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Thermal deterioration

Modifying polymers is veiy convenient and quite economic. However, control of sulfonation is veiy difficult since the sulfonation occurs on the activated ring, which may deteriorate thermal stability of the polymer. The extent of sulfonation is also hard to control and side reactions may occur. [Pg.354]

Industrial floors are one of the basic elements of a building and simultaneously its most loaded part. Floors experience the enormous loadings connected with abrasive and mechanical deterioration, thermal loadings, chemical and impact influences, and so on. The general requirements for industrial floors are [5]... [Pg.168]

The diffusion of elements such as Mo, W, S and Ta into the MCrAlY layer has been recognized. Addition of a small amount of Si into MCrAlY can effectively prevent outward diffusion of Mo by increasing the diffusion activation energy [56-58], However, the existence of Si on the surface of the bond coat deteriorates thermal cycling performance of TBCs, because silicon oxide is brittle at low temperatures and peristaltic at elevated temperatures. To circumvent this, a two-layered TBC with a Si gradient MCrAlY-Si bond coat was designed to block the outward diffusion of Mo from the substrate into the bond coat and to improve thermal cycling performance of TBCs [57]. [Pg.484]

The properties of SAN resins depend on their acrylonittile content. Both melt viscosity and hardness increase with increasing acrylonittile level. Unnotched impact and flexural strengths depict dramatic maxima at ca 87.5 mol % (78 wt %) acrylonitrile (8). With increasing acrylonitrile content, copolymers show continuous improvements in barrier properties and chemical and uv resistance, but thermal stabiUty deteriorates (9). The glass-transition... [Pg.192]

Thermal Oxidative Stability. ABS undergoes autoxidation and the kinetic features of the oxygen consumption reaction are consistent with an autocatalytic free-radical chain mechanism. Comparisons of the rate of oxidation of ABS with that of polybutadiene and styrene—acrylonitrile copolymer indicate that the polybutadiene component is significantly more sensitive to oxidation than the thermoplastic component (31—33). Oxidation of polybutadiene under these conditions results in embrittlement of the mbber because of cross-linking such embrittlement of the elastomer in ABS results in the loss of impact resistance. Studies have also indicated that oxidation causes detachment of the grafted styrene—acrylonitrile copolymer from the elastomer which contributes to impact deterioration (34). [Pg.203]

These polymers possess enhanced solubility compared to the aromatic polyamides with no deterioration in thermal stability. Their Ts vary from... [Pg.531]

Although beryllium oxide [1304-56-9] is in many ways superior to most commonly used alumina-based ceramics, the principal drawback of beryUia-based ceramics is their toxicity thus they should be handled with care. The thermal conductivity of beryUia is roughly about 10 times that of commonly used alumina-based materials (5). BeryUia [1304-56-9] has a lower dielectric constant, a lower coefficient of thermal expansion, and slightly less strength than alumina. Aluminum nitride materials have begun to appear as alternatives to beryUia. Aluminum nitride [24304-00-5] has a thermal conductivity comparable to that of beryUia, but deteriorates less with temperature the thermal conductivity of aluminum nitride can, theoreticaUy, be raised to over 300 W/(m-K) (6). The dielectric constant of aluminum nitride is comparable to that of alumina, but the coefficient of thermal expansion is lower. [Pg.526]

Sihcone-based coatings are well suited for high temperature and high speed appHcations. They are flexible, tough, and resistant to thermal and oxidative deterioration. They have good surface resistance and are fungus- and flame resistant. However, they possess a high coefficient of thermal expansion and have poor adhesion. [Pg.533]

Plasticizer esters are relatively iaert, thermally stable Hquids with high flash points and low volatihty. Consequently they can be stored safely ia mild steel storage tanks or dmms for extended periods of time. Exposure to high temperatures for extended periods, as encountered ia dmms ia hot climates, is not recommended since it may lead to a deterioration in product quaUty with respect to color, odor, and electrical resistance. [Pg.133]

