#Copper Beryllium Sheet
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Buy Beryllium Copper Wire | Copper Beryllium Sheet
Looking for high-quality copper products? Look no further! Buy Beryllium Copper Wire and Copper Beryllium Sheet from our reliable supplier. We offer top-grade materials that meet your specific requirements. Enhance conductivity and durability with our premium copper products. Order now!
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How fast can a high speed punch press hit beryllium copper spring sheet?
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Beryllium Copper Sheets & Plates Exporters
#Stainless steel#metal fabrication#corrosion-resistant#kitchenware#appliances#construction materials#durable#rust-proof#industrial applications#stainless steel grades#maintenance#cleaning#sustainable materials#architectural design#cookware#utensils#sanitary equipment#marine applications#automotive components#aerospace materials
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Kushal Metal is a metal distributor based in the India we specializes in providing alloys, including beryllium copper. We offer beryllium copper in various forms, including sheets, rods, and wire. Choose our trusted supply for premium Beryllium Copper today.
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Beryllium copper sheets offer a wide range of benefits for use in industrial applications. They are highly resistant to corrosion, require virtually no maintenance, and are resistant to heat and wear. In addition, beryllium copper is non-magnetic, lightweight, and non-sparking, making it an ideal choice for a variety of safety-critical industries. Its flexibility and strength make it a great option for applications where strength and impact resistance are needed. Beryllium copper sheets are used in a variety of industry applications, from aerospace and automotive components to medical and electronic devices. These sheets are highly durable and offer great corrosion resistance, making them a popular choice for many types of construction projects. They are also easy to form and shape, making them a great choice for any project involving parts and components that require precise shapes and sizes. Additionally, beryllium copper sheets are relatively lightweight, which makes them ideal for projects where weight is an important factor.
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C70600 C71500 Copper #Nickel Sheet plate C11000 Beryllium Copper Alloys ...
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High Hardness Beryllium Copper Rod sheet C17200 C17300 C17510Beryllium B...
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From My Home to Yours
Where e-waste goes and what it does once it gets there
Reality Show by Fredo de Luna
Like me, you’ve probably never wondered past the pleasures you’ve taken out of your everyday “smart” objects or devices. They bring us the ability to experience life on an otherwise unimaginable scale. We experience joy, laughter, sadness, and an emotional rollercoaster of in between emotions with friends, family, strangers, or just our lonesome. The best part of enjoying our products is knowing that something “better, faster, smarter, thinner” is just around the corner waiting to be unearthed to the general population with the latest and greatest packed into a compact platform. Stop me if you’ve heard this one already but, “This is our best…ever made”.
Usually, that’s all it takes to immediately want to discard your current devices; not that you need to have it, but you want to have the latest desirable product on the market. Trends can be dangerous in more ways that are less obvious. To put this into perspective for you consider this; “In every 1 million recycled cell phones, 35,274 lbs. of copper, 772 lbs. of silver,75 lbs. of gold, and 33 lbs. of palladium can be recovered.” [2] That is a lot of precious metals! Yet “In 2016 roughlyonly 20% of global waste was collected and properly recycled” [2]. Which begs the following question. Have you ever stopped and ask yourself what happens once you decide your old smartphone or electronic devices are no longer worth keeping?
For those of us living in First World nations such as Canada, The United States, Japan, The European Union (to name a few) this is more of an afterthought than anything else. For all we know, we have a recycling program where our waste is collected and disposed of accordingly. Heck, once it’s in the trash it’s really not your problem; you’re doing your part to save the environment one sorting bin at a time and for that, you deserve a pat on the back. Or do you?
Do you really know what happens to your e-waste? Well, let me explain what happens to your e-waste. At some point your e-waste will journey from your home to a recycling facility, eventually, the more troublesome components that are too difficult to breakdown are exported from your country and imported into developing nation such as West Africa, India, China, Vietnam, or The Philippines (to name a few). Why has my garbage ended up on the other side of the world and what is it doing there you may ask? Well, in short, developing nations are paid to import your e-waste. There is typically an agreement in place between developed nations so that they can continue to send their garbage elsewhere instead of keeping the majority of it within their own borders. What happens next takes place at various landfill sites in these developing nations.
