Research and Markets: New techniques improve binding and grip for polyolefins?DUBLIN, Ireland -- Research and Markets (http://www.researchandmarkets.com) has announced the addition of 'Adhesion and Bonding to Polyolefins' to their offering. Polyolefins have many and varied applications. Polyethylene is the most widely used plastic and olefinic elastomers, such as natural rubber and styrene-butadiene copolymers, predominate in many key components such as tyres. Many applications of polyolefins require good adhesion to other substrates such as adhesive bonding Adhesive bonding The process of using an adhesive to manufacture an assembly. The adhesive-bonded assembly is known as an adhesive joint, and the materials to which the adhesive adheres are known as the adherends. , lamination lamination a laminar structure or arrangement. , painting, printing and metallisation. However, polyolefins have very poor bonding properties except where a diffusion mechanism operates, such as during the welding welding, process for joining separate pieces of metal in a continuous metallic bond. Cold-pressure welding is accomplished by the application of high pressure at room temperature; forge welding (forging) is done by means of hammering, with the addition of heat. together of two pieces of polyolefin. Theories of adhesion are briefly described. This review discusses ways of improving adhesion to substrates. A variety of pretreatments and primers have been developed for altering the surface properties of polyolefins to enhance adhesion. These include corona discharge, flame and low pressure plasma treatment for plastics, and the use of a chlorine donor for elastomers. Each method has advantages and disadvantages, which are discussed in this report. A number of different analytical methods have been used to characterise the surface of polyolefins before and after treatment. These include X-ray photoelectron spectroscopy X-ray Photoelectron Spectroscopy (XPS) is a quantitative spectroscopic surface chemical analysis technique used to estimate the empirical formula or elemental composition, chemical state and electronic state of the elements on the surface (upto 10 nm) of a material. (XPS (1) See XML Paper Specification. (2) A brand name for certain models of Inspiron laptops from Dell. ), static secondary ion mass spectrometry  This article or section needs copy editing for grammar, style, cohesion, tone and/or spelling.You can assist by [ editing it] now. (SSIMS SSIMS Static Secondary Ion Mass Spectrometry SSIMS Silver Spring International Middle School (Silver Spring, MD) SSIMS Safeguards and Security Information Management System (US DOE) ) and Fourier transfer infrared spectroscopy spectroscopy Branch of analysis devoted to identifying elements and compounds and elucidating atomic and molecular structure by measuring the radiant energy absorbed or emitted by a substance at characteristic wavelengths of the electromagnetic spectrum (including gamma ray, (FTIR FTIR Fourier Transform Infrared (spectroscopy) FTIR Frustrated Total Internal Reflection FTIR Fourier Transfer Ir ). These techniques are described and examples of the information obtained are included. Many experiments have been performed globally to investigate ways of improving the bonding of polyolefins. Data from some of the key work on different treatment methods are included, together with a discussion of the effectiveness of the treatments. This overview is written by two of the most prominent researchers in this field. It is clearly written and will be of use to those in industry and academia who are working on adhesion and bonding to polyolefins, both in practical situations and in the laboratory. The extensive reference section contains a unique set of abstracts from the Polymer Library at Rapra, including papers on the issues of bonding of polyolefin in composites. 1 Introduction 2 Principles 2.1 Theories of Adhesion 2.2 Wettability 2.3 Diffusion 3 Methods Used to Study Surfaces 3.1 Introduction 3.2 X-Ray Photoelectron Spectroscopy XPS 3.3 Static Secondary Ion Mass Spectrometry 3.4 Reflection IR 4 Pretreatments and Primers for Polyolefin Plastics 4.1 Introduction 4.2 Flame Treatment 4.3 Corona Treatment 4.4 Low Pressure Plasma Treatment 4.5 Chromic Acid Treatment 5 Polyolefin Elastomers 5.1 Introduction 5.2 Ethylene-Propylene Copolymers 5.3 Butyl Rubber 5.4 Unsaturated Hydrocarbon Elastomers 5.4.1 Natural Rubber 6 Discussion 7 Conclusions References Abbreviations and Acronyms For more information visit http://www.researchandmarkets.com/reports/c5319 |
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