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Testing and Quality Control of Plastics Materials and Products. ALOK KUMAR. Testing & Quality Control in Plastics Processing Industry. With the advent of Science and Technology, the concept of testing is an integral part of research and development, product design and manufacturing.
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Testing and Quality Control of Plastics Materials and Products ALOK KUMAR
Testing & Quality Control in Plastics Processing Industry • With the advent of Science and Technology, the concept of testing is an integral part of research and development, product design and manufacturing. • Why we need testing? • To prove design concepts • To prove a basis for reliability • Safety • Protection against product liability suits • Quality Control • To meet Standards and Specifications • To verify the manufacturing process • To evaluate competitors products • To establish a history for new materials
Fundamental Aspects of Testing Test Method A definitive procedure for the identification, measurement and evaluation of one or more qualities, characteristics or properties of a material, product, system or service that produces a test result. • Test Data Helps • To determine the suitability of plastics for a particular application, for • quality control purposes or to obtain a better understanding of there • behavior under various conditions • The physical property data obtained by testing is required to • design the product development and failure analysis. • The testing data are required for to promote the use of plastics. • Testing feed back helps to aid improved design or quality • control procedures.
Fundamental Aspects of Testing • Quality Control Test • Quality control datas are useful for finding suitability of a material, design, and productquality. It carries out the actual test, make use of test planning and test data processing. The data processing helps In checking reproducibility and accuracy of the test result. • Standard Method of Test • Standard methods of tests are required for evaluation • Basic plastics molecule from laboratory level to the resin & the Product • It helps product reliability. • Liability registration
Fundamental Aspects of Testing • REASONS FOR TESTING • To ensure • Incoming raw material are acceptable and consistent quality. • Product of intermediate stages of manufacture are of an • acceptable and consistent quality. • End product of the overall process is of consistent and • acceptable quality. • To evaluate • New or competitive materials or modifications to a process. • The fitness for purpose of a material, process or product. • To obtain • Early evidence of changes taking place in a process. • To prove • Design aspects. • Quality control and Safety
Types of Tests The following are the major types of test:- • Analytical Test. • Material Characterization Test. • Material property test. • Product test.
Types of Tests • Analytical tests are important for :- • Quality control • Development of new materials. • Product designing. • Process Optimization. • Major analytical tests are :- • Density and specific gravity test. • Water absorption test. • Moisture analysis. • Sieve Analysis.
Types of Tests Material Characterization Test • Material characterization tests are used for:- • To identify the material • To determine chemical composition • To determine Structure • To determine Flow Behavior • Major Characterization Tests are • Melt Flow Test • Viscosity Test • Molecular Weight and Molecular Wt Distribution • Thermal Properties (TGA, DSC, TMA) • Spectroscopy • Microscopy
Types of Tests • The property datas of the material are the major resource for selection of material, process optimization and product and mould design. • The various properties of plastics materials are determined by standard test methods, such as ASTM, ISO etc., • The most common material property tests are:- • Mechanical properties. • Thermal Properties. • Electrical Properties. • Optical Properties. • Weathering Properties • Chemical Properties
Types of Tests • Testing of plastics product is important for predicting product performance. • This test can be carried out from test specimen prepared by machining the products or the whole product. • Non Destructive Test • Preferable where the product is very expensive and which cannot be destruct. • Ultrasonic and Radiography methods are Advanced NDT
Standard and Specification • Standard and specification helps to develop common language for developers, designers, fabricators, purchasers and suppliers, End users. • Standard:- A technical document based on consolidated results of science, technology and experience approved by a standardizing body for the benefits of the people. • Standardization:- It is the activity giving solutions for repetitive applications to problems, essentially in the sphere of science, technology and economics aimed at the achievement of the optimum degree of order in a given contest. • Technical specification:- A document which lays down characteristics of a product or a service such as levels of quality performance, safety or dimensions
Types of Standards • Basic standard :- It contains general provisions for one particular field. • Terminology standard:- It is concerned with terms, definitions, explanatory notes, illustrations, examples, etc. • Testing standards:- A standard concerned exclusively with test methods, supplemented with other provisions related to testing such as sampling, statistical methods and sequence of testing. • Product standard:- A standard specifying some or all the requirements to be met by a product. • Safety standard:- A standard aimed at the safety of the people and goods.
Bodies or Organization – Formulating Standards • INTERNATIONAL ORGANIZATION:- • International Organization for Standardization (ISO):- • In plastics field the principle body producing standard is ISO. • International Electrochemical Commission (IEC):- In electrical field IEC producing standards. • NATIONAL ORGANIZATION:- • British Standard Institution (BSI):- BSI was formed in 1901, producing standards in all fields. • American National Standard Institute (ANSI): ANSI is the premier standardization body in USA. • American Society for Testing & Materials (ASTM): ASTM is a Scientific & Technical Organization formed for the development of standards on characteristics and performance of materials, products, systems and services and promotion of related knowledge. • Deutsche Institute Fur Normung (DIN):- The German standard organization was formed in 1917 producing standards in all the fields in German language which published in English, French and Spanish also. • Bureau of Indian Standards (BIS):- BIS is engaged in developing national standards and their revision/review from time to time.
Aims of Standardization • Aims of standardization in general :- • To achieve maximum overall economy in terms of Cost. • To ensure maximum convenience in use – simplification, rationalization, interchangeability of parts, increased productivity, elimination of unnecessary waste and shortening of inventories. • To adopt the best possible solution to recurring problems by • use of scientific knowledge and technological developments. • Standardization of sampling procedures, test methods, grading schemes and quality specification.
Quality & Standardization • Quality is “ the totality of features & characteristics of a product or service that bear on its ability to satisfy a given need in an economical manner.” • The objective of standardization is to ensure maximum convenience in use by simplification, rationalization and interchangeability of parts, increased productivity, elimination of waste, shortening of inventories, etc.
Specimen Preparation Manufacturing process Orientation of the molecule chains, as they are created in, e.g. an injection operation or during stretching (films, deep drawing), has significant effect on the various characteristics. Other things which effect the characteristics of the specimen are; cooling speeds Tool temperatures injection speeds curing temperatures and times. The manufacturing process of a test specimen can be standardized only for molding materials. Tests on finished components always show the status of the material at the location the specimen
Mechanical Properties • Fundamental to the understanding of a material’s performance is a knowledge of how the material will respond to any load. • The important mechanical properties are • Tensile tests • Flexural properties • Compressive properties • Creep properties • Stress relaxation • Impact properties • Shear strength • Abrasion • Hardness tests