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Resist bleaching

Figure 3.12 demonstrates the bleaching of the IBM mid-UV resist. This spectrum should be compared with that of AZ1350J (Figure 3.10). The new resist bleaches upon irradiation eflFectively across the range of wavelengths from 300 to 450 nm, whereas AZ1350J bleaches eflFectively in the near-UV region but does not bleach at all at 313 nm. Figure 3.12 demonstrates the bleaching of the IBM mid-UV resist. This spectrum should be compared with that of AZ1350J (Figure 3.10). The new resist bleaches upon irradiation eflFectively across the range of wavelengths from 300 to 450 nm, whereas AZ1350J bleaches eflFectively in the near-UV region but does not bleach at all at 313 nm.
While it is simple to solve the exposure rate equation [Eq. (12.63)] in the situation where the intensity within the resist is constant, it is, however, not quite simple to solve for the situation where the intensity within the resist varies with exposure, as is the case when the resist bleaches. For the latter case, the variation of the intensity within the resist with exposure must be accurately known in order to solve the exposure rate equation. The simplest case where the intensity within the resist varies as a function of exposure occurs in situations where absorption is the... [Pg.578]

Main chain scission on absorption (polymerization initiators) Contrast enhancing lithographic resists (bleaching latency)... [Pg.16]

Chemical ( water, 5% NaOH, Resistance bleach, or detergent 1 / 15% hydrochloric acid, ( 10% citric acid, or 25% acetic acid Very gradual penetration Slow effervescence Rapid penetration Rapid disintegration... [Pg.187]

Chemical Properties. Under slightly acidic or basic conditions at room temperature, acetate and triacetate fibers are resistant to chlorine bleach at the concentrations normally used in laundering. [Pg.294]

Polyester fibers have exceUent resistance to soap, detergent, bleach, and other oxidiziag agents. PET fibers are generally iasoluble ia organic solvents, including cleaning fluids, but are soluble ia some phenoHc compounds, eg, (9-chlorophenol. [Pg.327]

Nondurable Finishes. Flame-retardant finishes that are not durable to launderiag and bleaching are, ia general, relatively iaexpensive and efficient (23). In some cases, a mixture of two or more salts is more effective than either of the components alone. For example, an add-on of 60% borax (sodium tetraborate) is required to prevent fabric from burning, and boric acid is iaeffective as a flame retardant even at levels equal to the weight of the fabric. However, a mixture of seven parts borax and three parts boric acid imparts flame resistance to a fabric with as Utde as 6.5% add-on. [Pg.486]

Their performance falls short of most present finishes, particularly in durabiUty, resistance to chlorine-containing bleaches, and formaldehyde release, and they are not used much today. Both urea and formaldehyde are relatively inexpensive, and manufacture is simple ie, 1 —2 mol of formaldehyde as an aqueous solution reacts with 1 mol of urea under mildly alkaline conditions at slightly elevated temperatures. [Pg.329]

Textiles. Sorbitol sequesters iron and copper ions in strongly alkaline textile bleaching or scouring solutions (see Textiles). In compositions for conferring permanent wash-and-wear properties on cotton fabrics, sorbitol is a scavenger for unreacted formaldehyde (252) and a plasticizer in sod-resistant and sod-release finishes (253). [Pg.54]

The most successful of these products contain high ratios of VP to DMAEMA and are partially quatemized with diethyl sulfate (Polyquaternium 11) (142—144). They afford very hard, clear, lustrous, nonflaking films on the hair that are easily removed by shampooing. More recendy, copolymers with methyl vinyl imidazoliiim chloride (Polyquaternium 16) (145) or MAPTAC (methacrylamidopropyltrimethyl ammonium chloride) (Polyquaternium 28) have been introduced. Replacement of the ester group in DMAEMA with an amide analog as in Polyquaternium 28 results in a resin resistant to alkaline hydrolysis and hence greater utility in alkaline permanent-wave and bleach formulations (see Quaternary ammonium compounds). [Pg.533]

