RO110367B1 - Polymeric, solid materials anti oxidation stability measuring apparatus - Google Patents

Abstract

Apparatus for determination antioxidant stability, polymeric materials, solid in both non-isothermic and regimen regimens isothermal, is based on the measurement of emissions of oxyluminescence, occurring during thermal treatment of the samples. The apparatus according to the invention converts oxiluminescence emission, a of a heat-treated polymer sample (1) in electrical signals that are integrated into a integrator with constant time, switchable, resulting voltage being amplified by a electronic amplifier (7) and converted to digital information, a voltage converter - frequency (9), a sequential circuit (10) driven by a quartz watch (12), and a block of counting-display, display in relative units, while displaying actual measurement time, the temperature of the sample as well as the supply information necessary for data processing, with a potentiometer recorder. before or during heat treatment, the polymer sample can be settled with an effluent gas whose flow rate can be adjusted with by means of a tap (13), and can be measured with using a rotameter.

Description

The invention relates to an apparatus for determining the antioxidative stability of polymeric, solid materials, both in the non-isothermal regime and in the isothermal regime, by measuring the oxyluminescence emissions that occur during the heat treatment of the samples.

Oxy-luminescence emissions are known to be dependent on the thermal gradient, the rate of heating, the nature of the polymer and its antioxidative capacity.

It is known that oxy-luminescence is an emission of luminous amounts, in the field of visibility of the spectrum, which accompanies the oxidation of polymers during their isothermal heating, but also in the case of non-isothermal heating, if the heating rate is appreciable.

There is known (US 4350495) a method and apparatus for determining the stability of polymers by chemiluminescence, the apparatus comprising a dark chamber a support for the polymer sample, means for moving the support to / from the room, means for heating the sample in the room, means for measuring the intensity of light emitted by the polymer, consisting of a photomultiplier that can be moved to measure the intensity of the light emitted by the polymer and some test cells, connected to a computer.

The devices known so far, used to determine the entoxic oxidative stability of solid polymeric materials, have the disadvantage that they do not allow the measurement of isothermal and non-isothermal regime, are not synchronous with the real time and do not ensure automatic operation.

The technical problem solved by the present invention relates to the manufacture of an apparatus that allows the measurement of the oxy-luminescence emission that occurs when heating polymeric materials in a non-isothermal and isothermal regime.

The apparatus for determining the antioxidative stability of the solid polymeric materials, according to the invention, removes the disadvantages shown above by measuring samples of solid polymers in the neizothermal and isothermal regime, synchronizing with the real time of determination, operating in automatic mode and ensuring the optimization of the time constant. , purpose for which the polymer sample is heat treated for a programmed time, within which the oxy-luminescence emission is converted by a photoelectric transducer into electrical signals, which are integrated into an integrator, with a commutable time constant, the resulting voltage being then amplified with an electrometry amplifier and converted to digital information with display in relative units, concomitant with the display of the real time of measuring the temperature of the sample and with the provision of the information necessary to process the data with a recorder potentiometer.

The apparatus for determining the antioxidative stability of solid polymeric materials, according to the invention, has the following advantages:

- contains all the utilities needed to measure the oxy-luminescence emissions of solid polymer samples;

- it is convenient to carry out measurements and can be operated automatically, programmed;

- ensures the possibility of choosing an optimized time constant between 1 and 10 s;

- ensures the digital display of the oxy-luminescence information and the real time, and analog of the temperature at which the polymer sample is processed,

- allows the regulation and measurement of the effluent gas flow;

- ensures the possibility of effluent gas puffing of the solid polymer sample, without its thermal treatment;

- ensures the photomultiplier's protection by means of a manual mechanical shutter.

The following describes an embodiment of the invention, in connection with the figure, which represents the block diagram of the apparatus.

A sample of solid polymer 1, rapidly heated to the non-isothermal and timed isothermically with a thermostat 2, emits light amounts that travel through a light-guide filter 3 and through a shutter 4 reach the photocathode of a photomultiplier 5 which, being fed from a generator stabilized by high voltage 6, it converts light signals into electrical signals, these are integrated in an integrator with a commutable time constant and amplified with an electrometry amplifier 7, provided with a current amplifier for actuating a recording potentiometer 8, and at the same time they are converted ui digital signals with a voltage-frequency converter 9, whereby, through a sequential circuit 10, they are applied to the input of a counting-display block 11, synchronized by an electronic clock with quartz 12, which also realizes the real time display. The sequential block 10 contains a clock that ensures the synchronization of the display controls and the selection of the time sequence, a block for establishing the integration time constant and a floor for generating the RESET signals. The synchronization of the measurement cycles can be performed at commutable time intervals between 1 and 10 s.

Before or during heat treatment, the polymer sample can be flushed with a gas whose flow is adjusted with a tap 13 and measured with a rotameter 14.

Claims (4)

claims 1. Apparatus for determining the antioxidative stability of the polymeric, solid materials, comprising a means of thermostatically electric heating of the polymer sample and a photomultiplier for measuring the intensity of the light emitted, characterized in that, for the determination of the oxy-luminescence information, it is equipped with a thermostat (2), which performs the non-isothermal or isothermal heating of the polymer sample (1), this information, through a light guide filter (3) and a mechanical shutter (4), is converted, by a photomultiplier (5) fed by to a high voltage stabilized generator (6), to electrical signals, these being integrated and amplified with an electrometry amplifier (7) and converted into digital signals with a voltage-frequency converter (9) and displayed by a counting-display block (11), which is controlled by a sequential circuit (10) and synchronized by an electronic quartz clock (12) which provides and real time display. 2. Apparatus according to claim 1, characterized in that for ensuring the oxidation conditions in the presence of different gases (or gas mixtures) it is provided with an adduction circuit in the photometric enclosure and gas outlet, equipped with a tap (13) and a rotameter (14). Apparatus according to claims 1 and 2, characterized in that the measuring cycles are synchronized with a quartz clock, so that the oxy-luminescence information can be processed with a time constant commutable between 1 and 10 seconds. 4. Apparatus according to claims 1 ... 4, characterized in that it provides non-isothermal measurement of the polymer samples during the sample heating and isothermal during the programmed time.