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Advantages of Metal 3D PrintingDMLS vs. Binder JetMaterialsApplicationsDownload the Guides

What is Metal 3D Printing?

Metal 3D printing, an additive manufacturing process, produces parts by fusing together metal particles layer by layer to form a metal part. It is often chosen as an alternative to CNC machining or metal casting because it can produce parts with the strength and durability of metal while also taking advantage of the design freedoms afforded by 3D printing. It can produce complex designs including lattices and topology-generated structures, both which are impossible to manufacture via traditional CNC machining.

Use the 3D viewer above to preview Xometry’s part rendering features.

Advantages of Metal 3D Printing

Metal 3D printing is advantageous because it can produce high-performance, complex metal parts that are suited for a range of end environments. Metal 3D printed parts are isotropic, meaning they have even, multi-directional strength, and have the superior mechanical properties of metals like aluminum, stainless steel, titanium, Inconel, tool steel, and stainless steel-bronze composites.

3D metal printing can also be used to combine multiple assembly components into one part. This typically results in a stronger structure by reducing the points of failure introduced by threads and inserts.

With metal 3D printing, CAD file information is sent directly to a printer meaning parts are typically cheaper and faster than producing machined metal parts. Machined metal parts have overhead costs like tooling set-up and longer machining time. Most 3D print metal parts can be turned around in less than a week.

Metal 3D Printing

Direct Metal Laser Sintering (DMLS) 3D Printing Service

Upload your CAD files to get an instant quote on metal prototypes and production parts. Free shipping on all US orders.

Direct Metal Laser Sintering (DMLS) 3D Printing Service

Metal Binder Jetting 3D Printing Service

Upload your CAD files to get an instant quote on parts. Free shipping on all US orders.

Metal Binder Jetting 3D Printing Service

Choosing Between DMLS or Binder Jet Metal

Xometry's 3D metal printing services include direct metal laser sintering (DMLS) and metal binder jetting as options. These processes are suitable for creating metal prototypes, tooling, and production parts on demand. However, each metal 3D printing process uses different metals and fusing methods, resulting in parts with different mechanical properties, prices, and lead times.

Overview of Direct Metal Laser Sintering

DMLS, also known as selective laser melting (SLM), uses a laser to selectively fuse sections of fine metallic powder from the ground up. DMLS is advantageous because it can produce fully dense parts for fluid transfer applications. DMLS can use aluminum AlSi10Mg, stainless steel, maraging steel, tool steel, cobalt chrome, and Inconel. It is more expensive than binder jetting but has superior mechanical properties for high-precision applications. Learn more about DMLS materials, post-processing, tolerances, and applications →

Overview of Binder Jet 3D Printing

Metal binder jet is a multi-step process that first selectively deposits a binding agent onto a metal powder bed, layer by layer, to hold the metal powder in a 3-dimensional shape. This resulting shape is left to cure, then put into a furnace to sinter or be infiltrated with bronze. Binder jet parts with overhanging features are supported by loose powder on all sides of the part, which usually eliminates the need for post-processing.

Binder jetting is a popular metal 3D printing choice because parts are cheap and fast, which allows for higher volume, cost-effective production. Binder jetting metal parts are excellent for functional prototypes or end-use parts with a density of ~95% or greater. Metal binder jetting is also frequently used by artists and hobbyists because of its ability to create complex features at a fraction of the cost of DMLS or machining. Unlike DMLS, binder jet parts are prone to shrinkage so engineers should design parts with design-for-manufacturing principles in mind. This could include scaling their CAD model size by 1-2% and enlarging holes. Learn more about binder jetting materials, post-processing, tolerances, and applications →

Direct Metal Laser Sintering Material Properties

Aluminum AlSi10Mg
Stainless Steel 17-4
Stainless Steel 316/L

New!

Metal Binder Jetting Material Properties

X1 Metal 420i (420 stainless infiltrated with bronze)
Six finishes available

Applications of Metal 3D Printing in Various Industries

Metal 3D printing can be used for rapid industrial tooling, where the metal 3D print can be used for parts with complex curvatures and small, thin-walled parts like conformal jigs and fixtures, stamps, dies, and cutting inserts.