Firstly, there is a process coined informal recycling. This is a term that is used to describe manual (usually hard) labour whereas marginal groups are used to further break down these products or otherwise mine for precious metals such as gold or silver. The conditions are less than ideal and do an extenuating amount of harm to the local and external ecosystems in neighbouring communities, towns, cities, or even other countries. The damage occurs in many different instances which upset the delicate balance of the environment.
Environmental Disaster by Alex Proimos (CC-BY-NC 2.0)
Let's take a closer look at air pollution in the atmosphere. This typically occurs when open-air burning is used to separate precious metals instead of a more refined process like an incinerator. These heavy metals such as mercury, beryllium, lead, cadmium, arsenic, and brominated flame retardants are extremely toxic. From this process, alone harmful particulates are released into the atmosphere which is carried by the wind into neighbouring ecosystems the results for which are more clear long term similar to the immediate effects on the individuals involved in this process.
The workers involved in these hazardous conditions are typically the first ones to be impacted directly through the absorption of heavy metals into their bodies via dioxins or persistent environmental pollutants (POP). A study concluded, “humans working with, and around electronic waste showed elevated blood levels of metals” [1] similar to the ones mentioned earlier. This is very unfortunate as the majority of these individuals who have had direct exposure to these toxins will develop long term illnesses such as cancer, organ damage, neurological damage digestive problems, bone issues and respiratory ailments. Also, with the accelerated output of dioxins into the air young mothers without the appropriate level of access to medical care can develop a build-up of dioxins in their breast milk which in turn is passed on to infants via breastfeeding. This is a cascading effect as the amount passed on usually exceeds The World Health Organization (WHO) tolerance for young infants affecting many future generations to come with similar ailments. You should know “dioxins accumulate in human bodies for roughly 7-11 years”.[4]
So now that you understand better how the labourers are affected let's dig further to see what happens when these toxins from e-waste are not properly contained and leach into the soil. The obvious result here is the “soil-crop food pathway” [2]is contaminated. Once the soil has been corrupted with heavy metals the crops are also essentially poisoned. This disrupts their agricultural production as the once nitrate rich farmlands become desolate and baron. Food yield is impacted not just for the human population but the animal ones as well.
Furthermore, to the soil being the tipping point let’s continue to burrow down and see the effect on groundwater. The obvious conclusion here is that it becomes contaminated with heavy metals too, which can leak out into nearby streams, ponds, lakes and rivers to do further harm. The water essentially becomes toxic, the inhabitants of those ecosystems develop higher levels of toxicity which means any fish or aquatic organisms become dangerous to consume
Water Pollution in China by Bert Van Dijk (CC BY-NC-SA 2.0)
So, as you can see from my home to yours there is a series of very precise actions that result in the perpetuation of instability as a result of how e-waste is exported to offshore developing nations. In our next post, we will more closely explore the limiting factors that impact the ecosystem further. In the meantime, if you would like to learn more about this growing concern the BBC has written an excellent article worth exploring.
Sources:
Hunt, A., Bailey, M., Buglioni, M. B., & Berry, M. (2018, April 28). The story of Canada's digital dumping ground. The story of Canada's digital dumping ground | Open Case Studies. https://cases.open.ubc.ca/w17t2cons200-26/.
Leahy, M. (2020, December 15). [web log]. https://www.rubicon.com/blog/electronic-waste-problem/.
McAllister, L. (2013, April 4). The Human and Environmental Effects of E-Waste. PRB. https://www.prb.org/resources/the-human-and-environmental-effects-of-e-waste/.
World Health Organization. (2016, October 14). Dioxins and their effects on human health. World Health Organization. https://www.who.int/en/news-room/fact-sheets/detail/dioxins-and-their-effects-on-human-health.
