FE6080 Iron-based Amorphous Powder Fe-Cr-P-C

Catalog No. FE6080

Main Composition Fe, Cr, P, C

Form Dark gray powder

Particle Size 15-53μm, or customized

Iron-based Amorphous Powder Fe-Cr-P-C easily forms a coating structure with nearly 100% amorphous phase, significantly enhancing the high-temperature resistance of the coating. Stanford Advanced Materials (SAM) has rich experience in manufacturing and supplying high-quality Iron-based Amorphous Powder.

Catalog No. FE6080

Main Composition Fe, Cr, P, C

Form Dark gray powder

Particle Size 15-53μm, or customized

Iron-based Amorphous Powder Fe-Cr-P-C Description

Iron-based Amorphous Powder Fe-Cr-P-C is specially designed for excellent high-temperature resistance while avoiding the use of costly metals such as Mo, Ni, and Y. The primary components, Fe, Cr, P, and C, help lower the raw material costs while achieving an amorphous content close to 100%, providing a highly cost-effective solution. When used in the production of amorphous coatings, this powder easily forms a coating with nearly 100% amorphous phase, greatly enhancing the coating's resistance to high temperatures.

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	hr	g	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
316L SS	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.