Plastics - Injection moulding of test specimens of thermoplastic materials - Part 1: General principles, and moulding of multipurpose and bar test specimens (ISO 294-1:1996)

Contains the general principles to be followed for the preparation of injection moulding test specimens of thermoplastics and gives details of mould design for preparing multipurpose test specimens as specified in ISO 3167 and tensile bars. Replaces the second edition of ISO 294.

Kunststoffe - Spritzgießen von Probekörpern aus Thermoplasten - Teil 1: Allgemeine Grundlagen und Herstellung von Vielzweckprobekörpern und Stäben (ISO 294-1:1996)

Dieser Teil von ISO 294 legt die allgemeinen Grundlagen fest, die beim Spritzgießen von Probekörpern aus Thermoplasten befolgt werden sollen, und beschreibt Einzelheiten der Werkzeug-Gestaltung für die Herstellung von zwei Probekörper-Typen für die Bestimmungen von Bezugs-Kennwerten, d.h. für Vielzweckprobekörper gemäß ISO 3167 und Stäbe 80 mm x 10 mm x 4 mm. Er stellt eine Grundlage dar zur Einführung reproduzierbarer Spritzgieß-Bedingungen.

Plastiques - Moulage par injection des éprouvettes de matériaux thermoplastiques - Partie 1: Principes généraux, et moulage des éprouvettes a usages multiples et des barreaux (ISO 294-1:1996)

Polimerni materiali - Vbrizgavanje plastomernih preskušancev - 1. del: Splošna načela in oblikovanje večnamenskih in paličastih preskušancev (ISO 294-1:1996)

General Information

Status
Withdrawn
Publication Date
30-Apr-2000
Withdrawal Date
15-Jun-2017
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
15-Jun-2017
Due Date
08-Jul-2017
Completion Date
16-Jun-2017

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2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Kunststoffe - Spritzgießen von Probekörpern aus Thermoplasten - Teil 1: Allgemeine Grundlagen und Herstellung von Vielzweckprobekörpern und Stäben (ISO 294-1:1996)Plastiques - Moulage par injection des éprouvettes de matériaux thermoplastiques - Partie 1: Principes généraux, et moulage des éprouvettes a usages multiples et des barreaux (ISO 294-1:1996)Plastics - Injection moulding of test specimens of thermoplastic materials - Part 1: General principles, and moulding of multipurpose and bar test specimens (ISO 294-1:1996)83.080.20PlastomeriThermoplastic materialsICS:Ta slovenski standard je istoveten z:EN ISO 294-1:1998SIST EN ISO 294-1:2000en01-maj-2000SIST EN ISO 294-1:2000SLOVENSKI
STANDARD



SIST EN ISO 294-1:2000



SIST EN ISO 294-1:2000



SIST EN ISO 294-1:2000



SIST EN ISO 294-1:2000



SIST EN ISO 294-1:2000



INTERNATIONAL STANDARD IS0 294-l First edition 1996-l 2-15 Plastics - Injection moulding of test specimens of thermoplastic materials - Part 1: General principles, and moulding of multipurpose and bar test specimens P/as tiques - Moulage par injection des gprouvettes de matkriaux thermoplastiques - Partie 7: Principes g6n6raux, et moulage des Gprouvettes 2 usages multiples et des barreaux Reference number IS0 294-l :I 996(E) SIST EN ISO 294-1:2000



