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Gray Fine Fe Based Atomized Iron Powders Industrial For Metallic Coatings

China Gray Fine Fe Based Atomized Iron Powders Industrial For Metallic Coatings

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Gray Fine Fe Based Atomized Iron Powders Industrial For Metallic Coatings

MOQ： 1kg
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Payment Terms	L/C,T/T,Western Union,MoneyGram
Supply Ability	15-20ton per month
Delivery Time	within 15 days
Packaging Details	plastic+drum
Magnetic Properties	Ferromagnetic
Molar Mass	55.845 g/mol
Thermal Conductivity	80.4 W/m·K
Particle Size	1-100 microns
Density	7.87 g/cm3
Boiling Point	2862 °C
Electrical Conductivity	1.0 × 10^6 S/m
Solubility	Insoluble in water
Chemical Formula	Fe
Appearance	Fine gray powder
Melting Point	1538 °C
Applications	Metallic coatings, magnetic materials, catalysts, etc.
Purity	99.9%
Cas Number	7439-89-6
Brand Name	Zhongli
Model Number	SSP-01
Certification	ISO,CE,MSDS
Place of Origin	China

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Product Specification


Payment Terms	L/C,T/T,Western Union,MoneyGram	Supply Ability	15-20ton per month
Delivery Time	within 15 days	Packaging Details	plastic+drum
Magnetic Properties	Ferromagnetic	Molar Mass	55.845 g/mol
Thermal Conductivity	80.4 W/m·K	Particle Size	1-100 microns
Density	7.87 g/cm3	Boiling Point	2862 °C
Electrical Conductivity	1.0 × 10^6 S/m	Solubility	Insoluble in water
Chemical Formula	Fe	Appearance	Fine gray powder
Melting Point	1538 °C	Applications	Metallic coatings, magnetic materials, catalysts, etc.
Purity	99.9%	Cas Number	7439-89-6
Brand Name	Zhongli	Model Number	SSP-01
Certification	ISO,CE,MSDS	Place of Origin	China
High Light	Metallic coatings iron powder ，Fe Based iron powder ，Fine atomized iron powder

Product Description

IronCore Powders: High-Performance Fe-Based Materials for Industrial Applications

In the ever-evolving landscape of industrial manufacturing, the demand for high-performance materials that offer durability, versatility, and cost-effectiveness is paramount. IronCore Powders have emerged as a leading solution, providing Fe-based materials that cater to a wide range of industrial applications. From automotive to aerospace, these iron-based powders are revolutionizing the way industries approach material science and engineering.

Understanding Fe-Based Metal Powders

Fe-based metal powders are fundamental materials utilized in additive manufacturing, particularly in 3D printing applications. Known for their excellent mechanical properties, cost-effectiveness, and versatility, these powders are widely used across various industries.

Key Properties of Fe-Based Powders

High Strength and Toughness: Iron-based powders provide superior mechanical strength and toughness, making them suitable for a wide range of applications, from automotive components to aerospace parts.
Thermal Conductivity: These powders offer good thermal conductivity, essential for components requiring efficient heat dissipation.
Wear Resistance: Fe-based powders exhibit excellent wear resistance, crucial for parts subjected to friction and mechanical stress.
Corrosion Resistance: With appropriate alloying, these powders can achieve outstanding corrosion resistance, suitable for various environments.
Magnetic Properties: Iron's inherent magnetic properties make Fe-based powders ideal for electrical and magnetic applications.

Applications Across Industries

Fe-based powders have found extensive applications in several industries due to their versatile properties.

Automotive Industry

High-Performance Parts: Used in the production of gears, bearings, and engine components due to their strength and durability.
Cost-Effective Solutions: Iron-based powders offer a cost-effective alternative to other metal powders, making them a preferred choice.

Aerospace Industry

Lightweight Components: Utilized for manufacturing lightweight yet strong components that meet stringent aerospace requirements.
Enhanced Durability: Fe-based powders provide wear resistance and thermal insulation, crucial for high-temperature environments.

Consumer Goods

Durable Products: Applied in creating durable and cost-effective products, from kitchenware to tools and machinery.

Industrial Applications

Robust Components: Suitable for producing robust components in various industrial applications, including machinery and structural parts.

Electronics

Magnetic and Electrical Components: Used in the production of magnetic and electrical components due to iron's magnetic properties.

Advantages in 3D Printing

The integration of Fe-based metal powders in 3D printing has opened new avenues for design and manufacturing.

Cost-Effective: Iron-based powders are generally more affordable than other metal powders, making them a cost-effective choice for many applications.
Design Flexibility: 3D printing with Fe-based powders allows for the creation of complex geometries and intricate designs that are difficult to achieve with traditional manufacturing methods.
Material Efficiency: Additive manufacturing minimizes material waste, as the powder is precisely deposited only where needed.
Customization: Iron powders enable the production of custom parts tailored to specific requirements, particularly beneficial in automotive and industrial applications.
Rapid Prototyping: The ability to quickly prototype and iterate designs accelerates development cycles and time-to-market.

Production Methods

The production of Fe-based powders involves several methods, each offering distinct advantages:

Gas Atomization: Produces spherical iron powder particles ideal for 3D printing, ensuring consistent layer deposition and high-quality prints.
Water Atomization: Creates fine, irregularly shaped powders with good flowability, suitable for a range of applications.
Mechanical Milling: Involves breaking down iron into fine powders through mechanical processes, resulting in particles suitable for specific uses.

