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Low voltage

The scope of the directive covers the design, manufacture and conformity assessment of pressure equipment and assemblies with a maximum allowable pressure greater than 0,5 bar. A pressure equipment in the sense of the directive is any vessel, piping, safety accessory or pressure accessory. An assembly means several pieces of pressure equipment assembled by a manufacturer to constitute an integrated and functional whole. It is important to be aware that the directive relates exclusively to the pressure risk and that therefore other directives, such as for machinery, low voltage may be applicable to the equipment concerned. [Pg.941]

Certain types of equipment are specifically excluded from the scope of the directive. It is self-evident that equipment which is already regulated at Union level with respect to the pressure risk by other directives had to be excluded. That is the case with simple pressure vessels, transportable pressure equipment, aerosols and motor vehicles. Other equipment, such as carbonated drink containers or radiators and piping for hot water systems are excluded from the scope because of the limited risk involved. Also excluded are products which are subject to a minor pressure risk which are covered by the directives on machinery, lifts, low voltage, medical devices, gas appliances and on explosive atmospheres. A further and last group of exclusions refers to equipment which presents a significant pressure risk, but for which neither the free circulation aspect nor the safety aspect necessitated their inclusion. [Pg.941]

Marrian C R K, Perkins F K, Brandow S L, Koloski T S, Dobisz E A and Calvert J M 1994 Low voltage electron beam lithography in self-assembled ultrathin films with the scanning tunneling microscope Appi. Rhys. Lett. 64 390... [Pg.319]

LVSEM low-voltage scanning electron microscope MTF modulation transfer function... [Pg.1623]

The first corrected electron-optical SEM was developed by Zach [10]. Eor low-voltage SEM (LVSEM, down to 500 eV electron energy instead of the conventional energies of up to 30 keV) the spot size is extremely large without aberration correction. Combining and correction and a electrostatic objective lens, Zach showed that a substantial improvement in spot size and resolution is possible. The achievable resolution in a LVSEM is now of the order of 1-2 mn. More recently, Krivanek and colleagues succeeded in building a corrected STEM [53,M]. [Pg.1643]

Zach J 1989 Design of a high-resolution low-voltage scanning electron microscope Opf/k 83 30-40... [Pg.1650]

Threshold voltage. Batteries can only supply low voltages, so for portable appliances the switching voltage or tlireshold voltage must be sufficiently small. [Pg.2563]

These ion lasers are very inefficient, partly because energy is required first to ionize the atom and then to produce the population inversion. This inefficiency leads to a serious problem of heat dissipation, which is partly solved by using a plasma tube, in which a low-voltage high-current discharge is created in the Ar or Kr gas, made from beryllium oxide, BeO, which is an efficient heat conductor. Water cooling of the tube is also necessary. [Pg.354]

Building Wires. These wires conduct electricity at relatively low voltages (eg, 110 V and 220 V). Typically they contain a metallic conductor (copper or aluminum) that is insulated with polymeric compounds based on polyethylene or PVC which are appHed over a conductor using an extmder. [Pg.323]

Arc melting also can be used to consoHdate bars of metal that are pressed from powder or sponge and used as consumable electrodes in a low voltage, high current arc. The bar is suspended vertically and the molten metal falls from the bottom of the bar onto a water-cooled copper cmcible, from which it is removed as an ingot. [Pg.23]

DuPont—Dow is the primary suppHer of these polymers. There is an estimated 18,000 t of these elastomers used per year. The main uses of CPE are in constmction, automotive, and electrical appHcations. These include power steering hose, electrical cords used in low voltage appHcations (extension cords, ignition wire), pond liners, and as a plastic modifier to improve impact modification. [Pg.233]

See other pages where Low voltage is mentioned: [Pg.680]    [Pg.142]    [Pg.43]    [Pg.113]    [Pg.387]    [Pg.361]    [Pg.489]    [Pg.494]    [Pg.27]    [Pg.128]    [Pg.371]    [Pg.137]    [Pg.425]    [Pg.322]    [Pg.327]    [Pg.327]    [Pg.328]    [Pg.329]    [Pg.329]    [Pg.400]    [Pg.199]    [Pg.433]    [Pg.492]    [Pg.136]    [Pg.151]    [Pg.405]    [Pg.167]    [Pg.437]    [Pg.97]    [Pg.448]    [Pg.449]    [Pg.44]    [Pg.354]    [Pg.355]    [Pg.215]    [Pg.344]    [Pg.522]    [Pg.121]    [Pg.172]    [Pg.542]   
See also in sourсe #XX -- [ Pg.61 ]



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Electro-Osmotic Dewatering at Low Applied Voltages

Equipment for low and high voltage paper electrophoresis

Extra low voltage

Large Low Voltage Capacitors

Low and high voltage afm for nanodomain reversal in fe bulk crystals

Low voltage SEM

Low voltage SEM (LVSEM

Low voltage cells

Low voltage electric field

Low voltage energy distribution systems

Low voltage operation

Low voltage transmission electron

Low voltage-heated

Low-Voltage Distribution System

Low-voltage actuator

Low-voltage electron impact

Low-voltage heating

Low-voltage mass

Low-voltage mass spectra

Low-voltage scanning electron microscopes

Low-voltage scanning electron microscopy (LVSEM

Low-voltage, high resolution SEM

Low-voltage, high-resolution

Protective extra low voltage ,

Reactive low voltage ion plating

Reduced low voltage systems

Safety extra-low voltage

Standard and Low-Voltage EB Processors for a 48 In. Wide Web

Ultra-high resolution low-voltage field

Ultra-high resolution low-voltage field emission scanning electron

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