Mahy, E. (2020, February 17). Can we fix our way out of the growing e-waste problem? BBC News. https://www.bbc.com/news/business-51385344
Gutberlet, Jutta. (2018). What is Informal Recycling?. 10.13140/RG.2.2.19094.65606. Task Group Informal Recycling: Brochure on informal recycling
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Address :
1969 S. Alafaya Trail, Suite 160
Orlando, FL 32828
Phone : (860) 749-0761
Email : [email protected]
Website : https://mardek.net/
Description : Metal and plastic contract offshore manufacturing services including CNC precision machining and fabrication. Works with sheet metal, plate and tubing steel, carbon steel, stainless steel, tool steel, aluminum alloy, copper, nickel and nickel alloy, ferrous/non-ferrous metals, titanium, beryllium and zinc. Capabilities include die/metal casting, injection molding, metal stamping, bending, boring, blanking, cutting, deep drawing, forging, forming, knurling, milling, punching, tapping, turning, welding and assembly. Secondary services such as plating, grinding, coating, heat/steam treating, painting, anodizing and e-coat finishing are provided. Supply chain management services are also available. On-time delivery.
Keywords : parts assembly services, product assembly services, assembly services, manufacturing and assembly, product assembling, metal parts assembly, contract assembly services, powdered metal parts, machining powdered metal, powder metal casting, powdered metal parts manufacturers, plastic part manufacturing, types of plastic manufacturing, manufacturing plastic parts, plastic manufacturing process, custom plastic parts, plastic parts manufacturers,
Hour : Monday-Friday 8 AM - 5 PM
Business of the Year : 2010
Linkedin : https://www.linkedin.com/company/mardek-llc
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Zhengzhou Deyuan Fine Chemicals Co., Ltd.
Zhengzhou Deyuan Fine Chemicals Corp., Ltd. was founded in 2002, Deyuan has been focusing on analysis and development metal removal reagent and agents complexants, Deyuan is to serve gloabl customers with best sheet metal leaching solvents at aggressive factory price and amazingly good quality.
reagents manufacturer
In 2009, Deyuan produced compound copper extractant connected with Ketoxime-Aldoxime, Deyuan factory got filled the blank associated with compound copper extractant inside China, successively developed advantages efficient Nickel-Cobalt separation extractant of DZ272 (same since C-272) and other series metallic leaching products. Its L & D center provides excellent hardware facilities, any laboratory of more than 14, 000 square meters, and many millions of instruments and gadgets for metal extraction reagent.
About Deyuan extractant product or service:
Product available from Deyuan
1) Copper Solvent Removal Reagent
2) Nickel Cobalt Extraction Solvent
3) Laterite Nickel Extracting Agent
4) Rare Earth Extractant
5) P204 impurity removal extractant
6) Complexing Agent
Product or service info:
1) Nuclear expended fuel extractant, which is consists of carbon, hydrogen, oxygen, in addition to nitrogen elements, thus exchanging the current use of phosphorus extractants to cause radiation supply diffusion problems.
2) Extractant in the field of waste battery these recycling, extracts Nickel and Cobalt from the battery waste option, so as to achieve the separating of Nickel Cobalt as well as Manganese Lithium.
3) Removal agent for Rare gold and silver coins, extraction and separation regarding Platinum, Iridium, Osmium, Ruthenium, Palladium and Rhodium.
4) Rare earth extractant, removal and separation of a overall of 17 rare world elements of Lanthanum, Cerium, Praseodymium, Neodymium, Promethium, Samarium, Europium, Gadolinium, Terbium, Dysprosium, Holmium, Erbium, Thulium, Ytterbium, Lutetium, Scandium and Yttrium.
5) Rhenium extraction reagent, Lithium extractant, Vanadium extractant, Beryllium extractant and other extractants. complexing agent
Deyuan has been staffing up and also scaling up since its institution. Reach Deyuan and you'll observe Deyuan is just the right match to scale up your steel extraction reagent business.
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Element Properties: 1-7 atomic number
HYDROGEN
Atomic symbol: H
Atomic weight: 1.00794
Atomic number: 1
Electron configuration: 1
Oxidation states: ±1
State of matter: gas
Alkali metal
Discovered in 1790 by Henry Cavendish
Boils at-252.8°C, melts at-259.14°C
Notes:
Hydrogen is a colorless, odorless, tasteless gas that can be flammable or explosive when mixed with air, oxygen, and chlorine. Hydrogen is not very reactive at room temperature, but at higher temperatures it burns vigorously and often explosively in air or oxygen to form water. In the presence of a catalyst and under pressure, hydrogen will combine with vegetable oils to form solid fats used as shortening, in a process known as hydrogenation. This process is extensively used in the refining of oil products to increase the yields of gasoline. It is also commonly used to make ammonia and many other chemical substances. Other uses are to fuel rockets and in fuel cells to generate electricity.
