Kovový prášek atomizovaný plynem

Overview of Gas Atomized Metal Powder

Gas atomized metal powders are a crucial component in modern manufacturing, especially in industries like aerospace, automotive, and medical devices. This type of powder is produced by atomizing molten metal into fine particles using a high-pressure gas stream. The result is a powder with excellent sphericity, uniform particle size distribution, and high purity, which makes it ideal for a variety of applications.

The importance of gas atomized metal powders cannot be overstated. These powders are vital in additive manufacturing, powder metallurgy, and surface coating processes. Their unique properties enable the production of high-performance components with enhanced mechanical properties, making them indispensable in advanced manufacturing technologies.

Typy Gas Atomized Metal Powders

Kovový prášek	Kompozice	Vlastnosti	Charakteristiky
Nerezová ocel 316L	Fe, Cr, Ni, Mo	Vysoká odolnost proti korozi, dobrá pevnost	Spherical shape, uniform particle size
Titan Ti6Al4V	Ti, Al, V	Vysoký poměr pevnosti a hmotnosti, vynikající biokompatibilita	High purity, spherical shape
Inconel 718	Ni, Cr, Fe, Nb, Mo, Ti, Al	Pevnost při vysokých teplotách, odolnost proti korozi	High flowability, uniform particle distribution
Kobalt-chrom	Co, Cr, Mo	Wear resistance, high hardness	Good sphericity, consistent particle size
Hliník AlSi10Mg	Al, Si, Mg	Lehké, dobré mechanické vlastnosti	High thermal conductivity, spherical particles
Maraging Steel	Fe, Ni, Co, Mo, Ti	Mimořádně vysoká pevnost, houževnatost	Fine microstructure, uniform particles
Měď	Cu	Vysoká elektrická a tepelná vodivost	Spherical shape, high purity
Nástrojová ocel M2	Fe, W, Mo, V, Cr	Vysoká odolnost proti opotřebení, houževnatost	Consistent particle size, high density
Nickel Superalloy 625	Ni, Cr, Mo, Nb	Vynikající odolnost proti únavě a tečení	High flowability, spherical particles
Karbid wolframu	WC	Extreme hardness, high wear resistance	Spherical shape, high melting point

Applications of Gas Atomized Metal Powder

Aplikace	Popis
Aditivní výroba (3D tisk)	Used in producing complex geometries with high precision and minimal waste.
Prášková metalurgie	Enables the creation of high-strength components through sintering and compacting processes.
Tepelné postřik	Provides a coating solution for improving surface properties like wear and corrosion resistance.
Horké izostatické lisování (HIP)	Used to eliminate porosity in cast and sintered parts, improving mechanical properties.
Metal Injection Molding (MIM)	Allows the production of intricate shapes with fine details in large quantities.
Surface Coating	Enhances surface characteristics such as hardness and corrosion resistance.
Biomedicínské implantáty	Used to manufacture implants due to biocompatibility and strength properties.
Aerospace komponenty	Creates high-performance parts that withstand extreme conditions.
Automobilové součástky	Produces lightweight and high-strength components, improving fuel efficiency and performance.
Electrical and Thermal Conductors	Provides high conductivity materials for electrical and thermal applications.

Specifikace, velikosti, třídy, normy

Kovový prášek	Specifikace	Velikosti	Třídy	Normy
Nerezová ocel 316L	ASTM F138	15-45µm, 45-100µm	316L	ASTM, ISO
Titan Ti6Al4V	ASTM B348	20-63µm, 45-105µm	Ti6Al4V	ASTM, ISO, AMS
Inconel 718	AMS 5662	15-53µm, 45-105µm	718	AMS, ASTM, ISO
Kobalt-chrom	ASTM F75	20-53µm, 45-150µm	CoCr	ASTM, ISO
Hliník AlSi10Mg	ASTM B928	20-63µm, 45-105µm	AlSi10Mg	ASTM, ISO
Maraging Steel	AMS 6520	15-45µm, 45-105µm	18Ni300	AMS, ASTM
Měď	ASTM B170	20-63µm, 45-105µm	C11000	ASTM, ISO
Nástrojová ocel M2	ASTM A600	15-53 µm, 45-150 µm	M2	ASTM, ISO
Nickel Superalloy 625	AMS 5666	15-45µm, 45-150µm	625	AMS, ASTM, ISO
Karbid wolframu	ASTM B777	1-10µm, 10-45µm	WC	ASTM, ISO

