din classification

Illustration    Item    Description
DIN 432     DIN 432     Tab Washer
DIN 433     DIN 433     Small O.D. Flat washer
DIN 434     DIN 434     Square beveled washer
DIN 436     DIN 436     Square washer
DIN 438     DIN 438     Slotted cup pt. set screw
DIN 439B     DIN 85A     Hex jam nut
DIN 440     DIN 440     Flat Washer
DIN 444A     DIN 444A     Eye bolt
DIN 444B     DIN 444B     Eye bolt
DIN 462     DIN 462     Internal tab washer
DIN 463     DIN 463     External tab washer
DIN 464     DIN 464     Knurled thumb screw
DIN 466     DIN 466     Knurled nut
DIN 467     DIN 467     Thin knurled nut
DIN 470     DIN 470     Sealing washer
DIN 471     DIN 471     External retaining ring
DIN 472     DIN 472     Internal retaining ring
DIN 529C     DIN 529C     Anchor Bolt
DIN 551     DIN 551     Slotted flat point set screw
DIN 553     DIN 553     Slotted cone point set screw
   
Illustration    Item    Description
DIN 553     DIN 553     Slotted cone point set screw
DIN 555     DIN 555     Thick hex nut
DIN 557     DIN 557     Flange Nut
DIN 561     DIN 561     Hex head set screw
DIN 562     DIN 562     Square nut
DIN 580     DIN 580     Stud type lifting eye
DIN 582     DIN 582     Tapped eye lifting eye
DIN 603     DIN 603     Carriage bolt
DIN 603Mu     DIN 603Mu     Carriage bolt w/nut
Type 610     Type 610     Ensat manual insertion tool
Type 620     Type 620     Ensat automatic insertion tool
DIN 653     DIN 653     Knurled thumb screw
DIN 705A     DIN 705A     Set collar
WN 791     WN 791     Ribbed lock washer
WN 792     WN 792     Ribbed lock washer
DIN 835Fo     DIN 835Fo     Double ended threaded stud
DIN 906     DIN 906     Socket pipe plug
DIN 908     DIN 908     Socket Pipe plug
DIN 910     DIN 910     Hex pipe plug
 
www.deepri.com
--
Divyang A. Pandya

Neutral Bar Assembly

A system of components which can be grouped into sets for assembly in various configurations to provide electrical neutral bar assemblies of different shapes and having different numbers of neutral-wire-receiving openings. The system, which is particularly suitable for use with neutral wires of relatively large ampacity, includes a plurality of insulating bases, a plurality of neutral bars of different lengths, and an interconnecting plate. One or more of the bases and one or more of the neutral bars with or without the interconnecting plate are arranged to be secured together in different configurations by bolts.

Copper Enhances Communications

Copper and its alloys have played a critical role in electronics since the first electron tubes were created early in this century. In spite of the inevitable dominance of semiconductors, some $2 billion worth of tubes are still manufactured worldwide yearly, according to Edward J. Richardson, CEO of Richardson Electronics, Ltd., LaFox, Illinois, a major manufacturer and distributor of tubes.

Tubes still perform uniquely or better than semiconductors in several applications:

• Induction-heating and microwave ovens are still mostly powered by magnetrons made using copper alloys.
• Rectifier tubes made with copper alloys survive overloads better than semiconductor rectifiers.
• Most large TVs and desktop computer monitors still depend on cathode ray tube (CRT) displays, which use copper alloys in their electron guns and screen masks. Portable TVs and computers use various solid-state displays.
• Broadcasting, where some tubes are the size of jeroboams of champagne. Very-high and ultra high frequency communications still depend on tubes made of copper and its alloys.
• Since radar was invented in the late 1930's, it has been powered by klystrons and magnetrons largely made of copper alloys. Varian Associates, one of the major sources for such tubes, recently sold its tube business to Communications & Power Industries (CPI), also in Palo Alto, California.
• The VHF and UHF signals generated by the tubes are conducted to the antennas that broadcast them by hollow conduits called wave-guides and by couplers - both of which are often made of copper and its alloys.

