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AZ31 Magnesium Alloy Tube

An AZ31 magnesium alloy tube has been deformed by the hot metal gas forming (HMGF) technique. Microstructures before and after deformation have been investigated by using Electron Backscattered Diffraction (EBSD) and Electron Microscopy.
Product Details:

AZ31 Magnesium alloy tube

Extruded Magnesium Alloy Product List

Type

Size(mm)

Actual Size (mm)

Remark

Type

Size(mm)

Actual Size (mm)

Remark

Wire Rod

Φ4

Φ4

 

Round Tubing

Φ22*2

Φ21.9*2.1

 

Φ5

Φ4.9

Φ22*3

 

Φ6

Φ5.92

Φ25*2

Φ24.9*2

Φ8

Φ8.04

Φ25*3

 

Φ11

Φ10.9

Φ28*3

 

Anode Bar

Steel Core Dia.Φ2

S=20

S=19.7

Φ29*2

Φ29.18*2

13*14

12.6*33.6

Φ32*2

Φ32.2*2

Steel Core Dia.Φ3.2~3.5

Φ14

Φ13.94

Φ45*2

Φ44.5*2

Φ50*2.5

Φ49.96*2.5

Φ16

Φ15.7

Φ88*7.5

 

Φ16.04

 

 

Φ16.6

 

 

Φ17

Φ17.4

Square Tubing

20*20*2

19.7*19.7*2

 

Φ17.6

25*25*2.5

25*25*2.5

Φ18

Φ17.8

45*26*(3*2)

45*26*(3.3*2)

Φ18

50*30*2.5

49.7*29.8*2.5

Φ19

Φ18.7

 

 

Φ18.6

 

 

Φ19.1

 

 

Φ20

Φ19.8

Plates

25*5

24.7*24.7

 

Φ20.6

50*5

49.5*4.7

Φ21

Φ20.8

75*4

75.1*3.9

Φ21.3

80*1.6

79*1.65

Φ22

Φ21.8

80*2

 

 

90*1.4

89.7*1.35

Φ23

Φ22.6

100*1.2

100*1.15

Φ22.8

100*2

99.8*1.9

Φ23.5

 

 

Φ26

Φ25.9

 

 

Φ26.2

 

 

Φ33

Φ32.6

Section Bar

30*10*2.5

 

L shape

Φ33.3

45*23*2.5

 

 

Ribbon

9.5*19

9.4*18.8

50*25*2.5

 

 

Steel Core Dia.Φ5.3

Φ18

Φ17.95

96.5*35*3

 

Φ19

Φ18.7

 

 

Φ20

Φ19.8

10*10*1.8

 

Φ21

Φ20.8

15*15*2

 

Alloy Bar

Φ19

Φ18.8

 

 

Φ21

Φ20.8

16*26

 

Penknife use material

Φ22

 

13*78

 

Cooling fin

Φ25

Φ24.8

25*25*2.5

25*25*2.5

Concave shape

Φ26

Φ26.3

50*50*50*2.5

49.1*49.1*49.1*2.5

Triangle

Φ28

Φ27.75

50*25*2.5

 

Semi-circle

Φ40

Φ39.9

45*13*2

 

Iformation

Φ50

Φ49.74

 

 

 

Φ60

Φ59.5

 

 

 

Re: We can also produce them as per your datas & drawings


An AZ31 magnesium alloy tube has been deformed by the  hot metal gas forming (HMGF) technique. Microstructures before and after  deformation have been investigated by using Electron Backscattered Diffraction  (EBSD) and Electron Microscopy. Due to the inhomogeneous distribution by  induction heating, there is a temperature gradient distribution along the tube  axis. Accordingly, the deformation mechanism is also different. In the middle  area of deformation zone where the temperature is ∼410 °C, almost no twinning has  been found, whereas at the edge areas of deformation zone where the temperature  is ∼200 °C, a high density of twins  has been found. EBSD experiments show a weak (0001) fiber texture along the  radial direction of the tube before and after deformation in the high-temperature zone. EBSD  experiments on the low temperature deformation region were not successful due  to the high stored energy. Schmid factor analysis on the EBSD data shows that,  despite the (0001) fiber texture, there are still many grains favoring basal  slip along both the axis direction and hoop direction.


Development  of Cyclic Rotating Bending Process for Microstructure Control of AZ31 Magnesium Alloy Tube

AZ31 Magnesium Sheet\Plate

Magnesium  alloys, the lightest metal structure material for engineering  applications, have taken a great interest in the automotive, aerospace,  weapons, electronic and other fields, because of their low density, high  specific strength and stiffness, good damping characteristics, as well as  excellent castability. Especially in the field of automobile industry,  magnesium alloys have replaced the steel, cast iron and even aluminum alloys  (Magnesium is the lightest of all structural metals, aluminum being 1.5 time heavier and steel being 4 times heavier), because they can reduce the weight of  vehicles, so that significantly contribute to fuel economy and reducing CO2  emissions.

AZ31 Magnesium alloy is  the most ductile and the most popular amongst AZ wrought alloys (Mg-Al-Zn group). Soft as it is, this alloy offers good combination of strength and  ductility for structural application after deformation with severe reductions.

The AZ31 alloy wrought magnesium tooling plate has  the many benefits and special characteristics which gives the AZ31 many  advantages like: Absorbs vibration for much more lifetime, while keeping dimensional stability, 4 to 5 times greater tool life, Up to 5 times more  machinable than rolled aluminum, machine dry, without oil or chemicals, easier  handling saves time and energy, eliminates surface machining, with no stress  relief after machining process; no warps and is dent resistant, strong weldments - up to 95% of parent metal, with minimum porosity, made for easy  cleaning, with wide variety of chemical treatments exists for corrosion  protection, alteration of surface appearance, and to provide a base for  painting.

Magnesium  sheet and plate AZ31 alloy find  application in medium strength service at temperatures below 150C. Diverse uses  including aircraft fuselage, concrete tools, cell phone, camera, notebook computer cases and textile machinery.

 

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