IS0 294-1:1996(E) Foreword IS0 (the International Organization for Standardization) is a worldwide federation of national standards bodies (IS0 member bodies). The work of preparing International Standards is normally carried out through IS0 technical committees. Each member body interested in a subject for which a technical committee has been established has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with ISO, also take part in the work. IS0 collaborates closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization. Draft International Standards adopted by the technical committees are circulated to the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote. International Standard IS0 294-1 was prepared by Technical Committee lSO/TC 61, Plastics, Subcommittee SC 9, Thermoplastic materials. Together with the other parts, this part of IS0 294 cancels and replaces the second edition of IS0 294 (IS0 294:1995) which has been revised to improve the definition of the injection-moulding parameters and has been restructured to specify four types of IS0 mould for the production of the basic specimen types required for the acquisition of comparable test data. Care has been taken to ensure that the IS0 moulds described can all be fitted in existing injection-moulding equipment and have interchangeable cavity plates. IS0 294 consists of the following parts, under the general title Plastics - Injection moulding of test specimens of thermoplastic materials: - Part I: General principles, and moulding of multipurpose and bar test spectmens - Part 2: Small tensile bars - Part 3: Small plates Part 4: Determination of moulding shrinkage Annexes A to C of this part of IS0 294 are for information only. 0 IS0 1996 All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm, without permission In writing from the publisher” International Organization for Standardization Case Postale 56 l CH-1211 Geneve 20 l Switzerland Printed in Switzerland ii SIST EN ISO 294-1:2000



@ IS0 IS0 294=1:1996(E) Introduction Many factors in the injection-moulding process may influence the properties of moulded test specimens and hence the measured values obtained when the specimens are used in a test method. The mechanical properties of such specimens are in fact strongly dependent on the conditions of the moulding process used to prepare the specimens. Exact definition of each of the main parameters of the moulding process is a basic requirement for reproducible and comparable operating conditions. It is important in defining moulding conditions to consider any influence the conditions may have on the properties to be determined . Thermoplastics may show differences in molecular orientation (important mainly with amorphous polymers), in crystallization morphology (for crystalline and semicrystalline polymers), in phase morphology (for heterogeneous thermoplastics) as well as in the orientation of anisotropic fillers such as short fibres. Residual (“frozen-in”) stresses in the moulded test specimens and thermal degradation of the polymer during moulding may also influence properties. Each of these phenomena must be controlled to avoid fluctuation of the numerical values of the properties measured. . . . III SIST EN ISO 294-1:2000



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INTERNATIONAL STANDARD @ IS0 IS0 294-1:1996(E) Plastics - Injection moulding of test specimens of thermoplastic materials - Part 1: General principles, and moulding of multipurpose and bar test specimens II Scope This part of IS0 294 specifies the general principles to be followed when injection moulding test specimens of thermoplastic materials and gives details of mould designs for preparing two types of specimen for use in acquiring reference data, i.e. multipurpose test specimens as specified in IS0 3167 and 80 mm x 10 mm x 4 mm bars. It provides a basis for establishing reproducible moulding conditions. Its purpose is to promote uniformity in describing the main parameters of the moulding process and also to establish uniform practice in reporting moulding conditions. The particular conditions required for the reproducible preparation of test specimens which will give comparable results will vary for each material used. These conditions are given in the International Standard for the relevant material or are to be agreed upon between the interested parties. NOTE - IS0 round-robin tests with act-ylonitrile/butadiene/styrene (ABS), styrene/butadiene (SB) and poly(methyl methacrylate) (PMMA) have shown that mould design is an important factor in the reproducible preparation of test specimens. 2 Normative references The following standards contain provisions which, through reference in this text, constitute provisions of this part of IS0 294. At the time of publication, the editions indicated were valid. All standards are subject to revision, and parties to agreements based on this part of IS0 294 are encouraged to investigate the possibility of applying the most recent editions of the standards indicated below. Members of IEC and IS0 maintain registers of currently valid International Standards. IS0 179: 1993, Plastics - Determination of Charpy impact strength. IS0 294-2: 1996, Plastics - Injection mouiding of test specimens of thermoplastic materials - Part 2: Small tensile bars. IS0 294-3: 1996, Plastics - Injection moulding of test specimens of thermoplastic materials - Part 3: Small plates. I SO 294-4:- I ), P/as tics - injection moulding of test specimens of thermoplastic materials - Part 4: Determi- nation of moulding shrinkage. 1) To be published. (Revision in part of IS0 294:1995) 1 SIST EN ISO 294-1:2000



