Test 4: Dimensions of Enameled Winding Wires

    For definitions, general notes on methods of test and the complete series of methods of test for winding wires, see IEC 60851-1.

    Round and rectangular wire

    The equipment used shall have a precision better than 2 µm. If a micrometer, which contacts the wire, is used, it shall be ensured that the measuring force is in the range as given in table 1 . The diameter range of the spindle and the anvil is also given in table 1.

    1 Scope

    This part of IEC 60851 specifies the following method of test:

    Test 4: Dimensions.

    For definitions, general notes on methods of test and the complete series of methods of test for winding wires, see IEC 60851-1.

    2 Normative references

    The following referenced documents are indispensable for the application of this document.
    For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.

    IEC 60851-1, Winding wires – Test methods – Part 1: General

    IEC 60851-5:2008, Winding wires – Test methods – Part 5: Electrical properties

    3.1 Equipment

    Round and rectangular wire

    The equipment used shall have a precision better than 2 µm. If a micrometer, which contacts the wire, is used, it shall be ensured that the measuring force is in the range as given in table 1 . The diameter range of the spindle and the anvil is also given in table 1 .

    3.1.2 Bunched wire

    The measurement shall be made with a polished conical mandrel having dimensions.

    3.2 Procedure

    3.2.1 Conductor dimension

    3.2.1.1 Round wire

    NOTE – See table 2.

    3.2.1.1.1 Nominal conductor diameter over 0,063 mm and up to and including 0,200 mm. From a straight piece of wire the insulation shall be removed at three places, 1 m apart, by any method that does not damage the conductor. One measurement shall be made at these three places. The three single values shall be reported. The mean value represents the conductor diameter.

    3.2.1.1.2 Nominal conductor diameter over 0,200 mm. From a straight piece of wire, the insulation shall be removed by any method that does not damage the conductor. Three measurements of the bare conductor diameter shall be made at points evenly distributed around the circumference of the conductor. The three single values shall be reported. The mean value represents the conductor diameter.

    3.2.1.2 Rectangular wire

    The insulation shall be removed at the three places used for measurements in 3.2.5.2 by any

    method that does not damage the conductor. At each place one measurement of the two

    dimensions of the conductor shall be made.

    The three single values shall be reported for each dimension of the conductor. The mean

    represents the conductor width or the conductor thickness respectively.

    3.2.2 Out-of-roundness of the conductor

    Out-of-roundness is the maximum value of the difference between any two readings of the conductor diameter at each cross-section. The measurement shall be made in accordance with 3.2.1 .1 .

    The out-of-roundness shall be reported.

    3.2.3 Rounding of corners of rectangular wire

    For the purpose of this test, a cross-section of the wire shall be prepared and then examined under a sufficient magnification.

    Three straight pieces of wire shall be cast in a suitable resinous compound, that will not affect the insulation. After curing, the colour of the resinous compound shall contrast with the colour of the insulation.

    The specimen consisting of the three pieces of wire embedded in the cured resinous compound shall be cut at right angles to the length of the wire pieces and the cross-section shall be carefully ground and polished by suitable means. The polished surface shall be examined under a magnification which allows a correct judgement of the rounding of corners.

    It shall be reported how the arc merges into the flat surface of the conductor. Any sharp, rough and projecting edges shall also be reported.

    3.2.4 Increase in dimension due to the insulation

    The increase in dimension due to the insulation is the difference between the overall dimension and the conductor dimension.

    3.2.4.1 Round wire

    The measurement shall be made in accordance with 3.2.1 .1 and 3.2.5.1 . The difference between the overall diameter and the conductor diameter shall be reported as increase in diameter.

    3.2.4.2 Rectangular wire

    The measurement shall be made in accordance with 3.2.1 .2 and 3.2.5.2. The difference between the overall width and the conductor width shall be reported as the increase in width. The difference between the overall thickness and the conductor thickness shall be reported as increase in thickness.

    3.2.5 Overall dimension

    3.2.5.1 Round wire

    3.2.5.1.1 Nominal diameter up to and including 0,200 mm. On a straight piece of wire, at three places 1 m apart, one measurement of the overall diameter shall be made. The three single values shall be reported. The mean value represents the overall diameter.

    3.2.5.1.2 Nominal conductor diameter over 0,200 mm. On a straight piece of wire, at each of two places 1 m apart, three measurements of the overall diameter shall be made at points evenly distributed around the circumference of the wire.

    The six single values shall be reported. The mean value represents the overall diameter.

    For determination of the conductor diameter as given in the relevant standards, the following applies:

    Table 2 – Determination of the conductor diameter

    3.2.5.2 Rectangular wire

    On a straight piece of wire at each of three places at least 1 00 mm apart, one measurement shall be made of the two dimensions of the wire. Where the dimension of the specimen is greater than the diameter of the micrometer spindle, measurements shall be made both at the centre of the face of the specimen and over the edges. If these values differ, only the highest value shall be noted.

    The three single values shall be reported for each dimension of the wire. The mean values represent the overall width or the overall thickness respectively.

    3.2.5.3 Bunched wire

    NOTE – The method indicated below gives useful values in practice, but not an accurate overall diameter. The overall diameter is the width of a layer wound on a mandrel divided by the number of turns. The bunched wire shall be wound closely on a mandrel according to figure 1 and under a tension in newtons, which is 65 times the total nominal cross-section of the conductors in square millimetres. The width of the layer shall be not less than 1 0 mm for bunched wires with overall
    diameters up to and including 0,5 mm, and be not less than 20 mm for larger diameters and shall be measured with a precision of 0,5 mm.

    One measurement shall be made. The overall diameter rounded off to 0,01 mm shall be reported.

    3.2.6 Increase in diameter due to the bonding layer of enamelled round wire

    The increase in diameter due to the bonding layer is the difference of the overall diameter with and without the bonding layer.

    The overall diameter of the wire shall be measured according to 3.2.5.1 . After removal of the bonding layer by means of a solvent or any other suitable agent or by any other method which
    does not damage the underlying coating, the measurement shall be repeated. The difference of the two mean values shall be reported as the increase in diameter due to the bonding layer.