HELIUM
Atomic symbol: He
Atomic weight: 4.002602
Atomic number: 2
Electron configuration: 2
Oxidation states: 0
State of matter: gas
Noble gas element
Discovered in 1895 by Sir William Ramsay
Boils at 268.9°C, melts at 272.2°C
Notes:
Helium is a colorless, odorless, tasteless, nonflammable, monatomic inert gas. It is obtained from natural gas deposits by liquefying all other constituents and collecting the helium. The percentage obtained from these deposits may range from 1% to 2%. It is sometimes used to fill balloons and airships, along with many other scientific applications.
LITHIUM
Atomic symbol: Li
Atomic weight: 6.941
Atomic number: 3
Electron configuration: 2-1
Oxidation states: +1
State of matter: solid
Light metal
Discovered in 1817 by Johan August Arfwedson
Boils at 1342°C, melts at 180.5°C
Notes:
Lithium is a silvery white metal that turns yellow when exposed to moist air. When heated sufficiently, it emits light radiation that is red in color. Lithium is a good electron source in photoelectric cells and cyclotrons.
BERYLLIUM
Atomic symbol: Be
Atomic weight: 9.012182
Atomic number: 4
Electron configuration: 2-2
Oxidation states: +2
State of matter: solid
Light metal
Discovered in 1797 by Louis-Nicolas Vauquilin
Boils at 2970°C, melts at 1278°C
Notes:
Beryllium is very rare, its pricipale ore is beryl, a complex aluminosilicate. When beryl has traces of chromium impurities, it is emerald. When beryl contains traces of iron, its aquamarine. Beryllium does not occur free in nature, and is primarily used in alloys—especially copper to form non- sparking tools.
BORON
Atomic symbol: B
Atomic weight: 10.811
Atomic number: 5
Electron configuration: 2-3
Oxidation states: +3
State of matter: solid
Non-metal
Discovered in 1808 by Joseph Louis Gay-Lussac and Louis-Jacques Thènard
Boils at 2550°C, melts at 2300°C
Notes:
Boron is relatively rare, and always found combined with oxygen in borates. It is extremely hard and brittle, and is found in two allotropic forms—crystalline and amorphous. Boron is used in flares to give off a green color, as an igniter in rockets, as filaments in aerospace structures, and in silicon semiconductors to improve conductivity. It is also used in nuclear chemistry as a neutron absorber and typically to harden other metals.
CARBON
Atomic symbol: C
Atomic weight: 12.0107
Atomic number: 6
Electron configuration: 2-4
Oxidation states: +2, ±4
State of matter: solid
Non-metal
Discovered in ancient times Sublimes
Boils at 4827°C, melts at 3600°C
Notes:
Carbon is found free as the mineral graphite or as diamonds. It is essential to all animal and plant life. Graphite found in large crystals is mined, or obtained by heating coke and pitch in furnaces at very high temperatures. Volatiles are driven off and large graphite crystals then grown in the furnace. These crystals are made up of sheets of carbon atoms and are black in color. Graphite is used as a lubricant and when molded with clay, forms pencil lead. Graphite is also used as electrodes for batteries and electric arc furnaces.
NITROGEN
Atomic symbol: N
Atomic weight: 14.00674
Atomic number: 7
Electron configuration: 2-5
Oxidation states: ±1, ±2, ±3, +4, +5
State of matter: gas
Non-metal
Discovered in 1772 by Daniel Rutherford
Boils at -195.8°C, melts at -209.86°C
Notes: Nitrogen is an odorless gas, usually obtained by the fractional distillation of liquid air. The process of including nitrogen to combine chemically with other substances is known as the fixation of nitrogen. A lot of nitrogen is used in the fixation process, which produces the raw materials for fertilizers, explosives, drugs, and dyes. It is used in rooms that store explosives, and in light bulbs to lengthen the life of the filament by preventing its oxidation.