IS0 294-l :1996(E) IS0 3167:1993, Plastics - Multipurpose test specimens. IS0 10350: 1993, Plastics - Acquisition and presentation of comparable single-pojn t data. IS0 I 1403-I :I 994, Plastics - Acquisition and presentation of comparable multlpoint data - Part 1: Mechanical properties. IS0 11403-Z: 1995, Plastics - Acquisition and presentation of comparable multlpoint data - Part 2: Thermal and processing properties. IS0 11403-3:--J), P/astics - Acquisition and presentation of comparable multjpoint data - Part 3: Environmentai influences on properties. 3 Definitions For the purposes of the various parts of IS0 294, the following definitions apply. 31 . has mould temperature, Tc: The a verage temperature of t he m ould cavity surfac es mea attained thermal equilib Irium and i mmedi ately after openin g the mould (see 4.2.5 an d 5.3 sured after the system 1 . It is expressed in degrees Celsius (“0 3.2 melt temperature, T,,,,: The temperature of the molten plastic in a free shot (see 4.2.5 and 5.4). It is expressed in degrees Celsius (“C). 33 piece melt pressure, ss (see figure I) p: The pressure of the plastic material in front of the screw at any time during the moulding It is expressed in megapascals (MPa). The melt pressure, which is generated hydraulically for instance, can be calculated from the longitudinally on the screw using equation (I): force Fs acting P= 4~10~ Fs n:D2 . . . (‘1) where P is the melt pressure, in megapascals; Fs is the longitudinal force, in kilonewtons, acting upon the screw; D is the screw diameter, in millimetres. 34 . hold pressure,p,+: The melt pressure (see 3.3) during the hold time (see figure I). It is expressed in megapascals (MPa). 3.5 moulding cycle: The complete sequence of operations in the moulding process required for the production of one set of test specimens (see figure 1). 2) To be published. 2 SIST EN ISO 294-1:2000



IS0 294-1:1996(E) L \ \ i \ \ \ 4 Injection time, t, ’ -7 - Hold pressure,p, Hold time, fH m c Cooling time, tc - c Cycle time, tT I - - Meit pressure, p - ---- Longitudinal position of screw A \ \ \ \ . Time Open time, t, Figure 1 - Schematic diagram of an injection-moulding cycle, showing the melt pressure (full line) and the longitudinal position of the screw (dashed line) as a function of time 3.6 cycle time, tT: The time required to carry out a complete moulding cycle (see 3.5). It is expressed in seconds (s). The cycle time is the sum of the injection time tl, the cooling time tC and the mould-open time to (see 3.7, 3.8 and 3.10). 3.7 injection time, tl: The time from the instant the screw starts to move forward until the switchover point between the injection period and the hold period. It is expressed in seconds (s). 3.8 cooling time, tC: The time from the end of the injection period until the mould starts to open. It is expressed in seconds (s). 3.9 hold time, tH: The time during which the pressure is maintained at the hold pressure (see 3.4). It is expressed in seconds (s). 3.10 mould-open time, to: The time from the instant the mould starts to open until the mould is closed and exerts the full locking force. It is expressed in seconds (s). It includes the time required to remove the mouldings from the mou!d. 3 SIST EN ISO 294-1:2000



