• Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot System 1
  • Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot System 2
  • Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot System 3
  • Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot System 4
  • Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot System 5
  • Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot System 6
Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

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Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
5 m.t.
Supply Capability:
100000 m.t./month

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Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

1. Specification:The Mg Metal is a fairly strong, silvery-white, light-weight metal.

Form: ingot

ingot: (8 ± 0.5) kg / ingot 

Specifications: (50-55)cm×(11.5-13.5)cm×(7-7.5)cm


2. Application:

1. The high temperature at which magnesium burns makes it a useful tool for starting emergency fires during outdoor recreation. Other related uses include flashlight photography, flares, pyrotechnics and fireworks sparklers. 

2. To photoengrave plates in the printing industry. 

3. In the form of turnings or ribbons, to prepare Grignard reagents, which are useful in organic synthesis.

4. As an additive agent in conventional propellants and the production of nodular graphite in cast iron.                  

5. As a reducing agent for the production of uranium and other metals from their salts.                   

6. As a sacrificial (galvanic) anode to protect underground tanks, pipelines, buried structures, and water heaters.


3. Mg Alloys Metal (Ingot)

 Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

4. Advantages:

Good Quality ............... The most important factor we care.

Competitive Price ........ For our mutual benefit.

Prompt delivery ........... Abundant production ability, storage ability and manpower.

Excellent Service ......... Customer always first.

Now our main markets in Asia and Europe, to the future we will set up sales network in more than 200 countries around the world. 

5. Image:

Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot



Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

Magnesium Alloy Ingot Mg 99.98 Good Quality Magnesium Metal Ingot

What is Magnesium Alloys?

Magnesium alloys are mixtures of magnesium with other metals (called an alloy), often aluminum, zinc, manganese, silicon, copper, rare earths and zirconium. Magnesium is the lightest structural metal. Magnesium alloys have a hexagonal lattice structure, which affects the fundamental properties of these alloys. Plastic deformation of the hexagonal lattice is more complicated than in cubic latticed metals like aluminium, copper and steel; therefore, magnesium alloys are typically used as cast alloys, but research of wrought alloys has been more extensive since 2003. Cast magnesium alloys are used for many components of modern automobiles, and magnesium block engines have been used in some high-performance vehicles; die-cast magnesium is also used for camera bodies and components in lenses.

 

Practically, all the commercial magnesium alloys manufactured in the United States contain aluminum (3 to 13 percent) and manganese (0.1 to 0.4 percent). Many also contain zinc (0.5 to 3 percent) and some are hardenable by heat treatment. All the alloys may be used for more than one product form, but alloys AZ63 and AZ92 are most used for sand castings, AZ91 for die castings, and AZ92 generally employed for permanent mold castings (while AZ63 and A10 are sometimes also used in the latter application as well). For forgings, AZ61 is most used, and here alloy M1 is employed where low strength is required and AZ80 for highest strength. For extrusions, a wide range of shapes, bars, and tubes are made from M1 alloy where low strength suffices or where welding to M1 castings is planned. Alloys AZ31, AZ61 and AZ80 are employed for extrusions in the order named, where increase in strength justifies their increased relative costs.

Magnox (alloy), whose name is an abbreviation for "magnesium non-oxidizing," is 99% magnesium and 1% aluminum, and is used in the cladding of fuel rods in magnox nuclear power reactors.

 

Magnesium alloys are referred to by short codes (defined in ASTM B275) which denote approximate chemical compositions by weight. For example, AS41 has 4% aluminum and 1% silicon; AZ81 is 7.5% aluminium and 0.7% zinc. If aluminium is present, a manganese component is almost always also present at about 0.2% by weight which serves improve grain structure; if aluminum and manganese are absent, zirconium is usually present at about 0.8% for this same purpose.

 

Any standard magnesium alloys are easily welded by gas or resistance-welding equipment, but cannot be cut with an oxygen torch. Magnesium alloys are not welded to other metals, because brittle inter-metallic compounds may form, or because the combination of metals may promote corrosion. Where two or more parts are welded together, their compositions must be the same. Soldering of magnesium alloys is feasible only for plugging surface defects in parts. The solders are even more corrosive than with aluminium, and the parts should never be required to withstand stress. Riveted joints in magnesium alloy structures usually employ aluminium or aluminium-magnesium alloy rivets. Magnesium rivets are not often used because they must be driven when hot. The rivet holes should be drilled, especially in heavy sheet and extruded sections, since punching tends to give a rough edge to the hole and to cause stress concentrations.



