. The induction heater's physical dimensions need to be tailored to the containers to be sealed. The electromagnetic field needs a depth suitable for heating the foil. The heating should take place as quickly as possible for productivity reasons. The efficiency of the induction heater needs to achieve a specific performance level.
These and other design constraints can be reduced dramatically when the wire used to make the coil is custom-manufactured. New England Wire Technology, a long-time supplier to the induction heating market, provides wire specially made to solve such design problems in Induction Hardening Faridabad.
For instance, NEWT can supply round, square and rectangular conductors. Their exact size can be tailored specifically for the AC current and frequency to be used. And, because the efficiency can be optimized in the wire itself, the induction cap sealer design engineer has much greater flexibility in choosing the spacing, shape and size of the sealing head. In fact, that same flexibility benefits designers of any induction heating device.
Case Hardening

case hardening
Heat-treatment processes such as case hardening are used to prolong the service life by increasing the surface hardness and vibration resistance while maintaining a ductile, elastic microstructure at the core. Steels suitable for case hardening have a carbon content of approximately 0.1-0.3% weight percent. For a high surface hardness – for example, 60 HRC – a carbon content of 0.1-0.3% is not sufficient. The part has to be carburized.
Carburization takes place by diffusion of the carbon into the work piece surface. A mixture of carrier gas and additive gas forms the basis for the carburization atmosphere in the furnace. Crucial factors for the right choice of the carburization process are the material-specific parameters, hardening demands in conjunction with the gas composition and a continuous, homogeneous furnace atmosphere.
Hardening is achieved by heating to austenitizing temperature with a sufficiently long holding time and subsequent quenching process. What is crucial here is that the carbon in the austenite is brought into solution. The amount of carbon is dependent on the material composition and the state of the initial microstructure. Excessive holding times or excessive temperatures during the austenitizing process can have a negative impact on the grain growth and material microstructure.
The hardening process can be followed by a low-temperature cooling process or direct tempering process. Both processes result in a reduction of the residual austenite and of the hardness and distortion properties.
Tempering is performed in different temperature ranges. The tempering temperature of parts made of low-alloy or unalloyed steels generally lie between 180-250°C (356-482°F). A higher temperature leads to a greater drop in hardness.

Sunday, 7 May 2017

Induction Heating | Induction Furnace

The Induction hardening faridabad works on the electrical device principle. It’s additionally referred to as eddy current heating. The currents square measure elicited by the principle of magnetic attraction induction. The heating is also low frequency as within the case of core sort induction chamber or high frequency because the case with coreless induction furnaces.  The example of indirect heating is that the indirect induction kitchen appliance that is most popular over resistance kitchen appliance attributable to its fine temperature management. It’s used for a similar purpose because the resistance kitchen appliance. Moreover, within the indirect heating methodology the eddy current square measure elicited within the heating parts by magnetic attraction induction that produces heat in heating parts. The warmth so made is transferred to the body to be heated by radiation.

Types of heating
  •  Direct heating
  •  Indirect heating
  •  Direct heating
In direct heating, the eddy currents square measure made among the fabric itself that's to be heated. The samples of direct heating square measure the high-frequency eddy current heating used for case hardening or tempering of varied machine elements, tempering of steel strip and fastening. Core less Induction hardening job work used for making ready varied best steels additionally work on a similar principle.

Induction hardening faridabad
Induction Furnaces
There square measure primarily 2 forms of induction furnaces
  • Core sort induction chamber
  • Core less induction chamber
  • Core sort Induction chamber

Core sort induction chamber is basically a electrical device with the charge of metal to be heated as single flip short circuited secondary and magnetically coupled to the first winding by the iron core.

This flowing through the charge is incredibly high is also of the order of many thousand amperes. From the figure, it's clear that the coupling is loose and leak electrical phenomenon is high thus the facility issue is low. To beat this issue, core sort induction chamber is operated at a really low frequency say ten Hertz. The most disadvantages is that magnetic attraction forces manufacture nice turbulence of the liquefied metal that is beneficial to an exact purpose, however it becomes too severe unless the frequency is unbroken low. Another disadvantage of this chamber is that a melting pot is of inconvenient form from the scientific discipline purpose of read. At the time of beginning, an entire ring of metal should be gift the melting pot otherwise, the secondary circuit can stay open and warmth won't be made. one more disadvantage is that it needs low frequency (10 Hz) provide which needs frequency changer, that involves further value. On account of the on top of drawbacks mentioned on top of core sort induction furnaces are obsolete today.

Ajax Wyatt Vertical Core chamber
An improved type of core sort Induction hardening job work is mythical being Wyatt vertical core sort chamber. This chamber is incredibly appropriate for continuous operation and it is operated on traditional provide frequency i.e. 50 Hz. The core is formed of laminated steel and also the secondary circuit is created by the only flip of liquefied metal. The charge is given from on top of and also the liquefied metal is taken out through the spout. The stirring action is made by the pinch result that is proportional to the sq. of amp-turns. The secondary circuit is merely complete once there's decent liquefied metal within the 'V' to finish the secondary circuit. Just in case the mythical being Wyatt vertical core sort chamber is to be unbroken long while not operation, a reduced voltage is applied that provides only enough energy to stay the metal in ‘V’ within the liquefied state.
Induction hardening faridabad

Uses of mythical being Wyatt Vertical Core chamber
Therefore, mythical being Wyatt vertical core chamber is incredibly appropriate for continuous operation. a correct arrangement is formed for fitting the chamber to require out liquefied metal. The facility issue of the circuit is regarding zero.8 and also the power needed for the chamber so as to finish soften in an exceedingly affordable time is regarding two hundred kW per ton. The soften is completed in regarding one to a pair of hours for giant sizes and in lesser time for smaller sizes.

 mythical being Wyatt Vertical Core chamber is employed for melting and processing of non-ferrous metal like brass, copper and Zn. Its potency is regarding seventy five %. Customary sizes of those furnaces square measure sixty — three hundred kW, single section fifty Hertz acting at 600 volts.

Advantages of mythical being Wyatt Vertical Core chamber
  • Control is straightforward.
  • An ideal operating condition within the cool atmosphere with no dirt, noise or smoke.
  • High power issue zero.8 to 0.85 relatively
  • The absence of melting pot.
  • Uniform stirring of charge provides the solid composition.