For other industries like consumer products, robotics, aerospace, and defense, metal 3D printing can be used for integrated fastening features, end-effectors, and metal lattice structures. Since metal 3D printed parts have excellent durability and strength, they can be used in fully functional late-stage prototypes or end-use parts for any of the above applications.

Read about how this global distributor uses DMLS for custom shading systems, including high-strength coupling brackets and zipper assemblies.

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Why Choose Xometry for 3D Metal Printing Service?

Endless Options

Choose from millions of possible combinations of materials, finishes, tolerances, markings, and certifications for your order.

Easy to Use

Get your parts delivered right to your door without the hassle of sourcing, project management, logistics, or shipping.

Vetted Network

We are ISO 9001:2015, ISO 13485, and AS9100D certified. Only the top shops that apply to become Suppliers make it through our qualification process.

Get the Binder Jetting Design Guide

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Metal 3D Printing Service for Custom Parts

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→ Capabilities
→ Available Alloys
→ Compare Material Properties
→ Surface Finishes
→ Post-Processing
→ Why Metal 3D Printing?

Direct metal laser sintering (DMLS) is an industrial metal 3D printing process that builds fully functional metal prototypes and production parts in 7 days or less. A range of metals produce final parts that can be used for end-use applications.

Metal 3D printing technology is commonly used for:

Prototyping in production-grade materials
Complex geometries
Functional, end-use parts
Reducing metal components in an assembly

We hope you find this guide helpful. If the file did not download, you can find it here.

Metal 3D Printing Guide

Jump start your metal 3D printing with this guide that covers material selection, design, post-processing, and quality inspections.

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Metal 3D Printing Capabilities

Our basic guidelines for metal 3D printing include important design considerations to help improve part manufacturability, enhance cosmetic appearance, and reduce overall production time.

Metal 3D Printing Tolerances

For well-designed parts, tolerances of +0.003 in. (0.076mm) plus 0.1% of nominal length can typically be achieved. Note that tolerances may change depending on part geometry.

Max Dimensions

Layer Thickness

Minimum Feature Size

Tolerances

*At this time, Inconel 718 and Aluminum are the only materials available on our large format, X Line machine

Below is our available metal alloys for 3D printing. Various heat treatments are available depending on material.

Stainless Steel (17-4 PH)

Stainless Steel 17-4 PH is a precipitation hardened stainless steel that is known for its hardness and corrosion resistance. If needing a stainless steel option, select 17-4 PH for its significantly higher tensile strength and yield strength, but recognize that it has far less elongation at break than 316L. Final parts built 17-4 PH receive vacuum solution heat treatment as well as H900 aging.

Primary Benefits

Heat treated for full hardness and strength
Corrosion resistance

LEARN MORE>

Stainless Steel (316L)

Stainless steel 316L is a workhorse material used for manufacturing acid and corrosion resistant parts. Select 316L when stainless steel flexibility is needed; 316L is a more malleable material compared to 17-4 PH. Final parts built in 316L receive stress relief application.

Primary Benefits

Acid and corrosion resistance
High ductility

LEARN MORE>

Aluminum (AlSi10Mg)

Aluminum (AlSi10Mg) is comparable to a 3000 series alloy that is used in casting and die casting processes. It has good strength -to-weight ratio, high temperature and corrosion resistance, and good fatigue, creep and rupture strength. AlSi10Mg also exhibits thermal and electrical conductivity properties. Final parts built in AlSi10Mg receive stress relief application.

Primary Benefits

High stiffness and strength relative to weight
Thermal and electrical conductivity

LEARN MORE>

Inconel 718

Inconel is a high strength, corrosion resistant nickel chromium superalloy ideal for parts that will experience extreme temperatures and mechanical loading. Final parts built in Inconel 718 receive stress relief application. Solution and aging per AMS 5663 is also available to increase tensile strength and hardness.

Primary Benefits

Oxidation and corrosion resistance
High performance tensile, fatigue, creep, and rupture strength

LEARN MORE>

Cobalt Chrome (Co28Cr6Mo)

Cobalt Chrome (Co28Cr6Mo) is a superalloy is known for its high strength-to-weight ratio.