Property	Iron-Based Alloy Powders	Stainless Steel (316L)	Nickel Alloys (Inconel 625)	Titanium (Ti-6Al-4V)
Density (g/cm³)	7.4–7.9 (varies by alloy)	7.9	8.4	4.4
Hardness (HRC)	20–65 (depends on heat treatment)	25–35	20–40 (annealed)	36–40
Tensile Strength (MPa)	300–1,500+	500–700	900–1,200	900–1,100
Corrosion Resistance	Moderate (improves with Cr/Ni)	Excellent	Excellent	Excellent
Max Operating Temp. (°C)	500–1,200 (alloy-dependent)	800	1,000+	600
Cost (vs. Pure Fe = 1x)	1x–5x (alloy-dependent)	3x–5x	10x–20x	20x–30x

Injection molding of powder injection molding technology

Compared with traditional process, with high precision, homogeneity, good performance, low production cost, etc. In recent years, with the rapid development of MIM technology, its products have been widely used in consumer electronics, communications and information engineering, biological medical equipment, automobiles, watch industry, weapons and aerospace and other industrial fields.

Grade	Chemical Nominal Composition(wt%)
Alloy	C	Si	Cr	Ni	Mn	Mo	Cu	W	V	Fe
316L			16.0-18.0	10.0-14.0		2.0-3.0	-	-	-	Bal.
304L			18.0-20.0	8.0-12.0		-	-	-	-	Bal.
310S			24.0-26.0	19.0-22.0		-	-	-	-	Bal.
17-4PH			15.0-17.5	3.0~5.0		-	3.00-5.00	-	-	Bal.
15-5PH			14.0-15.5	3.5~5.5		-	2.5~4.5	-	-	Bal.
4340	0.38-0.43	0.15-0.35	0.7-0.9	1.65-2.00	0.6-0.8	0.2-0.3	-	-	-	Bal.
S136	0.20-0.45	0.8-1.0	12.0-14.0	-		-	-	-	0.15-0.40	Bal.
D2	1.40-1.60		11.0-13.0	-		0.8-1.2	-	-	0.2-0.5	Bal.
H11	0.32-0.45	0.6-1	4.7-5.2	-	0.2-0.5	0.8-1.2	-	-	0.2-0.6	Bal.
H13	0.32-0.45	0.8-1.2	4.75-5.5	-	0.2-0.5	1.1-1.5	-	-	0.8-1.2	Bal.
M2	0.78-0.88	0.2-0.45	3.75-4.5	-	0.15-0.4	4.5-5.5	-	5.5-6.75	1.75-2.2	Bal.
M4	1.25-1.40	0.2-0.45	3.75-4.5	-	0.15-0.4	4.5-5.5	-	5.25-6.5	3.75-4.5	Bal.
T15	1.4-1.6	0.15-0.4	3.75-5.0	-	0.15-0.4	-	-	11.75-13	4.5-5.25	Bal.
30CrMnSiA	0.28-0.34	0.9-1.2	0.8-1.1	-	0.8-1.1	-	-	-	-	Bal.
SAE-1524	0.18-0.25	-	-	-	1.30-1.65	-	-	-	-	Bal.
4605	0.4-0.6		-	1.5-2.5	-	0.2-0.5	-	-	-	Bal.
8620	0.18-0.23	0.15-0.35	0.4-0.6	0.4-0.7	0.7-0.9	0.15-0.25	-	-	-	Bal.

Powder specification:

Particle Size	Tapping Density	Particle Size Distribution(μm)
	(g/cm³)	D10	D50	D90
D50:12um	＞4.8	3.6- 5.0	11.5-13.5	22-26
D50:11um	＞4.8	3.0- 4.5	10.5-11.5	19-23

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FAQ

1. What types of stainless steel powders are used in 3D printing?

Common grades include 316L (excellent corrosion resistance), 17-4 PH (high strength and hardness), 304L (general-purpose use), and 420 (wear resistance). Each grade has specific properties suited for different applications.

2. What is the typical particle size for stainless steel powders in 3D printing?

The particle size typically ranges from 15 to 45 micrometers (µm). Spherical particles are preferred for better flowability and packing density.

3. Can stainless steel powders be reused?

Yes, unused powder can often be recycled by sieving and blending with fresh powder. However, excessive reuse can degrade powder quality, so regular testing is recommended.

4. What safety precautions should be taken when handling stainless steel powders?

Avoid inhalation or skin contact by using gloves, masks, and protective clothing.
Store powders in a dry, airtight container to prevent moisture absorption.
Handle powders in a well-ventilated area or under inert gas to minimize explosion risks.

Company Details

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Business Type:

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Year Established:

2017 
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Guangzhou Zhongli Technology Co., Ltd. specializes in the development and production of high-performance metallic and non-metallic materials, as well as cutting-edge nanotechnology solutions for precision grinding and material processing. With a strong foundation in innovative grinding and mil... Guangzhou Zhongli Technology Co., Ltd. specializes in the development and production of high-performance metallic and non-metallic materials, as well as cutting-edge nanotechnology solutions for precision grinding and material processing. With a strong foundation in innovative grinding and mil...

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