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Steel tube

ELECTROMAGNETIC MONITORING OF MICROSTRUCTURE AND MECHANICAL PROPERTIES FOR COLD-ROLLED 12Kh2MFSR STEEL TUBE by V.A.Burganova, L.V. Kochman, V.A. Kuz mina and L.P. Chukanova, Vol.10, No. 4, 1974, pp. 432 -437... [Pg.28]

The techmque was first employed, in real-world conditions, for monitoring external corrosion in the large diameter steel tubing used for oil well casings. In the late fifties, T.R. Schmidt at Shell Developments, pioneered the technique in those demanding applications, although the technique itself was invented, by W.R. MacLean, (Ref. 1) somewhat earlier. T.R Schmidt has written a history (Ref. 2) of much of the early work in the technology, which contains many references, others which may be of interest are held on the NTIAC database (Ref 3). [Pg.319]

The figures show typical signals obtained from an ID inspection of non-ferromagnetic tubing with artificial flaws, Figure 1, and actual results on steel tubing. Figure 2. [Pg.319]

A typical mild steel tube has a skin depth of approximately 2mm at 300Hz. [Pg.321]

Most recovery boilers use 63,5 mm OD carbon steel tubes in the generating bank. With a few exceptions these tubes are swaged at the ends to 50,8 mm. When the 63,5 mm raw tube is manufactured it is subject to a lot of specifications i.e. ASME. There are no specifications for the swaged end of the tube. This is unfortunate as the swaged part of the tube is subjected to further mechanical deformation dtuing the rolling procedure and is located in a wastage zone of tire recovery boiler. [Pg.1034]

A particularly insidious failure mechanism that is commonly found in carbon-steel tubing is under-deposit corrosion. In many cases, corrosion products fomi a scab that can mask the presence of the pitting, making it difficult to quantitatively assess using conventional NDT methods. However, by combining proper cleaning procedures with laser-based inspection methods, the internal surface of the tubing can be accurately characterized and the presence of under-deposit corrosion can be confirmed and quantified. [Pg.1064]

A sehematie diagram of a SIFT apparatus is shown in figure Bl.7.12. The instrument eonsists of five basie regions, the ion soiiree, initial quadnipole mass filter, flow tube, seeond mass filter and finally the deteetor. The heart of the instrument is the flow tube, whieh is a steel tube approximately 1 m long and 10 em in diameter. The pressure in the flow tube is kept of the order of 0.5 Torr, resulting in earrier gas flow rates of... [Pg.1344]

Inasmuch as the gas hydroly2es readily, all equipment should be purged repeatedly using inert dry gas before admitting boron trifluoride. Under anhydrous conditions, carbon steel equipment is satisfactory. Stainless steel and aluminum siUcon bron2e may also be used. Stainless steel tubing is recommended for both temporary and permanent connections. [Pg.161]

The food industry uses stainless steel tubing or piping extensively for moving food products conventional steel, cast iron, copper, plastic, glass (qv), aluminum, and other alloys are used for utilities. [Pg.361]

The vertical tube (water-cooled) generator consists of two concentric tubes the outer of which is cooled with water and acts as the ground electrode. Feed gas is introduced into the top of the inner stainless steel tube (which serves as the high voltage electrode), exits at the bottom of the outer tube, flows upward through the aimular space (which contains the electric discharge), and emerges at the top of the outer tube into a product gas manifold. [Pg.500]

Fig. 5. Plots of pump-down performance for pumps operating on 0.1-m-dia x 0.43-m-long stainless-steel tubing. Curves 1—4 are sputter-ion pumps of different makes curve 5 is Orbitron type and curve 6, LN-trapped oil DP. Pressure is measured using Bayard-Alpert gauge (BAG) (26). To convert Pa to... Fig. 5. Plots of pump-down performance for pumps operating on 0.1-m-dia x 0.43-m-long stainless-steel tubing. Curves 1—4 are sputter-ion pumps of different makes curve 5 is Orbitron type and curve 6, LN-trapped oil DP. Pressure is measured using Bayard-Alpert gauge (BAG) (26). To convert Pa to...
Galvanic corrosion can be controlled by the use of sacrificial anodes. This is a common method of controlling corrosion in heat exchangers with Admiralty tube bundles and carbon steel tube sheets and channel heads. The anodes are bolted direcdy to the steel and protect a limited area around the anode. Proper placement of sacrificial anodes is a precise science. [Pg.267]

