CS264713B1 - Preparation for exploring solder and flux plameAom flux - Google Patents

Abstract

The preparation is intended to unify the physical conditions of testing the spreadability of solder, or flux and solder on the selected base material in a flame, and the conditions of real use in production practice. The spreadability test is intended to ensure high reproducibility of flame solderability quality. The essence of the product consists in using the heat of a hand-held flame torch, which is positioned on a common stand, which also carries a multi-place arm with beds for inserting a test sample of the base material in a shape for testing the spreadability of the solder, on which the test solder, or flux and solder, lies. The manual flame torch is equipped with an adjustable stop of the extreme position, and the distance of the axis of its nozzle from the stand is the same as the distance of the center of gravity of the sample surface of the test base material, which lies on non-heat absorbing beds.

Description

FIELD OF THE INVENTION The present invention relates to a composition for testing solder flow and flux through flame.

Hitherto known means for testing the flowability of solder, or flux and solder, have relied on heat sources on the principle of electric current in a resistive spiral. In practice, several types of electric resistance furnaces have been used. Testing of solder or flux and solder flow on the selected type of base material was done by placing the test sample on a warm, electric resistive oven preheated block of stainless material, closing the furnace and after equilibrating the temperatures and reaching a temperature level of 50 ° C above the liquidus temperature of the test solder, the sample was left in the oven for 2 minutes, then removed and allowed to cool in air. A visual approach is always required in order to control the timing of the actual start of melting of the solder and to control the course and the manner of its spreading. The test in the enclosure of a furnace equipped with a viewing window has always been imperfect for the defined purpose. Said pre-heated block of non-corrosive material, as well as the surroundings in the furnace, transferred the heat to the test sample with a long lead-in, with a mSk characteristic. This part of the test does not suit the newer solders, designed to a higher temperature gradient, capable of responding rapidly to a rapid temperature rise, and thus not meeting higher productivity. The solder flow test in the electric resistance furnace was not capable of objectively evaluating the test materials through its physical conditions and the measured results. The test was not able to utilize the full range of properties, especially the new types of solders, thereby depreciating them.

Newer technological applications have evaluated and expanded the use of flame heat, both in automatic production lines by soldering, and in individual and small-series work with a manual gas burner. The non-applicability and physical inconsistency of the test using the original products and devices based on the heating of the electric furnace against the conditions and the product based on the heating of the flame of the gas burner has been confirmed in production practice and has been verified by research.

The essence of the flame retardant solder or flux and solder test means is that a hand-held flame torch is mounted on the stand on the slide bar attached to the carrier arm with an extreme position on the stop, inverted by the nozzle outlet to the test material. At the same time, a multi-seated arm is mounted on the rack by means of the adjusting sleeve to accommodate a test sample of solder or flux and solder flowability, the distance between the nozzle axis and center of gravity of the bearing area defined by the beds on the multi-arm is the same.

In particular, the advantage of the conoepoie and the arrangement of the individual parts of the preparation for testing the flowability of the solder, or the flux and the solder by flame, is that the preparation creates the basic conditions of physical unity between the means of test and practical use. These include heat of flame, high gradient of temperature rise, work in free space in normal atmosphere, possibility of immediate effect of heat and its immediate stopping without any thermal inertia of heat sources, possibility of qualified and immediate visual observation of the test process, possibility of applying higher values of test parameters and accurate reproduction tests.

In the drawing, FIG. 1 shows an exemplary embodiment of a kit assembly of a plurality of types of jigs on a common rack in order to more readily apply wider flame solderability tests; and FIG. 2, the flow test device itself is shown in more detail.

The stand-by assembly (Fig. 1) for the complex solderability tests consists of the individual preparations - solder flow and flux melting agent 28, flame technological solder test 29, flame shear test specimen 30, and each one of which is in function with a common heat source 31 in a conversion from a hand-held flame burner, hung together on a stand J.

