Thermal degradation, various

Another modification is reached by adding chlorine—chlorinated PVC or CPVC—which serves as pipeline for hot water supply, but is also very sensitive to thermal degradation. Various copolymers are based on vinyl chloride with a second component, mostly, being vinylidene chloride CH2=C CI2 (called also Saran) or vinyl acetate ... 

A polymer is a complex mixture of molecules that is difficult to define and reproduce. The quality of the polymer is markedly affected by the conditions of preparation. Different degrees and types of branching, differences in the number and distribution of various irregular structures, along with the degree of purity of the finished product and conditions of further treatment all influence the thermal stability of the polymer and the course of its thermal degradation. This further complicates the study of this polymer and explains the differences be-... 

Good thermal stability is a requirement for surfactants used in processes to enhance oil recovery. This applies most particularly to steam foam applications where surfactants such as AOS may be exposed to temperatures far above 100°C albeit for short times. Many authors have approached the problem of the thermal stability of a surfactant through a determination of the activation energy of the thermal degradation process. Once the activation energy is known, it can be used to estimate the rate of thermal degradation under various conditions. 

Figura 2.9 Dse of th Grob test Mixture to compare tbe activity of various glass surfaces coated with ov-ioi. Surface types A > Untreated pyrex glass, B pyrex glass deactivated by thermal degradation of Ceurbowax 20M, C < SCOT column, prepared with Silanox 101, D pyrex glass column coated with a layer of barium carbonate and deactivated as in (B), and E - untreated fused silica. Components are identified in Table 2.7 with ac - 2-ethylhexanoic acid. (Reproduced with permission from ref. 152. Copyright Elsevier Scientific Publishing Co.)...

Figure 2. Absorbance at 300 nm of thermally degraded PVC films on irradiation (A. > 300 nm) in the presence of various pressures of HCl (O) 0 (X) 50 torr (A) 150 torr ( Z ) 300 torr ( ) 760 torr (27)...

Dreier et al. [44] determined sterols in lacustrine sediments. Samples of wet lacustrine sediments were heated under anoxic conditions at 150, 175, 200 and 250°C for five days at 175°C for five days with influx of potassium hydroxide and methanol to remove sterols and at 175°C for 12, 18, 24 and 48h, after which extraction was performed. Heating the sediment increased the amounts of extractable sterols provided that the temperature did not exceed 200°C, because degradation became rapid above that temperature. The behaviour of sterol ketones was similar, but the temperature limit was slightly higher. The various levels of the sterols extracted are tabulated 4-methylsterols had a high stability towards thermal degradation under the conditions used. 

Thermal degradation studies might be required to determine the decomposition characteristics of of the subject pesticide vAien heated alone or In the presence of oxidizers and/or binders In both closed and open systems and at various temperatures. 

Under the conditions corresponding to the roasting of coffee, serine, threonine, and sucrose yield various substituted pyridines (51), furans, and furanones (52). Thirty-three pyridine derivatives were identified by Baltes and co-workers (51), Recently, 3-methylthiomethylpyridine was identified as one of the products of thermal degradation of the glucose-methionine Amadori intermediates (53). 

Continuous exposure of catalysts to high temperatures may cause an alteration in its components and gradually lead to its deactivation. Thermal degradation may have an undesirable impact on both the catalyst substrate and noble metal load in various ways. Thermal degradation covers two phenomena sintering and solid-state transformation. 

M.-H. Yang, The thermal degradation of acrylonitrile-butadiene-styrene terpolymer under various gas conditions, Polym. Test., 19(1) 105-110, February 2000. 

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