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In life, you get out what you put in. This cannot apply more strongly than in the situation of particle size analysis, where poor results will be obtained if the material being measured is not sampled correctly.

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The yield stress characteristic is a property associated with numerous types of complex fluids - whereby the material does not flow unless the applied stress exceeds a certain value. This is evident in everyday tasks such as squeezing toothpaste from a tube or dispensing ketchup from a bottle, but is important across a whole range of industries and applications. The determination of a yield stress as a true material constant can be difficult as the measured value can be very much dependent on the measurement technique employed and the conditions of the test, of which there are many. Consequently, there is no universal method for determining yield stress and there exist a number of approaches, which find favour across different industries and establishments. This White Paper discusses the various approaches available to measure yield stress, and aspects of the practical measurement set-up and test parameters that need to be considered to obtain relevant, robust and reliable yield stress data using a rotational rheometer..

产品:
Kinexus ultra+
日期:
July 31 2015
语言:
English
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As manufacturers turn to on-line particle size analysis, the issue of how to ensure sucessful project implementation becomes relevant. This white paper examines the economic and practical benefits of choosing the best size measurement approach.

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The techniques of laser diffraction and automated particle imaging support the fast, cost-effective development of nasal spray products, simultaneously providing the data required for regulatory compliance. This paper examines their application.

产品:
Morphologi G3-ID
日期:
May 10 2012
语言:
English
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The physical properties of particulate materials can influence a wide range of material behaviors including, for example, reaction and dissolution rates, how easily ingredients flow and mix, or compressibility and abrasivity. From a manufacturing and development perspective, some of the most important physical properties to measure are: . particle sizeparticle shapesurface propertiesmechanical propertiescharge propertiesmicrostructureDepending upon the material of interest, some or all of these could be important and they may even be interrelated: e.g. surface area and particle size. . The aim of this particle characterization guide is to provide a basic grounding in the main particle characterization techniques currently in use within industry and academia. It assumes no prior knowledge of particle characterization theory or instrumentation and is ideal for those new to particle characterization, or those wishing to reinforce their knowledge in the field. The guide covers introductory basics, particle sizing theory and particle characterization instrumentation, as well as a quick reference guide to help you decide which techniques might be most appropriate for your particle characterization needs. For the full guide to particle characterization, please sign up below for the free full copy and PDF download. .

产品:
Morphologi G3
日期:
June 20 2012
语言:
English
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