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Polypropylene linings

Carbon steel Sch. 40 Fiberglass reinforced polyester Fiberglass reinforced vinylester Glass pipe Aluminum Sch. 40 304 stainless steel Sch. 5 Saran-lined steel Polypropylene- lined steel Rubber-linedsteel Sch. 40 316 stainless steel Sch. 5 304 stainless steel Sch. 40 Kynar-Ifned steel 316 stainless steel Sch. 40 Alloy 20 Sch. 5 FEP Teflon-lined steel PFA Teflon-lined steel Armored-glass pipe PTFE Teflon-lined steel Monel 400 Sch. 5 Nickel 200 Sch. 5 Alloy 20 Sch. 40 Monel 400 Sch. 40 Inconel 600 Sch. 5 Titanium Sch. 5 Nickel 200 Sch. 40 Titanium Sch. 40 Inconel 600 Sch. 40 Glass-lined steel Sch. 40 Hastelloy C-276 Sch. 5 Zirconium Sch. 5 Hastelloy B Sch. 5 Zirconium Sch. 40 Hastelloy C-276 Sch. 40 Hastelloy B Sch. 40 Tantalum-lined steel Sch. 5 Tantalum-lined steel Sch. 40... [Pg.1012]

Agent and energetics piping, column, and packing to be 304L stainless steel pumps to be polypropylene-lined carbon steel. [Pg.82]

Lithium tetrafluoroborate, LiBF4, is prepared by dissolving LiF in AHF and then BF3 gas is passed until precipitation is complete. After the reaction is over, excess HF is decanted and LiBF4 is dried under nitrogen until HF and H20 contents are reduced below 100 ppm level. Reaction is carried out in Teflon , polyethylene or polypropylene lined reactors to avoid metallic contamination. [Pg.667]

Carbon steel Sch. 40 Fiberglass reinforced polyester Fiberglass reinforced vinylester Glass pipe Aluminum Sch. 40 304 stainless steel Sch. 5 Saran-lined steel Polypropylene- lined steel Rubber-lined steel Sch. 40 316 stainless steel Sch. 5 304 stainless steel Sch. 40 Kynar-llned steel 316 stainless steel Sch. 40... [Pg.835]

It is clear that a non-metallic construction would be favoured. A number of non-metallic contenders existed. GRP was not favoured originally because problems had arisen at an earlier installation in which it was used (but see paragraph 24.3.3 below). Similarly extruded PVC pipe was quickly eliminated. Polypropylene lined GRP was rejected because of uncertainty at the time about its manufacture and performance. This left the polyolefins as the strongest contender, and high-density polyethylene (HOPE) and polypropylene (PP) were compared. HOPE was eventually favoured for the following reasons... [Pg.272]

The mineral liner material for this study was obtained from a landfill site in Northumberland, UK, where there is glacial till to a depth of approximately 10 m. The columns, (polypropylene lined steel pipes, 200 x250 mm), were pushed by a JCB, into the base of a cell that was being prepared for landfilling, and carefully dug out. The samples were therefore as undisturbed as possible and at field compaction and moisture levels. [Pg.160]

Folding cartons—for snack foods, carryout fast food, cake mixes, margarine, candy, bakery products, and pet foods. A repellent treatment with a fluorinated surfactant prevents fat and grease from seeping into the edges of stamped-out polyethylene- or polypropylene-lined cartons. [Pg.371]

Aqueous solutions of 50% acrylamide should be kept between 15.5 and 38°C with a maximum of 49°C. Below 14.5°C acrylamide crystallizes from solution and separates from the inhibitor. Above 50°C the rate of polymer buildup becomes significant. Suitable materials of constmction for containers include stainless steel (304 and 316) and steel lined with plastic resin (polypropylene, phenoHc, or epoxy). Avoid contact with copper, aluminum, their alloys, or ordinary iron and steel. [Pg.136]

Formic acid is commonly shipped in road or raH tankers or dmms. For storage of the 85% acid at lower temperatures, containers of stainless steel (ASTM grades 304, 316, or 321), high density polyethylene, polypropylene, or mbber-lined carbon steels can be used (34). For higher concentrations. Austenitic stainless steels (ASTM 316) are recommended. [Pg.504]

The uses of spunbonded fabrics as coverstock in diapers and other personal absorbent devices will most likely remain unchallenged for the near term. Virtually any other nonwoven production method appears to be at a cost disadvantage opposite spunbonded polypropylene. There have been composite products developed from meltblown and spunbonded combinations, where areas of either improved hydrophobicity or hydrophilicity are desired. These products can be produced on-line at relatively low additional cost and offer high value to diaper manufacturers. Any competitive threat is likely to come from advances in film technology such as large improvements in perforated film used in segments of absorbent product appHcations, particularly sanitary napkins. [Pg.173]

Standard 0.25 or 0.50 lb (227 g) tin coated cans are used for packaging Hquid with neutral and mildly alkaline base formulas polypropylene is used for acid—base removers. Steel and polypropylene dmms are used for industrial removers. Viscous removers are packaged in removable top containers. Dry caustic removers are packaged in bag-lined boxes or fiber dmms. [Pg.553]