The interior surface of the stainless steel tubing is usually poHshed to allow the particles to pack efficiently. An important consideration is uniformity of the... [Pg.109]

Nitroanthraquinone is prepared from anthraquinone by nitration in sulfuric acid (11), or in organic solvent (12). Nitration in nitric acid is dangerous. The mixture of anthraquinone and nitric acid forms a Sprengel mixture (13,14) which may detonate. However, detonation can be prevented by a dding an inert third component such as sulfuric acid. Experimental results of the steel-tube detonation tests for the anthraquinone—HNO2—H2SO4 system have been pubUshed (13). [Pg.310]

I Sometimes used for copper plate and for steel plate 12 gauge and heavier and for steel tubes. [Pg.41]

Flexible Metal Hose Deeply corrugated thin brass, bronze, Monel, aluminum, and steel tubes are covered with flexible braided-wire jackets to form flexible metal hose. Both tube and braid are brazed or welded to pipe-thread, union, or flanged ends. Failures are often the result of corrosion of the braided-wire jacket or of a poor... [Pg.974]

Half-inch copper tubing is commonly used for steam tracing. Three-eighths-inch tubing is also used, but the effective circuit length is then decreased from 150 feet to about 60 feet. In some corrosive environments, stainless steel tubing is used, and occasionally standard carbon steel pipe (one half inch to one inch) is used as the tracer. [Pg.1013]

Manufacturing tolerances for steel, stainless-steel, and nickel-alloy tubes are such that the tubing is produced to either average or minimum wall thickness. Seamless carbon steel tube of minimum wall thickness may vaiy from 0 to 20 percent above the nominal wall thickness. Average-wall seamless tubing has an allowable variation of plus or minus 10 percent. Welded carbon steel tube is produced to closer tolerances (0 to plus 18 percent on minimum wall plus or minus 9 percent on average wall). Tubing of aluminum, copper, and their alloys can be drawn easily and usually is made to minimum wall specifications. [Pg.1070]

When austenitic stainless-steel tubes are used for corrosion resistance, a close fit between the tube and the tube hole is recommended in order to minimize work hardening and the resulting loss of corrosion resistance. [Pg.1074]

Base Bare-tuhe external surface 1 in. o.d. hy 12 B.W.G. hy 24 ft. 0 in. steel tube with 8 aluminum fins per inch V -in. high. Steel headers. 150 lh./sq. in. design pressure. V-helt drive and explosion-proof motor. Bare-tuhe surface 0.262 sq. ft./ft. Fin-tuhe surface/hare-tuhe surface ratio is 16.9. [Pg.1081]

Tubular Tubular membranes (Fig. 22-51) are supported by a pressure vessel, iisiiallv perForated or porous. It can be as simple as a wrapped nonw oven Fabric, or as robust as a stainless-steel tube. All rim with tube-side Feed. Thev are rnainlv used For UF, with some RO applications, particularly For Food and daiiw. The primary diameters available are 12 and 25 mm. Tubes are oFten connected in series parallel bundles, gasketed or potted, are also common. [Pg.2026]

Figure 2.9 Severely attacked crevice between rolled brass heat exchanger tube and mild steel tube sheet. Figure 2.9 Severely attacked crevice between rolled brass heat exchanger tube and mild steel tube sheet.
See other pages where Steel tube is mentioned: [Pg.325]    [Pg.870]    [Pg.197]    [Pg.568]    [Pg.301]    [Pg.491]    [Pg.348]    [Pg.412]    [Pg.221]    [Pg.153]    [Pg.430]    [Pg.461]    [Pg.320]    [Pg.240]    [Pg.356]    [Pg.14]    [Pg.194]    [Pg.223]    [Pg.499]    [Pg.499]    [Pg.169]    [Pg.188]    [Pg.327]    [Pg.455]    [Pg.978]    [Pg.1045]    [Pg.2008]    [Pg.2009]   
See also in sourсe #XX -- [ Pg.168 ]



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