"At high frequencies, copper is 30% to 40% more efficient than aluminum in wave-guides." That's according to G. Scott Ackland, manager of engineering services for Antek in Frederick, Maryland. Its wave-guides conduct the UHF frequency signals inside satellite earth stations. "We rarely use any material other than oxygen-free, high-conductivity (OFHC) copper. Sometimes we fabricated with bronze because that's what the military specifies," says Ackland. Besides its higher Antek because it's easier to fabricate. Kevlin Microwave Corporation also uses OFHC copper for the central conductor in radars, according to John Rice, sales manager for the Wilmington, Massachusetts-based manufacturer. The coupler is the component that conduits the signal from the fixed wave-guide to the rotating board or ground-based radar.

The vast majority of electron tubes are now made outside the U.S., mostly in the Far East. The inexpensive magnetrons that power microwave ovens are all made in South Korea, which is also a major source for CRTs used in TVs and desktop PCs.

Bronzes: Copper Alloys that Counter Friction

Cast and sintered bronzes perform an important anti-friction function in millions of American homes, automobiles and trucks, and in virtually all heavy industrial equipment. A familiar example is the common kitchen food processor. These machines use bronze bearings to smooth the motion of their whirling blades. (See photo at left.)

For centuries, bronzes have played a major role in combating friction. And bronze bearings continue to hold their own, in spite of long-time competition from ball, sleeve and roller bearings made of steel - and even those bearings may require bronze retainer rings.

Until early in the Industrial Revolution, bearings for vehicles and mechanical equipment were made of hardwoods. As more massive and faster-moving machinery was created, a stronger, longer-lasting bearing material was needed. Various bronze alloys were developed and are now used to make bearings in enormous variety for equipment from giant earth movers to kitchen blenders.

There are two basic ways to make bronze bearings: casting and sintering. Basic forms include: cylindrical sleeves or flanges; flat, donut-shaped thrust bearings; or disk-shaped bearing plates. Solid cast bearings are made from a variety of bronzes. For very demanding applications, William E. Austerberry, vice president of the National Bronze Mfg. Co., Detroit, recommends C95400, which contains 10% to 11.5% aluminum. This tough bronze has a tensile strength of 100,000 psi, nearly that of steel. It is also acid resistant. Although C95400 is very hard, hardened steel is slightly harder, so that the bronze is sacrificed, or worn, first. Parts that are either costly or difficult to replace are protected by these comparatively inexpensive bronze bearings which are expected to wear out over time and to be replaced periodically.

For less demanding applications, less costly C93200 is commonly specified. For applications involving high loads but low speeds, C90300, a tin bronze, referred to historically as Navy G, is recommended. "This strong material can stand repeated pounding," says Austerberry.

If corrosive salt water is present, then C92200, a medium-strength, free machining bronze that offers good brazing qualities, is the alloy of choice. Salt water will not corrode it. Where lubrication is doubtful, designers usually specify C93700, a general purpose bronze that offers low friction. It has good bearing qualities and can resist mildly corrosive acids, according to Austerberry.

C94500 is specified where lubrication may fail altogether; it contains 20% lead. Because it has a Brinell hardness of only 50, compared to 175 for high-strength C95400, it provides excellent conformity that corrects for minor misalignments.

Variety of Lubricants

Solid-cast bearings and bushings are often grooved by machining so can retain the lubricants needed at the surface bearing the load (See photo). The grooving varies depending on the shape of the bearing and the load conditions. Grooves are either circular, straight, looped, or in the shape of figure eights or double figure eights. The lubricants are either graphites pressed into the grooves under great pressure or mineral or petroleum-based oils flowing continuously. Graphite lubricants will usually last for the life of bearings.