Succinic anhydride is stabilized against the deteriorative effects of heat by the addition of small amounts (0.5 wt %) of boric acid (27), the presence of which also decreases the formation of the dilactone of gamma ketopimelic acid (28). Compared with argon, CO2 has an inhibiting effect on the thermal decomposition of succinic acid, whereas air has an accelerating effect (29,30). [Pg.535]

This boron- and carbon-doped SiC exhibits excellent strength and stiffness, extreme hardness, and thermal and chemical resistance. The strength of this system is not affected by temperatures up to I650°C. Creep is virtually nonexistent up to I400°C. CycHc durabiUty testing conducted at I370°C in air showed no deterioration of strength after 3500 h (94). [Pg.466]

Siace dimer acids, monomer acids, and trimer acids are unsaturated, they are susceptible to oxidative and thermal attack, and under certain conditions they are slightly corrosive to metals. Special precautions are necessary, therefore, to prevent product color development and equipment deterioration. Type 304 stainless steel is recommended for storage tanks for dimer acids. Eor heating coils and for agitators 316 stainless steel is preferred (heating coils with about 4s m (50 ft ) of heat transfer surface ia the form of a 5.1 cm schedule-10 U-bend scroU are recommended for a 37. 9-m (10,000-gal) tank. Dimer acid storage tanks should have an iaert gas blanket. [Pg.115]

The life of the insulation will also be affected by an excessive operating temperature. It is halved for every 11°C rise in temperature over its rated value and occurs when a machine is occasionally overloaded. Sometimes the size of the machine may be only marginal when it was initially chosen and with the passage of time, it may be required to perform duties that are too arduous. Every time the machine overheats, the insulation deteriorates, and this is called thermal ageing of insulation. Figure 9.1 illustrates an approximate reduction in life expectancy with a rise in operating temperature. [Pg.221]

Temperature rise at the guaranteed output to ascertain the adequacy of the insulating material and life of the motor. If the temperature rise is more than permissible for the type of insulation used, it will deteriorate the insulating properties and cause thermal ageing. As a... [Pg.250]

The turbine firing temperature, whieh affeets the life, power output, as well as the overall thermal effieieney of the turbine, must be ealeulated very aeeurately. To ensure the aeeuraey of this ealeulation, the turbine firing temperature is eomputed using two teehniques. These teehniques are based firstly on the fuel heat input and seeondly on the turbine heat balanee. Turbine expander effieieneies are eomputed and deterioration noted. [Pg.710]

The overall thermal effieieney of the gas turbine in a simple eyele (varies between 25-45% depending on the turbine) is eomputed to determine deterioration of the turbine ... [Pg.717]

Some materials are able to withstand quite lengthy thermal histories , a term loosely used to describe both the intensity (temperature) and the duration of heating. Polyethylene and polystyrene may often be reprocessed a number of times with little more than a slight discoloration and in the case of polyethylene some deterioration in electrical insulation properties. [Pg.163]

Hie best overall efficiency of a turbine can be ensured by maintaining tile efficiency of the air compressor section. Conversely, allowing the air compressor efficiency to deteriorate will deteriorate the overall thermal efficiency of the turbine. Air compressor efficiency can be draslically reduced in a very short time when dirt, salt water mist, or similar air con-... [Pg.486]

An MAI composed of polycaprolactam was investigated on its thermal decomposition behavior to develop easy decomposable polymers, the addition of oxidative deterioration was needed [72]. [Pg.763]


See other pages where Thermal deterioration is mentioned: [Pg.348]    [Pg.136]    [Pg.62]    [Pg.348]    [Pg.136]    [Pg.62]    [Pg.361]    [Pg.503]    [Pg.249]    [Pg.122]    [Pg.390]    [Pg.88]    [Pg.109]    [Pg.161]    [Pg.272]    [Pg.523]    [Pg.545]    [Pg.246]    [Pg.314]    [Pg.364]    [Pg.493]    [Pg.507]    [Pg.1004]    [Pg.2407]    [Pg.263]    [Pg.1017]    [Pg.1057]    [Pg.14]    [Pg.139]    [Pg.103]    [Pg.57]    [Pg.118]    [Pg.195]    [Pg.22]    [Pg.190]   
See also in sourсe #XX -- [ Pg.200 ]




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Deterioration

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