6.FAQ

We have organized several common questions for our clients,may help you sincerely: 

①How about your company?

CNBM, The Fortune 500. A world class manufacturer & supplier of magnesium alloys ingots plates&sheets, magnesium alloy bars, Magnesium alloy slabs,magnesium alloy wires,magnesium alloy tubes and etc.. bases in China.

②How to guarantee the quality of the products?

We have established the international advanced quality management system,every link from raw material to final product we have strict quality test;

We would like to offer free samples for your inspect and check.

We have advanced manufactured equipments,such as hot rolling equipment. We resolutely put an end to unqualified products flowing into the market. At the same time, we will provide necessary follow-up service assurance.

③What is your main markets?

Our main markets are from Europ, America and Aisa. Such as Germany,Czech, Poland, England, Canada, Korea, Turkey etc.

Q: Causes of high manganese content in magnesium ingot
Magnesium in the air in the combustion reaction of oxygen, magnesium and Magnesium Oxide in the air, and the quality of the quality of the resulting Magnesium Oxide equal in response to magnesium and oxygen quality, so the quality of the product than the quality of the original magnesium increases.
Q: What is the black powder on the surface of magnesium ingot AM50A?
The first is the alloy composition is different: AM50, AM60 is Mg-Al-Mn series, AZ91D is Mg-Al-Zn series.
Q: What are the surface defects of magnesium alloy rolling?
When the deformation rate is too large, it is easy to cause serious cracking.
Q: What harm does magnesium alloy have to human body?
Yes, the alloy is usually aluminum, magnesium, iron and the like, may cause chronic aluminum poisoning, that is, excessive accumulation of aluminum in the body, affecting intelligence and other physical functions.
Q: What are the generally feasible surface treatment methods for magnesium alloy die castings?
Your question is difficult to answer, the general casting magnesium alloy surface treatment should be divided into surface coating treatment and surface treatment, although the two are related, but in the process and technology, but there is a big difference, its main features are not the same. Therefore, you must specify the purpose and function of your work before you can tell you the actual surface treatment.
Q: Why the cost of ferrosilicon production will lead to a rebound in the price of magnesium ingot?
Ferrosilicon is made of coke, steel chips, quartz (or silica) as raw material, smelting by electric furnace iron silicon alloy. Silicon and oxygen are easily synthesized into silicon dioxide, so ferrosilicon is used as a reducing agent in the smelting industry.
Q: The industrial application of magnesium and the main title and technical difficulty of producing magnesium products with magnesium chloride as raw material
The chemical property of magnesium is active, in the metallurgical industry by using, steel and non-ferrous metal casting, with magnesium as desulfurization agent, cleaning agent, as reducing agent in the production of rare metal. In the chemical industry, magnesium can be used as a dehydrating agent of organic compounds or directly with organic compounds and preparation of magnesium powder. In recent years, in the use of magnesium powder spray, coating, anticorrosion industry is more and more big, the amount of silicon and polysilicon and powder metallurgy die casting is also great.
Q: What are the differences between aluminium magnesium alloy, aluminum alloy and plastic steel?
In the fireworks production process plays a very important role in reducing agents, but also as a white light agent and lighting agentMagnesium alloy is magnesium ingots and aluminum ingots in protective gas melted into. For a long time about the structure of Al Mg alloy with two kinds of argument. One theory is that magnesium alloy is a simple physical mixture; another is magnesium alloy changes inside the crystal structure, is not a simple physical mixture.
Q: Will the enterprises that produce sponge titanium use magnesium ingots?
The essence of magnesium reduction is at 880 DEG ~950 DEG under argon atmosphere, let four titanium chloride and magnesium were obtained by the reaction of sponge titanium and magnesium chloride, magnesium chloride removal in titanium sponge and excess magnesium by vacuum distillation to obtain pure titanium by distilled condensate molten metal recovery magnesium, magnesium chloride by molten salt electrolysis recovery of magnesium and chlorine. The process of producing titanium from refined four titanium chloride is divided into two steps: reduction and distillation. For a long time, reduction and distillation are all step by step, but now they are tending to be combined and large-scale.
Q: What is magnesium aluminum alloy and what is its use?
Magnesium alloy is magnesium ingots and aluminum ingots in protective gas melted into. For a long time about the structure of Al Mg alloy with two kinds of argument. One theory is that magnesium alloy is a simple physical mixture; another is magnesium alloy changes inside the crystal structure, is not a simple physical mixture.

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