Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant

Product Details
Customization: Available
Application: 3c
Certification: RoHS, ISO9001, JIS, EN
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  • Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant
  • Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant
  • Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant
  • Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant
  • Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant
  • Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant
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Overview

Basic Info.

Model NO.
LAZ933
Technique
Hot Rolled
Grade
--
Temper
--
Surface Treatment
Mill Finish
Alloy
Alloy
Tolerance
1%
Trade Term
Fob CIF CFR CNF EXW, etc
Deep Process
CNC, Drilling, Milling, Cutting, Welding
Lead Time
According to Order Quantity
Transport Package
Export Standard Wooden Pallet
Specification
According to Customer Requirement
Trademark
Chalco Aluminum
Origin
Henan China
HS Code
7606125900
Production Capacity
15000mt/Month

Product Description

Magnesium Lithium Alloy LAZ933

Product introduction:
LAZ933 is a typical commercial magnesium-lithium alloy with low density, medium strength, good shaping and good corrosion resistance. The density is equivalent to plastic, rigidity and toughness are much higher than plastics, and it has excellent shock absorption, damping and plasticity. It can be applied to sound film foil and is one of the most effective materials for weight reduction in aerospace metal materials. It can be applied to secondary load-bearing parts and various boxes and shells, such as electronic chassis shells, optical instrument structural parts, skins, dashboards, satellite rivets, honeycomb panels, heat pipes, notebook shells, mobile phone shells, sighting devices and the shell, etc.

Magnesium-lithium alloy LAZ933 technical parameters
1.Magnesium-lithium alloy LAZ933 chemical composition
Li Al Zn Mn Si Fe Cu Ni Mg
8.5-10.3 2.5-3.5 2.5-3.5 ≤0.05 ≤0.05 ≤0.01 ≤0.05 ≤0.005 Bal.

2.Magnesium-lithium alloy LAZ933 physical properties
Density(g/cm3) 1.53
Solidus temperature(ºC) 560
Liquidus temperature(ºC) 580
Elastic Modulus(GPa) 43
Poisson's ratio 0.33
Thermal Conductivity(W/mK)(25ºC) 50-80
Thermal expansion coefficient(10-6/K)(25ºC) 25-33


3. Magnesium-lithium alloy LAZ933 mechanical property standard
          Temper Specification/mm Tensile strength/MPa Yield Strength/MPa Elongation /%

Forging
O
≤100
175 140 10
H112 185 145 8

Extrusion

H112
≤20 205 175 20
>20~50 185 155 15
>50~190 175 145 10



Rolled plate

O
0.40~3.00 185 145 10
>3.00~12.50 175 140 10
>12.50~20.00 170 135 10
H112 2.00~12.50 195 160 10
>12.50~32.00 185 155 10
  >32.00~70.00 175 145 10
4.Magnesium lithium alloy LAZ933 measured value of mechanical properties
          Temper Specification/mm Tensile strength/MPa Yield Strength/MPa Elongation /%

Forging
O
80
186 148 23.5
H112 199 152 18.5

Extrusion

H112
φ16 225 191 22.0
φ48 219 180 19.0
φ110 196 168 15.0



Rolled plate

O
2.5 191 151 38.5
10 187 148 35.0
15 183 144 32.0
H112 3 209 166 31.5
15 189 159 27.0

 Magnesium-lithium alloy features:
1. Ultralight: The lightest metal structure material in the world, with a density of 1.35-1.65g/cm3, which is 1/2 lighter than aluminum alloy and 1/3 lighter than magnesium alloy.
2. Excellent rigidity: The rigidity is 22 times that of steel; the weight of magnesium and lithium required for the same rigidity is only 1/3 of that of steel.
3. Superplasticity: The tensile elongation rate of magnesium-lithium at high temperature can reach 758%. The superplastic forming process can obtain thin-walled parts with precise size, complex shape and uniform grain structure.
4. Good electrical and thermal conductivity: The thermal conductivity is about 300 to 400 times that of plastics, which is 30-50 times that of carbon fiber composite materials, and the electrical conductivity is about 1016 times that of plastics and 104 times that of carbon fiber composite materials.
5. Excellent shock absorption performance: With a large internal friction coefficient, energy can be consumed inside the metal, which can effectively improve the stability of the equipment, and is suitable for making equipment with shock absorption requirements, such as aerospace shock absorption parts, tank.
6. Excellent electromagnetic shielding performance: Magnesium lithium alloy has a good shielding effect on electromagnetic waves of different bands. It is suitable for making gyroscope shells, shielding shelters, anti-interference control cabinets, etc., to improve the safety of equipment, accuracy.
7. Good welding performance: Magnesium lithium is easy to weld with the body alloy and other magnesium alloys. Laser welding, friction stir welding, TIG welding, electron beam welding and brazing can be used for welding.
8. Excellent machining performance and cold forming ability: Magnesium-lithium machining performance is excellent, the surface quality is good, the cutting force is small, and the energy consumption is low. The cold working performance is very excellent, the total cold rolling processing rate can reach 90%, and it can be stamped and formed at room temperature.


Application area:
  1. Aerospace industry: Magnesium alloy materials can greatly reduce the weight and fuel cost of aircraft by virtue of their light weight. The reduction of aircraft weight can improve aircraft maneuverability and combat effectiveness. The excellent shock absorption performance of magnesium-lithium alloy can reduce the problems of engine operation and aerodynamic noise caused by missiles, carrier rockets and aircraft in flight.
  2. Military field: Magnesium alloy is used as a lightweight structural material, and magnesium-lithium alloy is used to replace aluminum alloy and titanium alloy, which can achieve a weight reduction effect of 20% to 40%.
  3. 3C field: Magnesium-lithium alloy has good cold working performance, can realize room temperature stamping forming, and is widely used in electronic products such as computers and communication equipment. In addition, magnesium-lithium alloy also has excellent electromagnetic shielding performance. The use of magnesium-lithium alloy to prepare notebook LCD screen frames, back shells, keyboard frame shells and other parts can reduce weight, enhance heat dissipation, and increase impact resistance. Electromagnetic interference makes the transmitted data more real and accurate.
Detailed Photos

Magnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-ResistantMagnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-ResistantMagnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-ResistantMagnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-ResistantMagnesium Lithium Alloy Laz933– Lightweight, High-Strength, Corrosion-Resistant

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