Dodavatelé a podrobnosti o cenách

Dodavatel	Kovový prášek	Cena (za kg)	Poznámky
AP&C	Titan Ti6Al4V	$300	Vysoce kvalitní prášky pro letecký průmysl
Carpenter Additive	Nerezová ocel 316L	$80	Consistent quality, suitable for various applications
Höganäs	Maraging Steel	$150	Specializes in high-strength powder for tooling
Sandvik	Nickel Superalloy 625	$200	Known for high-performance alloys
Přísady GKN	Hliník AlSi10Mg	$70	Competitive pricing for automotive applications
HC Starck	Karbid wolframu	$400	High-quality powders for wear-resistant coatings
LPW Technologie	Inconel 718	$250	Focuses on high-temperature applications
Arcam AB (GE Additive)	Kobalt-chrom	$220	Reliable supplier for medical and dental implants
Kennametal	Nástrojová ocel M2	$90	Provides high-strength powders for various industries
Tekna	Měď	$60	Excellent conductivity powders for electrical uses

Výhody Kovový prášek atomizovaný plynem

1. Superior Quality: Gas atomization produces powders with high purity and minimal contamination, leading to better end-product quality.
2. Excellent Sphericity: The spherical shape of the particles ensures good flowability and packing density, which is critical for additive manufacturing.
3. Rovnoměrná distribuce velikosti částic: Consistency in particle size enhances the reliability of manufacturing processes and the mechanical properties of the final products.
4. Vysoký výkon: The powders offer excellent mechanical properties, such as strength, hardness, and resistance to wear and corrosion.
5. Všestrannost: These powders can be used in a wide range of applications, from 3D printing to thermal spraying, making them highly versatile.

Disadvantages of Gas Atomized Metal Powder

1. Cena: The production of gas atomized metal powders is more expensive compared to other methods, which can increase the overall cost of manufacturing.
2. Energetická náročnost: The process requires significant energy input, which can be a drawback in terms of sustainability and environmental impact.
3. Limited Material Range: Not all metals and alloys can be effectively atomized using gas, limiting the range of materials available.
4. Equipment Requirements: The production process requires specialized equipment and facilities, which can be a barrier to entry for some manufacturers.
5. Výzvy při zpracování: Handling and processing fine powders can present challenges, such as the risk of oxidation or contamination.

Pros and Cons Comparison

Výhody	Nevýhody
High purity and quality	Vyšší výrobní náklady
Excellent sphericity	Energeticky náročný proces
Uniform particle size	Limited material range
Vylepšené mechanické vlastnosti	Requires specialized equipment
Všestranné aplikace	Processing and handling challenges

Často kladené otázky (FAQ)

Otázka	Odpověď
What is gas atomized metal powder?	It is a type of metal powder produced by atomizing molten metal using a high-pressure gas stream, resulting in fine, spherical particles.
Why is gas atomized powder preferred for 3D printing?	Its excellent sphericity and uniform particle size distribution ensure better flowability and packing density, crucial for additive manufacturing processes.
Which industries use gas atomized metal powders?	Industries such as aerospace, automotive, medical devices, and electronics extensively use these powders for their high-performance applications.
Jaké jsou výhody používání prášků rozprašovaných plynem?	They offer superior quality, enhanced mechanical properties, and versatility in various manufacturing processes.
Are there any drawbacks to using gas atomized powders?	The main drawbacks include higher production costs, energy-intensive processes, and the need for specialized equipment.
How does the cost of gas atomized powders compare to other types?	Gas atomized powders are generally more expensive due to the sophisticated production process, but they offer higher quality and performance.
Can all metals be gas atomized?	Not all metals and alloys are suitable for gas atomization, which can limit the range of materials available for this process.

Znát další procesy 3D tisku