Overview
ABSTRACT
A micro-compounder consists of a small conical twin-screw extruder, coupled to a recirculating channel, in which a few grams of material can be processed for a fixed time, before being purged. Inside these machines, the flow conditions are not always well known, which sometimes makes it difficult to use them optimally and to interpret the results correctly. In this article, the operating mode of micro-compounders is explained. Experimental results and flow models are presented, to allow the reader to better understand this process and the influences of its main parameters (rotation speed, material mass, barrel temperature).
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Read the articleAUTHOR
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Bruno VERGNES: Doctor of Science - Scientific advisor - CEMEF, Mines Paris – PSL, Sophia Antipolis, France
INTRODUCTION
Mixing and compounding form an essential part of the polymer industry. At industrial level, these operations are generally carried out using twin-screw extruders, capable of delivering outputs of up to tens of tons per hour. However, to develop a product on a laboratory scale, smaller machines are required. Twin-screw extruders with a minimum diameter of 11 mm are now available on the market, enabling manufacturers to achieve throughputs of up to 20 g/hour. However, for expensive materials or those available in very small quantities, throughputs of a few grams per hour would be desirable, at least to define appropriate formulations. This is why, at the end of the 1990s, a new category of machines appeared: micro-compounders. They are based on the same idea: coupling a small twin-screw extruder (co- or counter-rotating) with a recirculation channel. In this way, the material can be processed during the time required for its elaboration, but under real extrusion conditions. Once this thermomechanical treatment has been completed, a valve allows the material to be purged by extruding it through a die. On some machines, the design of the recirculation channel also enables an apparent viscosity to be deduced from the measurement of the local pressure drop.
Micro-compounders are mainly used in laboratories or research and development (R&D) units. However, despite their growing use, little is known about how they work, and there is little literature on the process itself. In this article, after explaining the basic principles of micro-compounder operation, we will describe in detail their geometry, both in co- and counter-rotating configuration, and then present a number of experimental results. We will then introduce some flow modelling concepts and show the practical results that can be obtained using these models.
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KEYWORDS
polymers | mixing | twin screw extrusion | flow models
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Plastics and composites
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Operation and use of micro-compounders
Bibliography
Directory
Manufacturers
Xplore, Sittard (Netherlands)
https://www.xplore-together.com
ThermoFischer, Waltham (United States)
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