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Alloy lead-tin

Fig. 3.1. The phase diagram for the lead-tin alloy system. There ore three phases L - a liquid solution of lead and tin (Pb) - a solid solution of tin in lead and (Sn) - o solid solution of lead in tin. The diagram is divided up into six fields - three of them are single-phase, and three ore two-phose. Fig. 3.1. The phase diagram for the lead-tin alloy system. There ore three phases L - a liquid solution of lead and tin (Pb) - a solid solution of tin in lead and (Sn) - o solid solution of lead in tin. The diagram is divided up into six fields - three of them are single-phase, and three ore two-phose.
Fig 3 3 Diagrams showing how you can find the equilibrium constitution of any lead-tin alloy at 200°C. Once you have had a little practice you will be able to write down constitutions directly from the phase diagram without bothering about diagrams like (b) or ( ). [Pg.29]

A lead-tin alloy with composition Wpp = 80% is held at a temperature T. [Pg.340]

Figure A1.29 shows the cooling of a lead-tin alloy with Xp = 80%. On cooling from 350°C the following regimes appear. Figure A1.29 shows the cooling of a lead-tin alloy with Xp = 80%. On cooling from 350°C the following regimes appear.
Time-weighted average (TWA), 74 215 concentration, 25 372 exposure limit, for tantalum, 24 334 Time-Zero SX-70 film, 79 303, 305-307 Tin (Sn). See Lead-antimony-tin alloys Lead- calcium-tin alloys Lead-lithium-tin alloys Lead-tin alloys, 24 782-800. See also Tin alloys Tin compounds allotropes of, 24 786 analytical methods for, 24 790-792 in antimony alloys, 3 52t atomic structure of, 22 232 in barium alloys, 3 344, 4 12t bismuth recovery from concentrates, 4 5-6... [Pg.950]

Lead, Tin, and Lead-Tin Alloys. Shall not be used in hydrogen service. [Pg.38]

Individually indexed alloys or intermetallic compounds are Aluminium amalgam, 0051 Aluminium-copper-zinc alloy, 0050 Aluminium-lanthanum-nickel alloy, 0080 Aluminium-lithium alloy, 0052 Aluminium-magnesium alloy, 0053 Aluminium-nickel alloys, 0055 Aluminium-titanium alloys, 0056 Copper-zinc alloys, 4268 Ferromanganese, 4389 Ferrotitanium, 4391 Lanthanum-nickel alloy, 4678 Lead-tin alloys, 4883 Lead-zirconium alloys, 4884 Lithium-magnesium alloy, 4681 Lithium-tin alloys, 4682 Plutonium bismuthide, 0231 Potassium antimonide, 4673 Potassium-sodium alloy, 4646 Silicon-zirconium alloys, 4910... [Pg.51]

Chronopotentiometry. Paunovic and Oechslin (8) measured the adsorption of peptone on lead-tin alloy electrodes using chronopotentiometric and double-layer measurements. This case is different from the adsorption of HCOOH because peptone is not an electroactive species in the conditions smdied but only blocks the surface used for the electrodeposition of lead-tin alloys from solutions containing Sn and Pb ions. Chronopotentiometric analysis is based on the following principles (7). In the absence of adsorption, the relationship between the transition time r (for reduction of Sn and Pb in this case), the bulk concentration c° of the substance reacting at the electrode, and the current I is given by the equation... [Pg.186]

Electrodeposition of lead-tin alloy films is usually performed in the presence of peptone as an additive. Peptone is adsorbed on the metal surface during the electrodeposition process. The fractional surface coverage Q of the lead-tin electrode may be determined from the double-layer capacitance C measurements, and/or chronopotentiometric measurements. For a solution containing 9.0 g/L of tin and 13.0 g/L of lead, the following relationship between the concentration of peptone, the double-layer capacitance C, and the transition time At is observed (8). [Pg.198]

Lead—tin alloys, 4877 Lead—zirconium alloys, 4878 Lithium—magnesium alloy, 4676 Lithium—tin alloys, 4677 Plutonium bismuthide, 0231 Potassium antimonide, 4668 Potassium—sodium alloy, 4641 Silicon—zirconium alloys, 4904 Silver—aluminium alloy, 0002 Silvered copper, 0003 Sodium germanide, 4412 Sodium—antimony alloy, 4791 Sodium—zinc alloy, 4792 Titanium—zirconium alloys, 4915... [Pg.2238]

Several of the low-temperature superconducting metals, such as lead, brass, and some solders (particularly lead-tin alloys), experience property changes when they become superconducting. Such changes can include specific heat, thermal conductivity, electrical resistance, magnetic permeability, and thermoelectric resistance. Consequently, the use of these superconducting metals in the construction of equipment for low-temperature operation must be evaluated carefully. [Pg.174]

A development program is underway at the ICPP to examine methods of treating WCF calcine some methods retain the granular nature of the WCF product while others convert it to a more massive form. Methods of treatment include (1) conversion to a cermet by the incorporation of the calcine in a metal matrix such as aluminum or lead-tin alloy (2) conversion to a ceramic by the addition of a ceramic material such as clay and sintering (3) incorpoartion into a concrete by the addition of binders or cement and (4) coating of the calcine particles with pyrolytic carbon, glazes, metals, etc. [Pg.47]

See other pages where Alloy lead-tin is mentioned: [Pg.158]    [Pg.232]    [Pg.357]    [Pg.61]    [Pg.160]    [Pg.17]    [Pg.28]    [Pg.36]    [Pg.331]    [Pg.546]    [Pg.547]    [Pg.1892]    [Pg.193]    [Pg.227]    [Pg.516]    [Pg.864]    [Pg.282]    [Pg.521]    [Pg.522]    [Pg.815]    [Pg.357]    [Pg.1482]    [Pg.160]    [Pg.164]    [Pg.20]    [Pg.1980]    [Pg.2105]    [Pg.1892]    [Pg.306]    [Pg.148]    [Pg.1213]    [Pg.1892]   
See also in sourсe #XX -- [ Pg.12 , Pg.26 , Pg.34 , Pg.326 ]

See also in sourсe #XX -- [ Pg.199 ]



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