Method for preparing ferro-aluminum alloy porous material

A porous material, iron-aluminum alloy technology, applied in the field of preparation of iron-aluminum alloy porous materials, can solve the problems of price barriers, low reliability, and inability to completely solve product quality stability

A porous material, iron-aluminum alloy technology, applied in the field of preparation of iron-aluminum alloy porous materials, can solve the problems of price barriers, low reliability, and inability to completely solve product quality stability

CN101684528AInactive Publication Date: 2010-03-31ๆŽ็Ž‰ๆธ…
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  • Method for preparing ferro-aluminum alloy porous material
  • Method for preparing ferro-aluminum alloy porous material

Examples

Experimental program
Comparison scheme
Effect test

Embodiment

[0015] Embodiment Table 1 (the following components are according to weight percentage)

[0016] Example

Fe

FeAl 2

1

71.8

28.2

2

52

48

3

34

66

4

3.8

96.2

[0017] Embodiment Table 2 (the following components are according to weight percentage)

[0018] Example

Fe

Fe 2 Al 5

5

74.7

25.3

6

55.5

44.5

7

37

63

8

14.6

85.4

[0019] Embodiment Table 3 (percentage by weight)

[0020] Example

Fe

FeAl 3

9

76.6

23.4

10

57.5

42.5

11

39

61

12

16.7

83.3

[0021] Embodiment Table 4 (percentage by weight)

[0022] Example

Fe

FeAl 2

Fe 2 Al 5

13

72

14

14

13

53

22

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PUM

PropertyMeasurementUnit
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Abstract

The invention relates to a method for preparing a ferro-aluminum alloy porous material, which is directly used for producing the porous material or a filtering element based on a ferro-aluminum inter-metallic compound. The method comprises the following steps: adopting powder containing ferro-aluminum components, and mixing the powder according to the designed weight component ratio; preparing themixture into flaky or formed blanks by adopting die forming, and controlling the pressure between 50 and 300 MPa, or preparing the mixture into tubular parisons by adopting isostatic cool pressing, and controlling the isostatic pressure between 50 and 200 MPa; and adopting a pressureless sintering process at a temperature of between 950 and 1,250 DEG C in a sintering atmosphere of hydrogen gas orcracked ammonia, or adopting vacuum sintering, wherein the key improvements are that the powder containing the ferro-aluminum components comprises Fe powder with the particle size of between 300 and1 mum and FexAly powder with the particle size of between 300 and 1 mum, and the Fe accounts for 76.6 to 3.5 percent and the FexAly accounts for 23.4 to 96.2 percent in percentage by weight.

Description

technical field [0001] The method relates to a method for preparing iron-aluminum alloy porous materials by means of powder metallurgy technology. It is an improvement on the prior art. technical background [0002] The method of preparing iron-aluminum alloy porous materials is a topic of much concern at present. Especially with the current high-speed development of modern industry, energy waste and environmental pollution are becoming more and more serious. A large amount of dusty high-temperature gas, coal gas, gas, and flue gas, has become a threat to human survival. High-pollution industries, such as iron and steel, thermal power, and various furnaces, form the main source of pollution. The traditional process and equipment used in the purification, filtration and dust removal process or system of pollution control, due to the limitation of material characteristics, can no longer meet the situation requirements of energy saving and consumption reduction. The solutio...

Claims

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Application Information

Patent Timeline
31 Mar 2010
Publication
CN101684528A
IPC
C22C1/08
Inventors
ๆŽ็Ž‰ๆธ