Liquid polyalurninum chloride is acidic and corrosive to common metals. Suitable materials for constmction of storage and handling facilities include synthetic mbber-lined steel, corrosion resistant fiber glass reinforced plastics (FRP), ceramics, tetrafluoroethylene polymer (PTFE), poly(vinyhdene fluoride) (PVDF), polyethylene, polypropylene, and poly(vinyl chloride) (PVG). Suitable shipping containers include mbber-lined tank tmcks and rail cars for bulk shipment and plastic-lined or aH-plastic dmms and tote bins for smaller quantities. Except for aluminum chlorohydrates, PAG products are shipped as hazardous substances because of their acidity. [Pg.180]

Typical substrates for siUcone release coatings are supercalendered kraft paper, glassines, and thermally sensitive films such as polyethylene and polypropylene. Ideal curing conditions are 150°C or lower, and line speeds are as fast as 460 m /min. Key properties for release coatings are cure speed, integrity of cure, and stable release values. [Pg.58]

Most metals, concrete, and other constmction materials are corroded by hydrobromic acid. Suitable materials of constmction include some fiber glass-reinforced plastics, some chemically resistant mbbers, PVC, Teflon, polypropylene, and ceramic-, mbber-, and glass-lined steel. Metals that are used include HasteUoy B, HasteUoy C, tantalum, and titanium. The HasteUoys can only be used at ambient temperatures. Liquid hydrogen bromide under pressure in glass at or above room temperature can attack the glass resulting in unexpected shattering. [Pg.291]

Nonmetallic equipment normally is not used for ethyleneamine service. Ethyleneamines can permeate polyethylene and polypropylene, even at ambient temperature. However, certain grades of these materials may be acceptable in some storage appHcations. Baked phenolic-lined carbon steel is acceptable for storage of many pure ethyleneamines, except EDA. [Pg.46]

Hydrofluoric acid [7664-39-3] M 20.0, b 112.2"(aq azeotrope, 38.2% HF), d 1.15 (47-53% HF), pK 3.21. Freed from lead (Pb ca 0.002ppm) by co-precipitation with Srp2, by addition of lOmL of 10% SrCl2 soln per kilogram of the cone acid. After the ppte has settled, the supernatant is decanted through a filter in a hard-rubber or paraffin lined-glass vessel [Rosenqvist Am J Sci 240 358 1942. Pure aqueous HF solutions (up to 25M) can be prepared by isothermal distn in polyethylene, polypropylene or platinum apparatus [Kwestroo and Visser Analyst 90 297 7965]. HIGHLY TOXIC. [Pg.429]

Figure 1 shows part of a solvent phase polypropylene plant. The plant consists of three process lines, denoted A, B, and C. During a risk assessment review, a scenario was identified that involved a release of reactor contents from a location near the west end of the A line. Estimates are needed of the blast overpressures that would occur if the resulting cloud of vapor, mist, and power ignites. [Pg.365]

Figure 4 The effect of stabilizer concentration on the induction period of polypropylene thermal oxidative breakdown (temperature 200°C P02 = 300 Tor). 1-polyamineani-line disulfide 2-polydiiminodiphenyloxide disulfide 3-polythiosemicarbazide disulfide 4-Santanox 5-hydroru-beanic polydisulfide 6-thiocarbamidepoly disulfide 7-po-lydisulfide. Figure 4 The effect of stabilizer concentration on the induction period of polypropylene thermal oxidative breakdown (temperature 200°C P02 = 300 Tor). 1-polyamineani-line disulfide 2-polydiiminodiphenyloxide disulfide 3-polythiosemicarbazide disulfide 4-Santanox 5-hydroru-beanic polydisulfide 6-thiocarbamidepoly disulfide 7-po-lydisulfide.
FIGURE 20.12 (a) Top part shows variations of elastic modulus profile measured in different locations of the polypropylene (PP)-ethylene-propylene-diene terpolymer (EPDM) blend. The locations are shown by white dots in the blend phase image placed at the bottom. Vertical white dashed lines show the components borders and the elastic modulus value for this location. Vertical black dotted lines indicate the locations where elastic modulus E gradually changes between PP (E ) and EPDM (E )- These values are indicated with black arrows on the E axis, (b) LvP curves for PP-matrix, EPDM-domains, and one of interface locations. The approach curves are seen as solid black lines and the retract curves as gray lines. [Pg.570]

See other pages where Polypropylene linings is mentioned: [Pg.133]    [Pg.162]    [Pg.688]    [Pg.81]    [Pg.15]    [Pg.133]    [Pg.162]    [Pg.688]    [Pg.81]    [Pg.15]    [Pg.515]    [Pg.317]    [Pg.403]    [Pg.165]    [Pg.178]    [Pg.9]    [Pg.471]    [Pg.979]    [Pg.42]    [Pg.149]    [Pg.121]    [Pg.263]    [Pg.357]    [Pg.740]    [Pg.383]    [Pg.479]    [Pg.209]    [Pg.154]    [Pg.182]    [Pg.279]    [Pg.470]    [Pg.329]    [Pg.572]    [Pg.1057]    [Pg.142]   
See also in sourсe #XX -- [ Pg.35 , Pg.36 , Pg.37 ]



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