When Sintered Is Superior

A variety of powders are compacted with bronze into sintered bearings, according to Dr. Vyacheslava Styskin, head metallurgist for the Wakefield Corporation, Wakefield, Massachusetts. There are even sintered bearings made entirely of iron. 'Although sintered iron bearings are stronger than all bronze bearings, the latter are superior for high-rotation-speed applications, such as in machine tools," according to Lee Sacks, general manager of Maryland Metrics, Baltimore. All the bearings from this vendor are made in metric rather than conventional sizes for manufacturers who export machinery or who use metric based machinery.

Sintered bearings don't require grooving because the lubricant is absorbed into the pores between the sintered groups of powder by vacuum impregnation or hours long immersion in hot oil. In general sintered bearings are used in lighter, shorter-product-life applications, such as desktop computer printers. Some sintered bearings are used dry in light-duty applications, according to Austerberry.

Lower-cost bimetal bearings with thin layers of bronze at the wearing surface are generally specified by cost-conscious engineers, such as those who design mass-produced items like auto engines, says Austerberry.

In Ball Bearings, Too

Low-friction ball and roller bearings with their many steel parts are more expensive than bronze bearings. Nevertheless, bronze plays an essential role in larger, heavy-duty ball or roller bearings; the retainer rings that hold the balls or rollers in position a-re made of bronze.

According to John Williamson, a salesperson with the Frank Tracy Company, New York, a major distributor of many brands of bearings, bronze is specified over steel for retainers because of its superior thermal characteristics in high heat environments.

National Bronze obtains its bronzes from a variety of sources, including Ampco, Bunting and Concast Metal Products. In addition to finished bearings, National Bronze also sells bar stock to a very small number of customers who make their own bearings.

High Strength Copper Alloys Boost Injection Molding

Higher production rates are making copper alloys, which transfer heat rapidly, the materials of choice for many injection and blow molds for plastics. In molding, there's a major economic advantage to rapid removal of heat from the molten plastic: it raises production rates and reduces part defects. This more than compensates for the slightly higher cost of copper alloys - a difference likely to add no more than five percent to the total cost of the mold tool.

Besides cutting costs, high thermal-conductivity copper alloys offer these advantages in molding:

• More uniform heating.
• In some instances, tight dimensional specifications in large, complicated plastic parts can be achieved only if the parts are made in copper-alloy molds.
• Improved esthetics because fewer "sink marks" and other defects are created. As a result, lower injection and pack pressures can be used, saving material.
• Large plastic parts cast in copper-alloy molds exhibit much less warping; the excessive warping associated with parts made in steel molds can make it difficult to assemble large parts into systems.

In molding, copper alloys are replacing the commonly used mold steels, such as Type 420 stainless steel, because they have thermal conductivity three to nine times higher. Yet, the alloys are hard enough to meet the wear requirements of manufacturers aiming for high production rates of injection molded parts.

For instance, "high hardness copper beryllium, C17200, has a Rockwell hardness of C41, approaching that of steels. Wear resistance is often associated with hardness in the toolmakers' mind. Copper alloy have been shown to provide hundreds of thousands of production cycles.

Because wear resistance is more of a surface hardness phenomenon, a number of coating systems provide hard surfaces which extend the life of copper alloy molds - giving the best of both worlds: excellent heat transfer and good wear resistance.

The copper alloys, which include the nickel-silicon chromium-hardened high strength, high-conductivity alloy, C18000, developed by Ampco Metals, are commonly used in the creation of very large components by injection molding.

A copper be beryllium alloy used to make the molds for injection molding of the polypropylene bumpers for Renault in France was supplied by Brush Wellman, according to sales manager J. Scott Smyers. A number of U.S. suppliers are producing and stocking the copper berylliums and the C18000 alloy in both rod and heavy plate forms.

Molds often include a core to shape the parts and to speed cooling. Cast C82500 copper beryllium is an option for these cores. Sometimes, copper cores are used with steel molds, according to Truman Moore, president of TriCast Corporation, Crystal Lake, Illinois, which fabricates copper-alloy molds and their parts by a liquid casting process.

An industry task force under the auspices of the Copper Development Association has been introducing this array of advantageous alloys to the plastics industry for the past two years at trade shows, technical symposiums and at manufacturing sites throughout the U.S.

