Belt segment

Cross-belt Product is carried on short belt segments mounted 90° to conveyor line travel. Belt carries off item at dischaige point. Very high sort rates, to over 670 spm. Large number of divert points can be handled. Continuous-loop or train-style operations. 

The belt segment is approximately the same size as the hose segment, 6 billion dollars worldwide in 2010. Conveyor belts (or large belts) are used as an efficient conveyance system for ores and mineral deposits for both surface and underground mining. Power transmission belts are used extensively in the automotive and industrial equipment markets. Light belts are used in such applications as food cafeterias. 

Note that for our simple model, where the dummy is modelled as rigid, the unknown flexibility of the upper torso and pelvis is incorporated in the belt segment characteristics. Thus, it is necessary to modify thoroughly the common static force-deformation for the strap (9% of deformation under 10 kN). 

In a third step, we may fit the friction coefficients (I) concerning the belt, by correlating the various force-time histories of the belt segments and die head target trajectory. 

The Maze Lake orogenic gold exploration project is located in the Tavani Segment of the Central Hearne Supracrustal Belt, Hearne Province (Park Raiser 1992 Martel et al. 2007). The area is underlain... 

Thermo Nuclean developed the segmented gate system (SGS) to segregate radioactive material from contaminated soil. The SGS is a combined system of conveyors, radiation detectors, software algorithms, and computer controls. The SGS diverts contaminated soil onto a conveyor belt that deposits the soil in a container for disposal or fnrther processing. The developer claims that the system removes minimal amounts of clean soil with the radioactive particles, reducing the amount of material requiring disposal. The SGS is commercially available. 

The microenvironmental polarity parameters for ANS and TNS bound to various hosts are listed in Table 3. These values are independent of temperature over a range of 10-40 °C. In the absence of any macrocyclic hosts, ANS is bound to the membrane in its surface domain while TNS to the hydrogen-belt domain [60, 61] interposed between the polar surface region and the hydrophobic domain composed of double-chain segments in the light of the Ej values the microenvironments for the former and the latter are close to that provided by water ( = 1.000) and equivalent to that in ethanol ( = 0.654), respectively. Such a difference in microenvironmental polarity presumably comes from the difference in molecular shape TNS is more slender than ANS. 

Murakami et al. studied alternative pyridoxamine-surfactant systems [23]. These authors synthesized hydrophobic pyridoxamine derivatives (30 and 31) and peptide lipid molecules (32-35). Catalyst 30 or 31 and the peptide lipids formed bilayer membranes in water, which showed transamination reactivity in the presence of metal ions such as Cu(ii). It was proposed that the pyridoxamine moiety was placed in the so-called hydrogen-belt domain interposed between the polar surface region and the hydrophobic domain that is composed of double-chain segments within the bilayer assembly. The basic group (such as imidazole) in the peptide lipid molecules could catalyze the proton transfer involved in the transamination reaction. In addition, marked substrate discrimination by these bilayer membrane systems was performed through hydrophobic interactions between substrates and the catalytic site. 

Caby R. (1994) Precambrian coesite from N. Mali first record and implications for plate tectonics in the trans-Saharan segment of the Pan-African belt. Euro. J. Mineral. 6, 235-244. 

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