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https://www.kushalmetal.net/beryllium-copper
Beryllium Copper Supplier - Kushal Metal
Kushal Metal is a metal distributor based in the India we specializes in providing alloys, including beryllium copper. We offer beryllium copper in various forms, including sheets, rods, and wire. Choose our trusted supply for premium Beryllium Copper today.
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Features of stamping Parts and custom springs
Stamping parts are the components that are made of different materials that are formed according to the desired shape. Accordingly, stamping a metallic part is the practice of forming a component by cutting and shaping a metal sheet into a required curve with the dies and relevant tools.
Earlier, metal stamping has often changed other metal forming processes, including die-casting and forging. This is chiefly due to the low production expenses. Moreover, metal stamped components can be stronger and more enduring than other parts that are made using different other metal shaping processes. The process is largely used in an extensive diversity of industries, as these stamping parts can be shaped quickly thus, dipping the overall production time as well as the cost.
Nowadays, many manufacturers are committed to offering innovative cost-cut options at the design stage itself. To achieve this, they use a unique design process, known as Design for Manufacturing, meaning your metal stamped parts will be designed individually according to your specifications.
Metal stamping can be useful to various materials to make components according to their unique metalworking characteristics for numerous applications across a wide variety of industries. This type of stamping may need the sharpening as well as the processing of base metals to uncommon alloys for their application-precise benefits. Some industries need the thermal conductivity or electrical conductivity of beryllium copper in manufacturing fields, such as electrical, aerospace, and the defense industry. Some automotive industries use steel as well as its different alloys for high strength applications.
Custom springs are made-to-order springs, which are used in an extensive array of settings. These applications may range from clothespins to cars, and they are used in several other common appliances and devices. Although these springs are so ordinary, they need the most precise manufacturing methods and exact fittings to make sure that they function properly and offer reliable performance. Higher quality of these custom--made springs can be achieved by making use of the correct material, coil thickness, as well as the correct workmanship,
Custom springs that are made of materials of these characteristics will offer long-lasting performance. These springs will usually encompass a strong construction as well as sturdy design and they are available in different forms, such as torsion springs, compression springs, and extension springs according to the application needs of users. Furthermore, as they are available in different sizes and specifications, you can rest guaranteed that they would exactly fit your needs, no matter what the prerequisites of your application are.
Custom springs are made of different materials, as well, including brass and stainless steel. Brass springs are considered one of the most adaptable products. This is for the reason that they are appropriate for a huge range of applications. Their strong flexibility allows these springs to store substantial amounts of potential as well as mechanical energy inside.
When it comes to springs that are made of stainless steel, they will not lose their tension even in their inactive condition. During the idle condition, the coils of these springs will boast shear stress. The utmost shear pressure occurs on the inner face of the coils of these springs and increases the loads.
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Features and benefits of Copper and titanium metal
The copper deposits are practically depleted today, so recycling it is even more necessary for its conservation and possible use. Copper is a metal with many properties, which is why it is present in a wide variety of elements that surround us in our daily life:
1. Due to a106 grade b great resistance to corrosion, copper is used in ship hulls, decks, nails and in many other devices
2. Due to its great ability to conduct electricity, copper is used in the manufacture of electrical wiring, telephone cables, electronics are few of examples
3. Because astm a53 is a great thermal conductor, copper is used in pipes, and wires
4. Because astm a333 is malleable, copper is used in the manufacture of coins, weapons, musical instruments
5. Due to its bactericidal properties, copper is used in air conditioning devices, in irrigation networks, horseshoes, and taps. So titanium tube is used in many applications But copper nickel pipe is often found alloyed with other metals giving rise to other materials that can also be recycled.
The main copper alloys are:
1. The bronze -> is an alloy of copper with tin (Cu + Sn). Copper represents 75-80%. Currently bronze is used in heat conductive alloys, in electric batteries, and in key manufacturing
2. Brass -> copper alloy with Zinc (Cu + Zn). The brass is harder than copper, is resistant to oxidation, salt conditions and is ductile so that it can be forged in thin sheets.
3. Nickel -> copper alloy with Nickel (Cu + Ni). It is mainly used in heat exchangers. The copper-nickel-zinc alloy (nickel silver) has good corrosion resistance and good mechanical qualities.