IS0 294-1:1996(E) 3.11 cavity: That part of the hollow space in a mould that produces one specimen. 3.12 single-cavity mould: A mould with one cavity only (see figure 4). 3.13 multi-cavity mould: A mould that has two or more identical cavities in a parallel-flow arrangement (see figures 2 and 3). Identical flow-path geometries and symmetrical positioning of the cavities in the mould ensure that all test specimens from one shot are equivalent in their properties. 3.14 family mould: A mould that contains more than one cavity which have different geometries (see figure 5). 3.15 IS0 mould: Any one of several standard moulds (designated type A, B, C, Dl and D2) intended for the reproducible preparation of test specimens with comparable properties. The moulds have a fixed plate with a central sprue, plus a multi-cavity cavity plate as described in 3.13. Additional details are given in 4.1 .I .4. An example of a complete mould is shown in annex C. 3.16 critical cross-sectional area, AC: The cross-sectional area of the cavity in a single- or multi-cavity mould at the position where the critical portion of the test specimen, i.e. that part on which the measurement will be made, is moulded. It is expressed in square millimetres (mm2). For tensile-bar test specimens, for instance, the critical portion of the test specimen is the narrow section which is subjected to the greatest stress during testing. 3.17 moulding volume, V,. l The ratio of the mass of the moulding to the density of the solid plastic. It is expressed in cubic millimetres (mma). 3.18 projected area, A,,: The overall profile of the moulding projected on to the parting plane. It is expressed in square millimetres (mm2). 3.19 Locking force, FM: The force holding the plates of the mould closed. It is expressed in kilonewtons (kN). The minimum locking force necessary may be calculated from the inequality: F,,,, LAp.pmaxx 1O-3 where FAA is the locking force, in kilonewtons; AP is the projected area (see 3.18), in square millimetres; pmax is the maximum value of the melt pressure (see 3.3), in megapascals. . . . (2) 3.20 injection velocity, vI: The average velocity of the melt as it passes through the critical cross-sectional area AC (see 3.16). It is expressed in millimetres per second (mm/s). 4 SIST EN ISO 294-1:2000



@ IS0 IS0 294=1:1996(E) It is applicable to single- and multi-cavity moulds only, and may be calculated from equation (3): h/l VI=,.A I C’” ” D 0 (3) where VI is the injection velocity, in millimetres per second; n is the number of cavities; A, is the critical cross-sectional area (see 3.161, in square millimetres; V,,,, is the moulding volume (see 3.17), in cubic millimetres; 4 is the injection time (see 3.7), in seconds. 3.21 shot capacity, Vs: The product of the maximum metering stroke of the injection-moulding machine and the cross-sectional area of the screw. It is expressed in cubic millimetres (mms). 4 Apparatus 4.1 Moulds 4.1 .I IS0 (multi-cavity) moulds 4.1.1.1 IS0 moulds (see 3.15) are st which is intended to be comparable use in the case of disputes involving I rongly recommended for producing test specimens for the acquisition of data (see IS0 10350, IS0 11403-1, IS0 11403-Z and IS0 11403-3) as well as for nternational Standards. 4.1 .I.2 Multipurpose test specimen: s as specified in IS0 3167 shall be moulded in a two-cavity type A IS0 mould using a Z- or T-runner (see annex A). The mould shall be as shown in figure 2 and meet the requirements specified in 4.1 .I .4. Of the two types of runner, the Z-runner is preferred owing to the more symmetrical closure force obtained. The bar mouldings produced shall have the dimensions of the type A specimen specified in IS0 3167. 4.1.1.3 Rectangular 80 mm x 10 mm x 4 mm bars shall be moulded in a four-cavity type B IS0 mould with a double-T runner. The mould shall be as shown in figure 3 and meet the requirements specified in 4.1 .I .4. The bars produced shall have the same cross-sectional dimensions along their central section as multipurpose test specimens (see IS0 3167) and a length of 80 mm + 2 mm. 4.1.1.4 The main constructional details of type A and B IS0 moulds shall be as shown in figures 2 and 3 and shall meet the following requirements: a) The sprue diameter on the nozzle side shall be at least 4 mm. b) The width and height (or the diameter) of the runner system shall be at least 5 mm. c) The cavities shall be one-end gated as shown in figures 2 and 3. d The height o f the gate shall be at lea st two-thirds the heigh ew al to that of th e cavity at t of the cavity, and the width of the gate shall be the point where the gate enters the cavity. e) The gate shall be as short as possible, in any case not exceeding
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