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Water Atomized Ferrous Bulk Iron Powder For PM Metallurgy Parts

China Water Atomized Ferrous Bulk Iron Powder For PM Metallurgy Parts

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Water Atomized Ferrous Bulk Iron Powder For PM Metallurgy Parts

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
Shelf Life	2 years
Application	Metal additive, catalyst, magnetic material
Appearance	Fine gray powder
Density	7.87 g/cm3
Storage Condition	Store in a cool, dry place
Boiling Point	2862 °C
Particle Size	100 mesh
Purity	99.9%
Solubility	Insoluble in water
Melting Point	1538 °C
Cas Number	7439-89-6
Chemical Formula	Fe
Molecular Weight	55.845 g/mol
Brand Name	Zhongli
Model Number	SSP-01
Certification	ISO,CE,MSDS
Place of Origin	China

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Product Details
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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
Shelf Life	2 years	Application	Metal additive, catalyst, magnetic material
Appearance	Fine gray powder	Density	7.87 g/cm3
Storage Condition	Store in a cool, dry place	Boiling Point	2862 °C
Particle Size	100 mesh	Purity	99.9%
Solubility	Insoluble in water	Melting Point	1538 °C
Cas Number	7439-89-6	Chemical Formula	Fe
Molecular Weight	55.845 g/mol	Brand Name	Zhongli
Model Number	SSP-01	Certification	ISO,CE,MSDS
Place of Origin	China
High Light	Atomized bulk iron powder ，Metallurgy bulk iron powder ，Atomized ferrous powder metallurgy

Product Description

Water Atomized Iron Powder: A Cost-Effective Solution for PM Powder Metallurgy Parts

In the ever-evolving world of powder metallurgy (PM), the quest for cost-effective and efficient materials is relentless. Water atomized iron powder has emerged as a promising contender, offering a budget-friendly alternative for producing high-quality PM parts.

Understanding Water Atomized Iron Powder

Water atomized iron powder is produced by dispersing molten iron into fine droplets using high-pressure water jets. This process results in irregularly shaped particles with a high surface area, making them ideal for various applications in powder metallurgy. The primary advantage of water atomization is its cost-effectiveness compared to gas atomization, which involves more expensive processes and equipment.

Key Benefits of Water Atomized Iron Powder

Cost-Effectiveness: Water atomized iron powder is significantly cheaper than its gas atomized counterpart. This affordability makes it an attractive option for industries looking to reduce production costs without compromising quality.
High Purity and Density: Despite its economical production process, water atomized iron powder maintains high purity levels. Manufacturers like Höganäs emphasize the powder's high compressibility and strength, making it suitable for producing dense and durable PM parts.
Versatility in Applications: From automotive to aerospace, water atomized iron powder finds applications across multiple sectors. Its adaptability to different sintering processes and compatibility with various alloying elements enhance its utility in producing complex PM components.

Applications in Powder Metallurgy

Water atomized iron powder is extensively used in the production of sintered parts, which are integral to industries such as automotive, aerospace, and medical. The powder's high compressibility and strength allow for the creation of intricate designs and robust components.

A Comparative Analysis: Water Atomized vs. Gas Atomized Iron Powder

Production Process

Water Atomization: Involves cooling molten iron with water jets, resulting in irregularly shaped particles. This method is cost-effective and suitable for large-scale production.
Gas Atomization: Utilizes inert gases to form spherical particles, offering better flowability but at a higher cost.

Material Properties

Flowability: Gas atomized powders typically exhibit superior flowability due to their spherical shape, which is beneficial for certain additive manufacturing processes.
Density and Strength: Both water and gas atomized powders can achieve high densities and strengths, but water atomized powders often require additional processing techniques, such as liquid phase sintering, to enhance these properties.

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.

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Guangzhou Zoli 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 millin... Guangzhou Zoli 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 millin...

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