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The Book of Terms

The Book of TermsThe WJI Book of Wire & Cable Terms: an interactive experience of learning and sharing
This book, written by industry volunteers and containing more than 5,000 entries, is an asset for newcomers to wire and cable.

At the same time, it also represents an opportunity for industry veterans to give back by either updating or adding to the more than 5,000 entries. This is an honor system process. Entries/updates must be non-commercial, and any deemed not to be so will be removed. Share your expertise as part of this legacy project to help those who will follow. Purchase a printed copy here.


 

0-9   A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

Indoor

When used as a product rating, not suitable for exposure to the weather.

Induced Current

See Current, Induced.

Induced Voltage

See Voltage, Induced.

Inductance

The property of a circuit or circuit element that opposes a change in current flow, causing current changes to lag behind voltage changes. It is measured in Henrys.

Induction

The phenomenon of a voltage, magnetic field, or electrostatic charge being produced in an object by lines of force from the source of such fields.

Induction Annealer

Annealing device where the heat is supplied by electrical induction. See Annealing.

Induction Hardening

Hardening where the heat is supplied by electrical induction. See Hardening.

Induction Heater

A furnace where heat is generated in a conducting material by a varying electromagnetic field due to the materials internal losses.

Induction Heating

A process of heating by electrical induction. Heat is generated within an electrically conductive body placed in alternative electromagnetic field by means of eddy currents (due to Joule losses) as well as due to hysteresis losses (in the case of heating a magnetic body). With induction heating there is no contact between induction coil and heated body as the electromagnetic field is generated by an induction coil that is placed in close proximity to a heated body. The depth to which the currents penetrate, called penetration depth, is dependent on the frequency of the magnetic field as well as the electrical resistivity and magnetic permeability of the heated material. The frequency of the electrical supply must be chosen to suit not only the application but also the product material and its size and form.

Induction Machine

An asynchronous AC machine to change phase or frequency by converting energy from electrical to mechanical, then from mechanical to electrical.

Induction Tempering and Stress Relieving

The transformation to martensite through heating and quenching of carbon steel wires creates a very hard and brittle structure of as-quenched martensite that is typically too brittle for commercial use. Reheating of the metal for tempering or stress relieving after hardening decreases or relaxes residual stresses and produces a ductile structure of tempered martensite. Time and temperature are two of the most critical parameters in tempering. Induction tempering differs from conventional way of furnace tempering (i.e., using gas-fired, infra-red or direct resistance furnaces) being a short-time/higher temperature process in comparison to longer-time/lower-temperature conventional tempering.

Induction, Electromagnetic

According to Faraday’s law of electromagnetic induction, a time-varying magnetic field produces a corresponding electric field that is proportional to the time rate of change of the magnetic flux. In other words, alternating voltage applied to induction coil will result in the appearance of an alternating current in the coil circuit, which in turn, will produce in its surrounding area an alternating (changing) magnetic field that will have the same frequency as the coil current. The changing magnetic field induces eddy currents in the metal wire or cable that passes through induction coil. Induced eddy currents have the same frequency as coil current; however, their direction is opposite that of the coil current.

Induction-Through Hardening

Heating surface layers of the work piece at the depth where required microstructural changes are required using an ability of induction heating (due to selected frequency) to induce power within the certain depth (see skin effect). Thus will provide a martensitic layer on the surface areas of the work piece to increase the hardness, wear resistance and other parameters while allowing the remainder of the part to be unaffected by the process.

Inductive Coupling

Crosstalk resulting from the action of the electromagnetic field of one conductor or the other.

Inductive Reactance

See Reactance.

Inductor

A device having winding(s) with or without a magnetic core for creating inductance in a circuit.

Inertia Compensation Signal

An electrical signal proportional to the rate of acceleration or deceleration on a roll winding line. It is fed into a current regulator to produce an exact current needed to accelerate or decelerate the roll with constant sheet tension.

Infrared

The range of electromagnetic wavelengths between the visible part of the spectrum (750 nm) and microwaves (30 µm).

Infrared Radiation

Radiant energy within the wavelength range 780 to 105 nm. It is invisible energy given off by heated bodies, which transmits heat and will pass through glass.

Infrastructure, Telecommunications

A collection of those telecommunications components, excluding equipment, that together provides the basic support for the distribution of all information within a building or campus.

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