Wedges, lifters and slides are other required parts for molds. They are often made of aluminum bronze alloys C61900 and C62500. Pins and cores are often fabricated from nickel-silicon-hardened alloy, C64700.

Forms of Copper

Copper is shipped to fabricators mainly as cathode, wire rod, billet, cake (slab), or ingot. Through extrusion, drawing, rolling, forging, melting, electrolysis, or atomization, fabricators can form wire, rod, tube, sheet, plate, strip, castings, powder, and other shapes. These copper and copper-alloys are then shipped to manufacturing plants that make products to meet society's needs.

Specific Properties of Copper

• Chemical Symbol: Cu
• Atomic Number: 29
• Atomic Weight: 63.54
• Density: 8960 kg m(-3)
• Melting Point: 1356K
• Specific Heat at 293K: 0.383kJkg(-1)K(-1)
• Thermal Conductivity: 394W m(-1) K(-1)
• Electrical Conductivity (%International Annealed Copper Standard): 100%
• Electrical Resistivity: 1.673x10(-8) ohm-m
• Crystal Structure: Face Centered Cubic

Physical Properties of Copper

• Malleable and Ductile
• Excellent Electrical Conductor
• Excellent Alloying Characteristics
• Non-Magnetic
• Essential Nutrient to Life
• Resistant to Corrosion
• Machinable
• Formable
• Excellent Heat Transfer Characteristics
• Durable
• Recyclable

BRASS NEUTRAL LINK / NEUTRAL BAR / CONNECTOR

BRASS NEUTRAL LINK / NEUTRAL BAR / CONNECTOR

" Deepri.com "manufactures a vast range of terminal bars / neutral links and connectors
for the electrical industry. Besides the available standard sizes, we also manufacture as per the customers specifications.

BRASS NEUTRAL LINK / NEUTRAL BAR / CONNECTOR BRASS

CROSS SECTION (MM) CROSS HOLE
DIA PITCH THREAD PROD CODE

9*7 5.6 8.0 M5 AN 97

11*8 6.0 7.5 M5 AN 118

11*8 7.0 8.5 1/4" UNF AN 1188

12.7*8 7.0 8.5 1/4" UNF AN 1278

12.7*12.7 7.0 8.5 1/4" UNF AN 1212

the product is also known as
BRASS NEUTRAL LINK / NEUTRAL BAR /
CONNECTOR BRASS NEUTRAL LINK /
NEUTRAL BAR / CONNECTOR

Terminal block neutral bar earthing block terminal bar neutral link

Neutral link

Neutral link it is the connection to the ground system. They are use to protect from overloading and short circuit.

Brass Inserts - Brass Neutral Links Neutral bars Earth bars Terminal blocks neutral blocks Manufacturer Moulding Inserts

Neutral Bars Brass Neutral Links Neutral Bars Earth Bars TERMINAL BLOCKS ,BRASS TERMINALS ,BRASS TERMINAL BLOCKS,Brass Terminal Blocks, Earthing Blocks

Brass Inserts - Brass Neutral Links Neutral bars Earth bars Terminal blocks neutral blocks Manufacturer Moulding Inserts

Manufacturer and Exporter of all kinds of Brass Components

brass fittings ,brass fittings from ,brass fittings manufactrers,brass fittings exporters
 brass fittings manufactrers ,brass fittings exporters ,brass compression fittings,
olive tee assembly,branch tee male,olive elbow assembly,union elbow female,elbow male female 
four way female,olive connector assembly,bluk head assembly,brass olive nut,brass inset,brass olive sleeve,hose nipple male,hose nipple female,needle valve,brass flare fittings,brass pipe fittings,brass electrical fittings,brass specified fittings,brass forging parts,brass cnc turned parts,manufacturing of brass fitting and turned parts,manufacturer turned parts,manufacturer brass turned parts 
 