The solder flow and flux test fixture (Fig. 2) consists of a stand 1 on which a heat source is suspended, a hand flame torch 2- on the carrier arm 6, in a grip on the adjusting rod 7, with stop 2 and adjusting sleeve 27 positioning the burner 8 and the nozzle 10 in operative position, above which is disposed said adjustment multisite arm 4, the reset sleeve 27, p ^re test the spreading, provided with small-scale, the heat neodoberajúcimi the bed 12 ^'to which the horizontal imposing a sample of the test of the base material 18, wherein the center of gravity The surface of the test sample is a loose laid solder 25, or flux and solder.

The flow test of solder 25 'or flux and solder on a selected sample of test base material 18 by flame is carried out in a fixture that defines a heat source as a manual flame burner 2 »with detent 2' which allows immediate positioning of the nozzle 10 to the sample base. material 18 with test solder 25 'or flux and solder, preferably an instantaneous start of heat input, an instantaneous start of a high temperature gradient, with the possibility of immediate shutdown of heat propagation, a sample of test base material 18 being supported on beds 19 disposed in position and are of a flame-retardant material, such as stainless steel, of dimensions and shapes which ensure good reproducibility of the position and physical heating conditions of the test sample. The device enables qualified visual observation of the test process, its course and determination of the stopping time of the test together with the measurement of the control time of the test.

The design of the formulation of the present invention allows testing of solder and flux flowability under uniform physical heat-flame heating conditions both in the test and in manufacturing practice.

The invention is applicable to flux and solder manufacturers, Salia for conventional industrial customers, soldering parts manufacturing, research and development, and the control of filler material properties. It is also suitable as a training device in schools of all levels, especially with metallurgical but also technological focus. The product also enables comparative tests with foreign products. It has high application in the development of new types of materials, in the determination of optimal soldering conditions for manufacturing and shop-defined cases of common industrial practice.

Claims (1)

3 264713 The flame spreading agent (Fig. 2) consists of standing 1 on which a heat source is suspended, a hand flame burner j), on a support arm 6, in a grip on the adjusting rod 7, with the stopper 2 and the adjusting sleeve 27 of the extreme positioning of the burner 8 and the nozzle 10 in the operative position, above which is positioned a multi-sided arm with an adjusting sleeve 27, for the flowability test provided with small-sized, non-heat-absorbing bars 29 on which the sample is placed the test base material 18, wherein the solder 13 is laid loose in the center of gravity of the test piece, or flux and solder. The leakage test of solder 13, or flux and solder, on a selected sample of test base material 18 with a flame is performed in a fixture that defines a heat source as a hand flame burner 2, with a stopper 2 feature that allows the correct positioning of the die 10 to be set to the test base sample. a material 18 with a test solder 13, or a flux solder, preferably an instantaneous heat treatment, with an instantaneous rise in high temperature temperature, with the possibility of immediate shutdown of heat, wherein a sample of test bed 18 is placed on the beds 19 which are disposed in a position away from the principal heat effect of the flame, and are of a flame retardant material, for example of stainless steel, dimensions and shapes that provide good position reproducibility and physical conditions of the test specimen heating. The formulation allows for qualified visual observation of the test process, its course, and the determination of the test stopping time, along with the measurement of run time. The construction of the device according to the invention allows the testing of solder melting at a uniform temperature in the heat of a flame, both in the test and in the manufacturing process. The invention is applicable to manufacturers of fluxes and solders, Salla in conventional industrial customers, in brazing plants, in research and development, in the control of additive materials. It is also suitable as a training device at schools of all levels, especially metallurgical, but also with a technological focus. The formulation also makes it possible to perform comparative tests with foreign products. It is of high use in the development of new types of materials, in determining optimal soldering conditions for manufacturing and workshop-defined cases of common industrial practice. OBJECTS OF THE INVENTION A flame-spreading agent for solder and flux, characterized in that a flame torch (9) is attached to the slide on the slide bar (7) attached to the support arm (6) with the stopper (9) positioned at an extreme position. 8) with a nozzle (10), on the stand (1), a multi-seat arm (4) with seats (19) for securing the test specimen of the base material (18) in the form of a solder fitting test specimen with a test solder (13), or a flux and a solder, wherein the distance of the axis of the nozzle (10) and the center of gravity of the bearing surface defined by the bars (19) on the multi-leg arm (4) is the same from the stand (1). 2 drawings