4. Aluminum -> copper alloy with Aluminum (Cu + Al). The so-called aluminum bronzes (with at least 10% aluminum) originate. It was already made in China in the 2nd century. It is highly appreciated in artistic works.
5. Beryllium -> copper alloy with Beryllium (Cu + be). Beryllium copper has important mechanical properties; it is used in the manufacture of springs of all kinds.
6. Chrome -> copper alloy with chromium (Cu + Cr). It is mainly used to make electrodes 7. Silver -> copper alloy with silver (Cu + Ag). It has a high hardness that allows it to withstand temperatures of up to 226 ºC.
8. Cadmium -> copper alloy with Cadmium (Cu + Cd). It is used in overhead power lines that withstand heavy mechanical, catenaries, and contact cables of surface transportation means.
All these copper alloys have their own benefits and features. These are used in the manufacturing of different type of devices.
Titanium welding under inert atmosphere
Certain metals and alloys, including titanium, require special know-how in terms of welding, to limit embrittlement by adding addition elements and deformation. This is why Copper Pipe is equipped with several closed enclosures to carry out titanium welding under an inert atmosphere. Other technical solutions are proposed for producing titanium welds on large parts.
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Stainless Steel Plates, Stainless Steel Tubes, Stainless Steel Wires, Mumbai, India
Raj Enterprises, Mumbai, Are a Renowned Importer, Exporter, Trader And Stockist of Mumbai, India.
Importing, Exporting And Stocking Of Stainless Steel Products, Nickel Alloys, SS Pipes, MS Pipes, Alloys, Alloy Steel Pipes, Carbon Steel Pipes, Stainless Steel Pipes, Titanium Pipes, Titanium Sheet, Inconel Pipes, Hastelloy Pipes, Stainless Steel, Stainless Steel Tubes, Stainless Steel Plates, Stainless Steel Sheets, Carbon Steel Plates, Alloy Steel Plates, Stainless Steel Wires, Stainless Steel Round Bar, Steel Coils, 316 Stainless Steel CR Coils, 304 Stainless Steel CR Sheets, 316 Flat Bars, Stainless Steel Designer Sheets, 316 SS Designer Sheets, SS Designer Sheets, Stainless Steel Checkered Sheet, SS Gold Mirror Sheet, Non Ferrous Metals, Chequered Plate, Duplex Steel Sheets, 316 Stainless Steel Slitting Coil, Slitting Coil, Duplex Sheet, Seamless SS Tubes, Brass, Brass Wires, Brass Rods, Brass Round Bar, Brass Soft Wire, Brass Components, Copper, Copper Wire, Air Conditioning Copper Tubes, Earthing Copper Rods, Copper Strips Bus Bars, Copper Plates, Copper Circle, Copper Alloys Products, Copper Tubes, Copper Strips, Copper Earthing Plates, Copper Coils, Copper Flats, Copper Rods, Copper Nickle Rod, Non Ferrous Ingots, Non Ferrous Alloy Ingots, Antimony Ingot 99.65, Antimony Ingot, Nickel Inco, Backed Bismuth Ingots, Tin Ingots, Forges Fitting, Weld Neck Flange, Slip On Forged Flanges, Ring Joint Flange, Forged Flanges, Virgin Metals, Precision Metals, Valves, Manifold Valves, Gauge Valves, Stainless Steel 316 Needle Valves, Diaphragm Valve Cast Iron, Gate Valve Bronze, Heavy Brass Gate Valve, Swing Check Valve Brass, Check Valve (Spring) Brass, 3 Way Port Ball Valve Brass, Mini Ball Valve Brass, Root Valves, Brass Foot Valves, Nuts And Bolts, Screw Fastners, S.S.Ball Valves, Duplex Pipe Fitting, Stainless Steel Duplex Butt Weld Fitting, Duplex Steel Buttweld Fittings, Alloy Pipe, Beryllium Copper Alloy Products, Tantalum Plates, Tantalum Strip, Tantalum Tubes, Nimonic Alloy 90, Molybdenum Bolts, Hex Bolts, Tungsten Bolts, Nuts Fasteners, Mumbai, Maharashtra, India
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