Manufacturing Electrical Parts like Brass Neutral Bars, Earth Bars, Brass Terminal Blocks, Switch Gear Parts, Brass Neutral Links, Inserts 

Brass Neutral Links Neutral Bars

Brass  Neutral Links Neutral Bars Manufacturer and exporter of brass neutral link. We offer brass neutral link made form high grade free cutting brass. We also manufacture brass neutral link as per customer's requirements.We Offer BRASS EARTH BARS NEUTRAL LINKS NEUTRAL BARS BLOCKS Neutral Links & Terminal Block Links Brass Neutral Links Neutral Bars   Material Brass to BS 2874. Neutral Links Neutral Blocks Terminal Blocks & Terminal Block Links  Brass Neutral Links Neutral Bars  Sizes as per customers specifications. and Neutral Links as long as 1 meter can be provided  Brass Neutral Links Neutral Bars  Finish Natural Brass, Electro-Tinned or Nickel plated

Copper is malleable and ductile, a good conductor of heat and, when very pure, a good conductor of electricity.

Copper is malleable and ductile, a good conductor of heat and, when very pure, a good conductor of electricity.

The purity of copper is expressed as 4N for 99.99% pure or 7N for 99.99999% pure. The numeral gives the number of nines after the decimal point when expressed as a decimal (e.g. 4N means 0.9999, or 99.99%). Copper is often too soft for its applications, so it is incorporated in numerous alloys. For example, brass is a copper-zinc alloy , and bronze is a copper-tin alloy.[27]

It is used extensively, in products such as:

Piping

    * including water supply.

Electronics

    * Copper wire.
    * Electromagnets.
    * Printed circuit boards.



--
Divyang A. Pandya

Electrical wiring accessories neutral links earth bar

Electrical wiring in general refers to insulated conductors used to carry electricity, and associated devices. This article describes general aspects of electrical wiring as used to provide power in buildings and structures, commonly referred to as building wiring. This article is intended to describe common features of electrical wiring that should apply worldwide.

www.brasspartfittings.com

Copper

Copper (pronounced /ˈkɒpɚ/) is a chemical element with the symbol Cu (Latin: cuprum) and atomic number 29. It is a ductile metal with excellent electrical conductivity and is rather supple in its pure state and has a pinkish luster which is (beside gold) unusual for metals which are normally silvery white. It finds use as a heat conductor, an electrical conductor, as a building material, and as a constituent of various metal alloys.

Copper is an essential trace nutrient to all high plants and animals. In animals, including humans, it is found primarily in the bloodstream, as a co-factor in various enzymes, and in copper-based pigments. However, in sufficient amounts, copper can be poisonous and even fatal to organisms.

Copper has played a significant part in the history of mankind, which has used the easily accessible uncompounded metal for thousands of years. Several early civilizations have early evidence of using copper. During the Roman Empire, copper was principally mined on Cyprus, hence the origin of the name of the metal as Cyprium, "metal of Cyprus", later shortened to Cuprum.

A number of countries, such as Chile and the United States, still have sizable reserves of the metal which are extracted through large open pit mines. However, like tin, there may be insufficient reserves to sustain current rates of consumption.^[1] High demand relative to supply has caused a price spike in the 2000s^[2].

Copper also has a significant presence as a decorative metal art. It can also be used as an anti-germ surface that can add to the anti-bacterial and antimicrobial features of buildings such as hospitals. ^[3]

