Iron-based Amorphous Powder Fe-Cr-P-C Description
Iron-based Amorphous Powder Fe-Cr-P-C, which exhibits excellent high-temperature resistance, has been optimized to exclude expensive metals such as Mo, Ni, and Y. The main components of this product are Fe-Cr-P-C, which helps to reduce the cost of the raw material powder while achieving an amorphous content close to 100%, offering a high cost-performance ratio. During the production of amorphous coatings, this powder easily forms a coating structure with nearly 100% amorphous phase, significantly enhancing the high-temperature resistance of the coating.
Iron-based Amorphous Powder Fe-Cr-P-C Specification
Corrosion Data Comparison
|
Powder
|
Solution
|
Original Weight
|
Corrosion Time
|
Weight Loss
|
Corrosion Rate
|
|
g
|
hr
|
g
|
Rc
|
dc
|
|
g/㎡·y
|
μm/y
|
|
Amorphous
|
0.5N HCl
|
10
|
258.5
|
0.44
|
4.143
|
0.57
|
|
0.5N Acetic Acid
|
10
|
258.5
|
0.14
|
1.318
|
0.18
|
|
Saturated NaCl Solution
|
10
|
258.5
|
0
|
0
|
0
|
|
1N NaOH
|
10
|
888
|
0.07
|
0.194
|
0.029
|
|
316L SS
|
0.5N HCl
|
10
|
241
|
2.178
|
688.5
|
87.2
|
|
Saturated NaCl Solution
|
10
|
216
|
0.039
|
11.1
|
1.39
|
Iron-based Amorphous Powder Fe-Cr-P-C Application
Iron-based Amorphous Powder Fe-Cr-P-C is mixed with resin as a coating, and composite spraying or brushing is used to prepare a heat-resistant and corrosion-resistant coating with good thermal conductivity. It can be used as a heat exchanger coating in the chemical industry and other fields.
Iron-based Amorphous Powder Fe-Cr-P-C Packaging
Our Iron-based Amorphous Powder Fe-Cr-P-C is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
Safety Information
|
Signal Word
|
Danger
|
|
Hazard Statements
|
H228-H400
|
|
Hazard Codes
|
F
|
|
Risk Codes
|
11
|
|
Safety Statements
|
16
|
|
RTECS Number
|
GL5325000
|
|
Transport Information
|
UN 3089 4.1/PG 2
|
|
WGK Germany
|
3
|
|
GHS Pictograms
|
 
|
FAQs
Q1. What is Iron-based Amorphous Powder (Fe-Cr-P-C)?
Iron-based amorphous powder (Fe-Cr-P-C) is a type of metallic powder composed primarily of iron (Fe), chromium (Cr), phosphorus (P), and carbon (C). It has an amorphous structure, meaning the atoms are arranged in a disordered, non-crystalline way. This structure gives the powder unique properties, such as high hardness and excellent wear resistance.
Q2. What are the key properties of Iron-based Amorphous Powder?
High Hardness: The amorphous structure provides exceptional hardness, making it suitable for wear-resistant coatings.
Corrosion Resistance: The presence of chromium enhances the powder’s resistance to oxidation and corrosion.
High Strength: The material's unique atomic structure results in high mechanical strength.
Thermal Stability: The powder can withstand high temperatures, making it ideal for thermal spraying and other high-temperature applications.
Q3. How is Iron-based Amorphous Powder produced?
This powder is typically produced through rapid solidification processes such as atomization, where molten metal is rapidly cooled to prevent the formation of a crystalline structure, resulting in an amorphous material.
Specification
Corrosion Data Comparison
|
Powder
|
Solution
|
Original Weight
|
Corrosion Time
|
Weight Loss
|
Corrosion Rate
|
|
g
|
hr
|
g
|
Rc
|
dc
|
|
g/㎡·y
|
μm/y
|
|
Amorphous
|
0.5N HCl
|
10
|
258.5
|
0.44
|
4.143
|
0.57
|
|
0.5N Acetic Acid
|
10
|
258.5
|
0.14
|
1.318
|
0.18
|
|
Saturated NaCl Solution
|
10
|
258.5
|
0
|
0
|
0
|
|
1N NaOH
|
10
|
888
|
0.07
|
0.194
|
0.029
|
|
316L SS
|
0.5N HCl
|
10
|
241
|
2.178
|
688.5
|
87.2
|
|
Saturated NaCl Solution
|
10
|
216
|
0.039
|
11.1
|
1.39
|
