Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Structural characteristics, naturally

In this section the rosins and rosin derivative resins, coumarone-indene and hydrocarbon resins, polyterpene resins and phenolic resins will be considered. The manufacture and structural characteristics of natural and synthetic resins will be first considered. In a second part of this section, the characterization and main properties of the resins will be described. Finally, the tackifier function of resins in rubbers will be considered. [Pg.597]

Essentially, in realistic polymer chains, a monomeric unit does not remember the way it appeared in the macroradical. All the experimental characteristics of a copolymer chemical structure are naturally described in terms of uncolored units. Consequently, having preliminarily calculated these characteristics in the ensemble of macromolecules with colored units, it is then necessary to erase colors bearing in mind that every state in a chain of uncolored units is an enhancement of a corresponding pair of states in a chain of colored units. The latter is the Markov chain with transient states (19), whose matrix of transitions looks as follows ... [Pg.182]

Several factors affect the structural performance of a building or other structure subjected to explosion loadings (Ref. 71). These factors relate to the nature of the blast wave and the structural characteristics of the building components. The primary blast wave and stmctural factors are as follows ... [Pg.111]

LC-MSn, generally requires some background information on the nature of the solutes. Compared with GC-MS with EI/CI, LC-MS does not offer the same identification possibilities, because of the different ionisation mechanisms. Nevertheless, LC-MS has become an invaluable tool to selectively quantify solutes, and to confirm structures or to elucidate structural characteristics. A drawback of LC-MS is that measurable organic compounds are very limited compared with compounds separable by LC alone. LC-MS places considerable constraints... [Pg.497]

In addition to the minerals, there are also some rock-forming homogeneous materials that have neither the definite chemical composition nor the distinctive crystal structure characteristic of minerals. Such materials cannot, therefore, be considered as minerals and are known as mineraloids. Obsidian, for example, a natural material that has been widely used since prehistoric times for making lithic tools and decorative objects, is a mineraloid. Obsidian has neither a definite chemical composition nor a characteristic crystal structure and is not, therefore, a mineral. Copal and amber are other mineraloids that since antiquity have been treasured as semiprecious gemstones. [Pg.41]

The two types of wood differ, however, in their nature and structure. The main structural characteristic of the hardwoods (which are botanically known as angiosperms, plants that flower to pollinate for seed reproduction) is that in their trunks or branches, the volume of wood taken up by dead cells, varies greatly, although it makes up an average of about 50% of the total volume. In softwoods (from the botanical group gymnosperms, which do not have flowers but use cones for seed reproduction) the dead cells are much more elongated and fibrous than in hardwoods, and the volume taken up by dead cells may represent over 90% of the total volume of the wood. [Pg.321]

Pyrethroids are a collective term for compounds that are obtained by modifying the structure of natural insecticidal ingredients, pyrethrins, contained in pyrethrum while maintaining safety, to improve efficacy and provide different characteristics from pyrethrins that show high selective toxicity comparable to pyrethrins. [Pg.235]

Structural characteristics. Both natural and synthetic mordenite have an orthorhombic structure that consists of parallel, 12-membered ring channels in the c-direction, having an eliptical cross-section with dimensions of 6,7 x 7.0 A (Figure 9). Smaller 8-membered ring channels with dimensions of 2.9 x 5.7 A, which are perpendicular to the main channels, are too small to allow the movement of molecules from one main channel to another. Mordenite has been synthesized in a "large -port" and "small-port" form that have different sorption properties. A typical unit cell content is Na0[(A10o)o(Si0o)/rJ. 24 HO. 8 28 2 40... [Pg.187]

All deposits of metals are made of grains whose structural-physical nature (1) can be divided into four types (1) columnar, (2) fine-grained, (3) fibrous, and (4) banded. In terms of their practical macroscopic physical properties, their main characteristics may be summarized as follows ... [Pg.273]

Since 1998 Switzerland has conducted a nationwide survey on the ecomor-phological state of its waters, which records and evaluates aU the structural characteristics of each water course [54]. A projection for the whole of Switzerland is predicated on the fact that around 25% of the sections of all water courses (=15,800 km) are in a poor ecomorphological state and 50% are still in a natural state. However there is a very close correlation between the extent of the impact and the altitude below 600 m ASL, 50% of the water courses exhibit insufficient structural variety, while above 2,000 m the ratio is only 2%. However, the data collected is not yet reliable, particularly for higher locations in the alpine region. [Pg.86]

Solution polymerization is bulk polymerization in which excess monomer serves as the solvent. Solution polymerization, used at approximately 13 plants, is a newer, less conventional process than emulsion polymerization for the commercial production of crumb mbber. Polymerization generally proceeds by ionic mechanisms. This system permits the use of stereospecific catalysts of the Ziegler-Natta or alkyl lithium types which make it possible to polymerize monomers into a cis structure characteristic that is very similar to that of natural rubber. This cis structure yields a rubbery product, as opposed to a trans stmcture which produces a rigid product similar to plastics. [Pg.549]

Common examples of carbon compounds include carbon dioxide (CO2, exhaled when we breathe), table sugar (Cj2H220j2), chalk (CaCOg), and natural gas (mostly CH ). Because there are so many different carbon compounds in nature, it is impossible to learn the name of each one. Instead, groups of carbon compounds are named according to their chemical makeup and structural characteristics. [Pg.23]

Hence, from the previously described light-scattering study of caseinate self-assembly in solution, we can postulate that heating/cooling not only alters the nature and strength of the physical (hydrophobic) interactions between emulsion droplets covered by caseinate. It most likely also transforms the nanoscale structural characteristics of the protein network in the bulk and at the interface, thereby affecting the viscoelastic and microstructural properties of the emulsions. [Pg.203]

See other pages where Structural characteristics, naturally is mentioned: [Pg.54]    [Pg.230]    [Pg.422]    [Pg.112]    [Pg.31]    [Pg.169]    [Pg.197]    [Pg.105]    [Pg.45]    [Pg.136]    [Pg.136]    [Pg.124]    [Pg.523]    [Pg.138]    [Pg.12]    [Pg.247]    [Pg.174]    [Pg.810]    [Pg.31]    [Pg.1]    [Pg.27]    [Pg.66]    [Pg.255]    [Pg.39]    [Pg.260]    [Pg.4]    [Pg.197]    [Pg.240]    [Pg.498]    [Pg.188]    [Pg.170]    [Pg.231]    [Pg.128]    [Pg.492]   


SEARCH



Characteristics structure

Natural structures

Structural characteristics

© 2024 chempedia.info