www.deepri.com
www.brasspartfittings.com

--
Divyang A. Pandya

Ottone neutro link Collegamenti elettrici accessori

Ottone neutro link
Collegamenti elettrici accessori

Profonda riciclaggio

Produttore ed esportatore di ottone neutro link. Offriamo ottone neutro collegamento effettuato sotto forma di alto livello, libero di taglio ottone. Abbiamo anche la fabbricazione di ottone neutro link per cliente come requisiti
Fabbricato a partire da estrusi di ottone sezione di qualsiasi dimensione e lunghezza, forato, filettato, fornito come disegni o per campione, con la testa, Philips, viti, cavo fori di entrata countersunk, con / senza cavo titolare, placcati o finitura ottone con / senza bakelite / base in plastica. (2 Modi a 170 Modi)
Ottone nuovi articoli neutri Link http://www.deepri.com da circa Ottone Neutro Link, e rottami Importatore India. Noi non compromesso con le dimensioni e, di conseguenza, con la qualità. Usiamo forte mare degno di cartone ondulato con 7 strati / 9 strati. Stratificati con catrame rivestita con tessuto di Hesse, propriamente segnato la destinazione, lotto dimensione e numero di singoli cartone, che aiuta i nostri clienti per separare gli elementi, come mostrato in foto.


Materiale per Ottone Neutro Links:
Taglio libera Ottone E 319 Tipo (I) o
Taglio Ottone libera come da BS 249 Tipo (I) o
Di alto livello, libero di taglio ottone
Ottone qualsiasi speciale composizione materiale come requisito per i clienti


  
 
Disponibilità:
   Ottone neutro link sono disponibili come da specifiche.
Lunghezza / Dimensioni:
   Comincia da M2 o equivalente fili e fino a tutto il formato personalizzato di cui al disegno o requisito
Finitura e di rivestimento:
  

Naturale, Nickle placcato, Tin placcati o qualsiasi tipo di rivestimento come specifica per cliente

Copper Bonded Earthing Rod & Hot Dipped Galvanised Earthing Rod

Copper Bonded Earthing Rod & Hot Dipped Galvanised Earthing Rod

9) BRASS TERMINAL BLOCK ( I & H OR CUSTOMISED AS PER DRAWING), TERMINAL CONNECTOR, AERIAL ROD, MULTIPLE POINT, TERMINAL BASE, B BOND, C TYPE CONNECTOR, CLAMP A TYPE FOR ROD DIA 12 MM, CLAMP B TYPE ROD TO TAPE, CLAMP C TYPE FOR ROD TO CABLE LUG, CLAMP C TYPE FOR ROD TO CABLE, CLAMP FOR CABLE WITH 2 BOLT, PARALLEL CLAMP WITH 2 BOLT, COUPLER, DCTAPE CLIP, EARTH PLATE 2 HOLE, EARTH PLATE 4 HOLE, JOINTING CLAMP, LUG WITH 2 BOLT, LUG U BOLT TYPE, OBLONG TEST CLAMP, POLE TYPE TERMINAL, RAIN WATER PIPE BOND, SCREW DOWN TEST CLAMP, SQUARE TAPE CLAMP

BRASS PART EXPORTER

DEEP Recyclingindustrie
Hersteller und Exporteur von Messing-Komponenten
Brass Schaltgeräte Komponenten:
:: Brass Neutral Link (2 bis 150 Weise mit Messing und Mild Steel Schrauben)
:: Kontakt Brass Terminal
:: Brass' L 'Art Terminal
:: Brass' C 'type Terminal
:: Brass Rundschreiben Connecter
:: Brass Straight Knurling Terminal

Brass Schaltgeräte Komponenten, Messing neutral Link
  
Brass-Steckverbinder (1, 2 & 3):
:: Hergestellt in runde, quadratische, Halbkreis & Oval Shapes in mm, Zoll & BA-Threading mit Brass & Mild Steel Schrauben.
:: Breite Anwendung in Telekommunikation & Electrical Household Goods.
:: Alle Produkte mit Nickle, Zink Blau, Gelb und präskriptiven Brass Self Farbe plating.

Brass-Anschlüsse, Messing elektrische Schalter-Terminals, Messing Steckdose Terminals
 
Brass Electrical Switch Terminals (4 & 5):
:: Breite Anwendung in allen Arten von elektrischen, Flush & Surface, Appliance-Switches, Fused Connection Units, Socket Switches Board & Wetter Protected Zubehör.
:: Die Top-Kopf-Dreieck wunderschön gestaltet, eine reibungslose Bewegung von Switches
 
 
Brass Steckdose Terminals (6 bis 11):
:: Breite Anwendung in allen Arten von Elektro-Switch & Sockel stieg Bemessungsgrenze für die Abhaltung von Elektro-Kabel.
Perfekt als pro Kunden-Spezifikation mit Messing Schrauben.