Primary Benefits

High performance tensile and creep
Corrosion resistance

LEARN MORE>

Titanium (Ti6Al4V)

Titanium (Ti6Al4V) is a workhorse alloy. Versus Ti grade 23 annealed, the mechanical properties of Ti6Al4V are comparable to wrought titanium for tensile strength, elongation, and hardness. Final parts built in Ti6Al4V receive vacuum stress relief application.

Primary Benefits

High stiffness and strength relative to weight
High temperature and corrosion resistance

LEARN MORE>

Compare Material Properties

20 μm = high resolution (HR)
30, 40, and 60 μm = normal resolution (NR)

US
Metric

Materials	Resolution	Condition	Ultimate Tensile Strength (ksi)	Yield Stress (ksi)	Elongation (%)	Hardness
Stainless Steel (17-4 PH)	20 μm	Solution & Aged (H900)	199	178	10	42 HRC
Stainless Steel (17-4 PH)	30 μm	Solution & Aged (H900)	198	179	13	42 HRC
Stainless Steel (316L)	20 μm	Stress Relieved	82	56	78	90 HRB
Stainless Steel (316L)	30 μm	Stress Relieved	85	55	75	88 HRB
Aluminum (AlSi10Mg)	20 μm	Stress Relieved	39	26	15	42 HRB
	30 μm	Stress Relieved	50	33	8	59 HRB
	40 μm	Stress Relieved	43	27	10	50 HRB
Cobalt Chrome (Co28Cr6Mo)	20 μm	As Built	182	112	17	39 HRC
Cobalt Chrome (Co28Cr6Mo)	30 μm	As Built	176	119	14	38 HRC
Inconel 718	20 μm	Stress Relieved	143	98	36	33 HRC
	30 μm	Stress Relieved	144	91	39	30 HRC
	30 μm	Solution & Aged per AMS 5663	208	175	18	46 HRC
	60 μm	Stress Relieved	139	83	40	27 HRC
	60 μm	Solution & Aged per AMS 5663	201	174	19	45 HRC
Titanium (Ti6Al4V)	20 μm	Stress Relieved	153	138	15	35 HRC
Titanium (Ti6Al4V)	30 μm	Stress Relieved	144	124	18	33 HRC

Materials	Resolution	Condition	Ultimate Tensile Strength (MPa)	Yield Stress (MPa)	Elongation (%)	Hardness
Stainless Steel (17-4 PH)	20 μm	Solution & Aged (H900)	1,372	1,227	10	42 HRC
Stainless Steel (17-4 PH)	30 μm	Solution & Aged (H900)	1,365	1,234	13	42 HRC
Stainless Steel (316L)	20 μm	Stress Relieved	565	386	78	90 HRB
Stainless Steel (316L)	30 μm	Stress Relieved	586	379	75	88 HRB
Aluminum (AlSi10Mg)	20 μm	Stress Relieved	268	180	15	46 HRB
	30 μm	Stress Relieved	345	228	8	59 HRB
	40 μm	Stress Relieved	296	186	10	50 HRB
Cobalt Chrome (Co28Cr6Mo)	20 μm	As Built	1255	772	17	39 HRC
Cobalt Chrome (Co28Cr6Mo)	30 μm	As Built	1213	820	14	38 HRC
Copper (CuNi2SiCr)	20 μm	Precipitation Hardened	496	434	23	87 HRB
Inconel 718	20 μm	Stress Relieved	986	676	36	33 HRC
	30 μm	Stress Relieved	993	627	39	30 HRC
	30 μm	Solution & Aged per AMS 5663	1434	1207	18	46 HRC
	60 μm	Stress Relieved	958	572	40	27 HRC
	60 μm	Solution & Aged per AMS 5663	1386	1200	19	45 HRC
Titanium (Ti6Al4V)	20 μm	Stress Relieved	1055	951	15	35 HRC
Titanium (Ti6Al4V)	30 μm	Stress Relieved	993	855	18	33 HRC

These figures are approximate and dependent on a number of factors, including but not limited to, machine and process parameters. The information provided is therefore not binding and not deemed to be certified. When performance is critical, also consider independent lab testing of additive materials or final parts.

