Growth formation

Growth formation in epitaxial electrodeposition. Recently, Sheshadri113 observed that at small overpotentials caused by faradaic rectification, growth formation occurs in the epitaxial electrodeposition of copper on various copper single-crystal planes. 

Antisolvent precipitation is a bottom-up method wherein two phases are involved the initial creation of crystal nuclei of drugs and the subsequent growth. Formation... 

Bloating/Crushing. The process is based upon the embrittling effect when heating cemented carbides to about 1800 °C followed by rapid quenching. Embrittlement is the consequence of WC grain growth, formation of brittle phases, and thermally induced stresses. 

Auxins are responsible for bending toward a light source (phototropism), downward root growth in response to gravity (geotropism), promotion of apical dominance (the tendency of an apical bud to produce hormones that suppress growth of the buds below it on the stem), flower formation, fruit set and growth, formation of adventitious roots. 

The formation of a pseudomycelium is occassionally of diagnostic value, although several species of wine yeast are capable of this type of growth. Formation may be demonstrated by the use of slide cultures (see Slide Culture for demonstration of mycelium pseudomycelium. See 3.5.5). 

In addition, to the 3-step growth, formation of other 3-dimentional morphologies is of interest in the polymer nucleation. The epitaxy is a growth of the guest ciystal on the surface of the host ciystal. The guest polymer chains have their chain axis parallel to the substrate surface. The crystalline lamellae in the epitaxial crystallization are built edge-on, i.e., they are normal to the surface of the host crystal. Films, fibers, and single crystals are used as substrates for epitaxial crystallization. Polymers deposition can be achieved in several... 

Morphological features, kinetics of growth, formation of structure and melting behavior of iPP spherulites were discovered [1, 2 and references therein]. During the crystallization of iPP, being a polymorphic material with several modifications [5], different types of spherulites may develop, which imply crystallites of the a-, p- and v-modification [1, 2, 5-7]. All these polymorphs consist of right-, and/or left-handed threefold helices with 0.65 nm chain axis repeat distance. The molecular... 

Figure 5.5 Inner node growth formation, (a) 2D woven T nodal structure, on loom state (integral to outer solid panel), (b) 3D woven T nodal stmcture when removed from the loom and pulled into shape (outer solid panel removed).

Here we progress to flows with nontrivial external and internal moving boundaries. We first consider lineal cake buildup on filter paper, and then we examine the plug flow of two dissimilar liquids in a linear core without mudcake. These two examples set the stage for problems where mudcake growth, formation properties, and invasion front motion are dynamically coupled, which will be treated rigorously in the following section. 

The liquid phase carbonization process can be categorized on the basis of the starting material alkane hydrocarbon, alkene hydrocarbon, aromatic hydrocarbon, and PAH. Consequently, the primary material for MCMBs typically contains a large amount of PAHs from coal pitch and heavy oil. Components in primary materials, such as pyridine insolubles (Pis), quinoline insolubles (QIs), and other additives, and reaction conditions affect the growth, formation, and structure of MCMBs. 

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