WWW.DEEPRI.COM

Brass Neutral Links BRASS & COPPER ALLOY ELECTRICAL, CABLE, WIRING & EARTHING ACCESORIES, SPLIT BOLT

Brass Neutral Links. Brass Battery Terminals - (Auto part). All type of fabricated precision oriented components as per your drawing in any metal. Apart from above we offer you Bi-metal cable Lugs, Copper / Lugs, Earthing Material etc.

BRASS TERMINAL BLOCK ( I & H OR CUSTOMISED AS PER DRAWING), TERMINAL CONNECTOR, AERIAL ROD, MULTIPLE POINT, TERMINAL BASE, B BOND, C TYPE CONNECTOR, CLAMP A TYPE FOR ROD DIA 12 MM, CLAMP B TYPE ROD TO TAPE, CLAMP C TYPE FOR ROD TO CABLE LUG, CLAMP C TYPE FOR ROD TO CABLE, CLAMP FOR CABLE WITH 2 BOLT, PARALLEL CLAMP WITH 2 BOLT, COUPLER, DCTAPE CLIP, EARTH PLATE 2 HOLE, EARTH PLATE 4 HOLE, JOINTING CLAMP, LUG WITH 2 BOLT, LUG U BOLT TYPE, OBLONG TEST CLAMP, POLE TYPE TERMINAL, RAIN WATER PIPE BOND, SCREW DOWN TEST CLAMP, SQUARE TAPE CLAMP, TAPE/ ROD.

POWER TRANMISSION / DISTRIBUTION PRODUCTS MANUFACTURED ARE SQUARE WASHERS, WIRE HOLDER PIPE MOUNTED, WIRE HOLDER, ASSEMBLY FOR WIRE HOLDER,
INSULATED CABLE SUPPORT STRAP, MOUNTING BRACKET FOR INSULATED CABLE. PLATE HOOK ETC & ANY TYPE OF ELECTRICAL / POWER SUPPLY CUSTOM MADE PRODUCT AS PER
DRAWINGS.

more detail go to www.brasspartfittings.com

brass neutral link

Deep Recycling Industries

Manufacturer and exporter of brass neutral link. We offer brass neutral link made form high grade free cutting brass. We also manufacture brass neutral link as per customer's requirements
Manufactured from extruded Brass section of any size & length , Drilled , Threaded ,Tapped as per drawings or sample , with Philips head screws ,Cable entry holes countersunk , with / without cable holder , Plated or brass finish with / without bakelite / plastic base.{2 Ways to 170 Ways}
New Brass Neutral Link Articles from http://www.deepri.com about Brass Neutral Link, and Scrap Importer India. We do not compromise with the dimensions and hence with the quality. We use strong sea worthy corrugated cartons with 7 ply / 9 ply. Laminated with tar coated hessian cloth, properly marked the destination, lot size and number of individual carton, which helps our customer to separate the items, as shown in photograph.

Material for Brass Neutral Links: Free Cutting Brass IS 319 Type (I) or Free Cutting Brass as per BS 249 Type (I) or High Grade Free Cutting Brass Any Special Brass Material Composition as per    customers requirement
Available:   Brass neutral links are available as per specifications. Length / Size:   Begins from M2 or equivalent threads and up to any size as per custom design or requirement Finish And Coating:   Natural, Nickle Plated, Tin Plated or any coating as per customer specification

Strength of brass

• n the softened or annealed condition, the brasses are ductile and strong but when hardened by cold working techniques such as rolling or drawing, their strength increases markedly. Strong, stiff structures can be assembled from extruded-and-drawn sections. Bars and rolled sheet and plate can be fabricated into containers and other items of plant which work under pressure.