Preparation for Dyeing. A hot alkaline scour with a synthetic surfactant and with 1% soda ash or caustic soda is used to remove size, lubricants, and oils. Sodium hypochlorite is sometimes included in the alkaline scouring bath when bleaching is requked. After bleaching, the polyester fabric is given a bisulfite rinse and, when requked, a further scouring in a formulated oxahc acid bath to remove mst stains and mill dkt which is resistant to alkaline scouring. [Pg.363]

Poly(vinyl alcohol) is employed for a variety of purposes. Film cast from aqueous alcohol solution is an important release agent in the manufacture of reinforced plastics. Incompletely hydrolysed grades have been developed for water-soluble packages for bath salts, bleaches, insecticides and disinfectants. Techniques for making tubular blown film, similar to that used with polyethylene, have been developed for this purpose. Moulded and extruded products which combine oil resistance with toughness and flexibility are produced in the United States but have never become popular in Europe. [Pg.391]

Of these materials zein, the maize protein, has been used for plastics on a small scale. It can be cross-linked by formaldehyde but curing times are very long. Complicated bleaching processes have led to the production of almost colourless samples in the laboratory but the process cannot readily be extended to large-scale operation. The cured product has a greater water resistance than casein. Proteins from soya bean, castor bean and blood have also been converted into plastic masses but each have the attendant dark colour. [Pg.860]

Filter aids may be applied in one of two ways. The first method involves the use of a precoat filter aid, which can be applied as a thin layer over the filter before the suspension is pumped to the apparatus. A precoat prevents fine suspension particles from becoming so entangled in the filter medium that its resistance becomes exces-sive. In addition it facilitates the removal of filter cake at the end of the filtration cycle. The second application method involves incorporation of a certain amount of the material with the suspension before introducing it to the filter. The addition of filter aids increases the porosity of the sludge, decreases its compressibility, and reduces the resistance of the cake. In some cases the filter aid displays an adsorption action, which results in particle separation of sizes down to 0.1 /i. The adsorption ability of certain filter aids, such as bleached earth and activated charcoals, is manifest by a decoloring of the suspension s liquid phase. This practice is widely used for treating fats and oils. The properties of these additives are determined by the characteristics... [Pg.106]

Luft-bestandigkeit, /. stability in air, resistance to air. -bestandteil, m. constituent of air. -bild, n. aerial photograph (Optica) aerial image, -blaschen, n. (small) air bubble, -blase,/, air bubble air pocket air bladder, -bleiche, /. open-air bleaching, -bombe, /. aerial bomb, -brennstoffgemisch, n. fuel-air mixture. [Pg.282]

Titanium is being employed in the bleaching industry where the good corrosion resistance of the material makes it particularly suitable for equipment in both textile and paper pulp bleaching processes. In the dye-stuffs industry, the inertness of titanium eliminates any products of corrosion which might cause discoloration of the products. A similar situation can also exist in areas like the plastics, pharmaceuticals, and food-stuffs industries. [Pg.875]


See other pages where Resist bleaching is mentioned: [Pg.147]    [Pg.556]    [Pg.281]    [Pg.91]    [Pg.147]    [Pg.556]    [Pg.281]    [Pg.91]    [Pg.275]    [Pg.486]    [Pg.383]    [Pg.528]    [Pg.18]    [Pg.95]    [Pg.320]    [Pg.456]    [Pg.247]    [Pg.248]    [Pg.276]    [Pg.5]    [Pg.440]    [Pg.443]    [Pg.444]    [Pg.445]    [Pg.445]    [Pg.445]    [Pg.348]    [Pg.155]    [Pg.302]    [Pg.417]    [Pg.293]    [Pg.1953]    [Pg.674]    [Pg.680]    [Pg.154]    [Pg.234]    [Pg.271]    [Pg.326]    [Pg.510]   
See also in sourсe #XX -- [ Pg.45 ]




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