Iron Based Powder

PTA Overlaying OXY Spraying Ferrous Alloy Powder

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Product Details


 Ferro Alloy Powder Specifications:

Powder

HRC

Chemical Composition

Coating/Overlaying Process  

Mesh Size 

C

Cr

Si

Fe

Mo

Ni

Mn

B

Others

Fe1

35-40

0.15

22

4.5

Bal 

2

13


1.6


PTA   Overlaying, Laser Cladding

100/270

Fe2

38-44

0.15

22

4.5

Bal 

2

10


1.8


PTA   Overlaying, Laser Cladding

100/270

Fe5

62-67

4

40

1.5

Bal



0.97



PTA Overlaying,   Laser Cladding

100/270

Fe90

50-55

0.15

13.5

1.3

Bal 




1.6


PTA   Overlaying, Laser Cladding

100/270

Fe6

58-60

0.8

7.5

2

Bal 


32


4


OXY   Spraying, PTA Overlaying

100/270

Fe45

40-46

0.6

7.5

2

Bal 


22


3


OXY   Spraying, PTA Overlaying

100/270

  Fe55HIP

52-56

1.3

17

 4.00

  Bal

3

 16.50


 1.00

W:3.50

OXY   Spraying, PTA Overlaying

-100

Fe304


0.03

18

0.1

Bal

-

10

0.3

-


PTA   Overlaying, Laser Cladding, High Velocity Oxygen Fuel Spraying

100/270

Fe304B

30

0.01

18

1

Bal


10


1.5


PTA   Overlaying, Laser Cladding, High Velocity Oxygen Fuel Spraying

100/270

Fe313


0.5

15

1

Bal


0.9

0.4

1.5


PTA   Overlaying, Laser Cladding, High Velocity Oxygen Fuel Spraying

150/325

Fe316L


0.03

17

0.2

Bal

2.5

12

0.5

-


PTA   Overlaying, Laser Cladding, High Velocity Oxygen Fuel Spraying

100/270

Fe410L

220

0.03

12.5

0.5

Bal

-

-

0.1

-


PTA   Overlaying, Laser Cladding, High Velocity Oxygen Fuel Spraying

100/270

Fe253

35

1.75

28

1.3

Bal

4.5

16

0.8

-


PTA   Overlaying

53/20μm

Fe253H

40

2.1

28

1.2

Bal

5.5

11.5

1

-


PTA   Overlaying

53/20μm

Fe6

58-60

0.8

7.5

2

Bal 


32


4


OXY   Spraying, PTA Overlaying

100/270

Fe45

40-46

0.6

7.5

2

Bal 


22


3


OXY   Spraying, PTA Overlaying

100/270

  Fe55HIP

52-56

1.3

17

 4.00

  Bal

3

 16.50


 1.00

W:3.50

OXY   Spraying, PTA Overlaying

-100

Introduction of Global Fusion Ferro Alloy Powder (Iron Based Powder):

Self-fusing iron base alloys are basically iron-carbon alloys with additions of chromium, boron and silicon. They are typically used on mechanical parts for resisting wear and weak acid corrosion. Even though their properties are not as good as nickel, cobalt base alloys, they are readily available and inexpensive, making them popular in less critical applications. 


41.jpg

Iron-based powder metallurgy formula technology is generally used in the processing of mechanical parts. Quenching process is its leading formula technology, in which the iron-based powders will obtain a specific organization after transformed by martensite, afterwards, the powders will temper by cooperating with different temperatures so as to improve the strength and corrosion resistance of powder metallurgy products.

Iron-based powder metallurgy formula technology can also be used in processing the special performance of powder metallurgy products so as to meet different operating requirements of them. In the powder metallurgy formula technology, vibration-assisting filling method is used so as to change the distribution of powder density, thus the powder will be evenly distributed and avoid that the metal powders are not fully and evenly filled, moreover, it also can reduce the crack and failure of powder metallurgy products caused by high frequency induction heating and quenching as it can reduce the induction heating equipment frequency and heating rate as well as lessen the hardness difference between the heating and non-heating area, in which the harness buffer will be generated and reduce crack risks.

Dedicated fixture should be used in the iron-based powder metallurgy formula technology so as to reduce high-frequency effects, meanwhile, cooling water should be used to relieve the internal heat of powder metallurgy products in the inside workpiece and reduce the crack caused by uneven structural stress and thermal stress. After using iron-based powder metallurgy formula technology on the production, crack that generated in the powder metallurgy products has been effectively controlled as well as workpiece qualified rate has been greatly improved.


Powder Producing Principle and Locale

High-Purity Atomized Alloy Powder
(Oxygen Content≤400ppm)

 image013_副本.jpg



Global Fusion Alloy Powder Application Process:


3D Print

25 3D Print.png

PTA Overlaying

26 PTA Overlaying.png

Hot Isostatic Processing

27 Hot Isostatic Processing.jpg

Metal Injection Molding(MIM)


28 Metal Injection Molding(MIM).png

29.jpg


Induction Overlaying

30 Induction Overlaying.png

OXY Acetylene Spraying

31 OXY Acetylene Spraying.png

Laser Cladding

32 Laser Cladding.png

High Velocity Oxygen Fuel Spraying(HVOF or HVAF)

33 High Velocity Oxygen Fuel Spraying.png


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