• The strength of brasses is substantially retained at temperatures up to around 200^oC and reduces by only about 30% at 300^oC which compares favourably with many alternative materials.

• The brasses are very suitable for use at cryogenic temperatures since the properties are retained or slightly improved under these operating conditions.

• For applications demanding higher strengths the "high tensile brasses" are available. These contain additional alloying elements which further improve the properties.

Brass as cost effective

There are many factors, sometimes overlooked, that contribute to low costs of brass components.

• Close tolerance manufacturing techniques can be employed so that finishing costs are minimal.

• Tooling costs may be significantly lower than for other materials or processes.

• Ease of machining means that production costs can be minimised.

• The good corrosion resistance of the brasses means that the cost of protective finishing is lower than for many other materials.

• In addition to these benefits the high value of any process scrap can be used to reduce production costs significantly.

• The long service life normally expected of well-designed brass components means that the costs of service failures are minimal.

 

Brass = Cu3Zn2, Copper zinc , color Yellow,

Brass is naturally occurring crystals of a copper nickel alloy with a formula similar to what we know as brass. These specimens are also not common, but are extremely rare and have only been found in a couple of localities. Brass could be considered an official mineral if the naturally occurring crystals prove to have a unique structure and chemistry from other copper nickel alloys. That may prove difficult or impossible and if so, brass will then be discounted as a mineral.

Brass is classified as an element dispite the fact, that in chemical reality, it is a compound. Minerals like brass are alloys with metallic bonds that are very similar to the more pure metallic elements and are thus classified as elements.

PHYSICAL CHARACTERISTICS:

    * Color is yellow to brassy yellow.
    * Luster is metallic.
    * Transparency: Specimens are opaque.
    * Crystal System is isometric.
    * Crystal Habits are limited to tiny grains.
    * Cleavage is absent.
    * Specific Gravity is 8.4 - 8.7 (man-made brass)
    * Streak is brassy brown.
    * Notable Occurrences are limited to two localities in Siberia, Russia; Tolbachik Volcano, Kamchatka and Vol'sk-Vym Ridge, Middle Timan.
    * Best Field Indicator is color, locality, density and rarity.

Chemical Formula:	Cu3Zn2
Composition:	Molecular Weight = 321.42 gm
	Zinc    40.69 %  Zn
	Copper  59.31 %  Cu
	______
	100.00 %
Empirical Formula:	Cu3Zn2
IMA Status:	Not Approved IMA
Synonym:	Laiton
	Messing Brasspartfittings.com/blog

Manufacturer and exporter of all kind of brass components and fittings

Manufacturer and Exporter of Fire Extinguisher, Cable Glands, Electrical Parts, Fasteners, Moulding Inserts, Brass Turned Parts, Smoking Parts, Surgical Parts, Agriculture & Spray Parts, we work very closely with some of the leading consumers and suppliers of Brass Fittings of the world using our expertise to improve performance with innovative, value added products. deep recycling industries           Moulding Inserts, Sanitary Parts, Fire Extinguisher, Cable Glands, E1w Cable Glands Bw Cable Glands, Flange Type Cable Glands, Cw4 Cable Glands, Bw2 Part Cable Glands, Wiping Cable Glands, Electrical parts, Electrical Switch Parts, Fasteners, Moulding Inserts, Sanitary Parts, Fasteners, Fasteners, Fasteners, Electrical parts, Fasteners.

T Gas Fittings, Jet Elbow, Compression Union, Valve, Force Barb, Nozzle, Gas Fitting, Gas Fittings Plug, Force Barb - T, Single Barb Elbow, Compressor Female Elbow, Compressor Male Brand -T

brasspartfittings.com/blog

Mfg & exporter of brass fittings

Manufacturer & Exporters of Brass Fittings. loading.. Fasteners. Customer Specified Fittings. Customer Specified Fittings. CNC Turned Parts. Flare Fittings

brasspartfittings.com/blog

We manufacture wide range of brass components

We manufacture wide range of brass components like brass cable glands, brass fasteners and brass inserts as per requirements.