Design control range size

Several composite formulations were used at several thicknesses. They were applied to the canal in sections starting at the downstream end. The length of each section depended on the batch size and the lining thickness. Typically, about 225 ft were lined per batch. Design thickness ranged from 0.75 to 2 in. and was built up from a series of layers about 0.1 in. thick. Control joints were placed between batch sections and at various intervals within the typical 225-ft section. 

Malvern (Insitec) ECPS2 is designed to monitor and control particle size distributions from 0.5 to 1,500 pm, at concentrations up to 10,000 ppm, directly in pneumatic powder flow streams. Up to one thousand size distribution measurements per second are carried out at flow velocities from static to ultrasonic. Discrete data point, extracted from the log file, can be viewed. The data can also be viewed in tabular form and as a size distribution curve. Data can also be integrated over any selected range. A Statistical Process Control (SPC) option enables the file data to be viewed in standard control chart format either as an X or R chart. Various interface arrangements have been described, [203] ... 

In the absence of standard controls, the gene expression data from different sources effectively use different measurement units the relative values of which are typically unknown and may even vary depending on the measurement range. This makes it necessary to store in the database not only the gene expression data matrix, but also the raw and intermediate data, and a detailed description as to how the processed values are obtained. This complicates the database design enormously. The size of the datasets (that can easily reach terabytes) adds to the difficulties. 

In the present work, we consider the two approaches for synthesis of nanoparticles designed for metal particles and being in the progress for ultraflne semiconductors. They allow to fabricate nanocomposites of the type nanoparticles-in-dielectrics with amorphous and crystalline matrices. The first one is based on the sol-gel technique producing dielectric silica films with nanoparticles incorporated within silica matrix [1]. Nanoparticles provide an optical response of the material due to the plasmon resonance [2] with variable spectral position and band shape. In the second approach nanoparticles are produced within the crystalline zeolite matrices which stabilize both the few-atomic clusters (e.g., Agg) and metal particles in the size range of 1-20 nm [3], Chemical routes of their synthesis admit easy control of size and optical properties. The metal nanoparticles in zeolites can be transformed into semiconductors without destroy of the zeolite matrix and with incorporation of zeolite microcrystals into transparent silica films. This construction... 

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