Surface Finish Options

Expect roughness values of 200 to 400 µin Ra (0.005 to 0.010mm Ra), depending on material and resolution. Support structures are removed and layer lines are visible.

We offer brushed surfaces in a range of grits and polished mirror finishes. Be sure to indicate if the custom surface finish is for functional or aesthetic purposes so we can best consult you on our custom options.

Post-Processing Capabilities for Metal 3D-Printed Parts

Improve strength, dimensional accuracy, and cosmetic appearance of final metal components with DMLS for production.

Surface Finishing

3- and 5-axis milling
Turning
Polish (Mirror or Brushed)
Passivation
Wire EDM
Tapping and reaming

Heat Treatments

Stress relief
NADCAP heat treatment
Hot isostatic pressing (HIP)
Solution annealing
Aging

Mechanical Testing

Tensile
Rockwell Hardness

Powder Analysis & Material

Traceability
Chemistry
Particle size and distribution analysis

Why Use Metal 3D Printing?

See how metal additive manufacturing technology can be used to reduce components within an assembly, fabricate complex geometries, and ultimately save you time and costs.

Click to enlarge

How Does Metal 3D Printing Work?

The DMLS machine begins sintering each layer—first the support structures to the base plate, then the part itself—with a laser aimed onto a bed of metallic powder. After a cross-section layer of powder is micro-welded, the build platform shifts down and a recoater blade moves across the platform to deposit the next layer of powder into an inert build chamber. The process is repeated layer by layer until the build is complete.

When the build finishes, an initial brushing is manually administered to parts to remove a majority of loose powder, followed by the appropriate heat-treat cycle while still fixtured in the support systems to relieve any stresses. Parts are removed from the platform and support structures are removed from the parts, then finished with any needed bead blasting and deburring. Final DMLS parts are near 100 percent dense.

Large Format Metal 3D Printing

We recently added the GE Additive X Line to our fleet of metal 3D printers to build large Inconel 718 and Aluminum (AlSi10Mg) parts. Have a project that might be a good fit? Contact us and we can discuss your requirements.

Learn More >

Metal 3D Printing for Production

Improve strength, dimensional accuracy, and cosmetic appearance for end-use metal components with post-processing options like CNC machining and heat treatments.

Learn More >

Resources

Post-Processing for Metal 3D Printing

Learn how to improve dimensional accuracy, surface roughness, and mechanical properties on metal parts with high-requirement applications.

Read Design Tip

Combining Part Assemblies with Additive Manufacturing to Reduce Cost and Increase Performance

How to find the right opportunities to consolidate multi-part assemblies into single components with industrial 3D printing

Read White Paper

Inconel 718: A Workhorse Material for Additive Manufacturing

Inconel 718 is a go-to material for additive manufacturing of metal parts.

Read Blog

Large Format 3D Printing for Aluminum and Inconel Parts

When you’re printing really large parts in metal, it’s great to have a choice of materials. Aluminum and Inconel 718 both make a lot of sense, but which one is the best for your application?

Read Blog

Instant quotes on 3D-printed parts

Precise metal 3D printing on order in Sprint 3D

Metal 3D printing - additive manufacturing of metal products, which is rightfully one of the most promising and rapidly developing areas in 3D printing as such. The technology itself originates from the conventional sintering of materials used in powder metallurgy. But now it has become more perfect, accurate and fast. And today SPRINT3D offers you metal printing on 3 D printer on really favorable terms. But first, a little information about the production process itself and its capabilities.

Selective Laser Fusion Technology

SLM or Selective Fusion Technology is a type of direct metal printing that achieves a density of 99.5%. The difference is especially noticeable when compared with models obtained by conventional casting. This indicator is achieved due to the introduction of the latest technologies in the hardware part:

The use of special rollers for compacting powders and, as a result, the possibility of using powders with a particle size of 5 microns.
Bulk density increase to help compact end products.
Creates a rarefied atmosphere of inert gases, which ensures maximum purity of the material, no oxidation, and eliminates the risk of introducing third-party chemical compounds into the composition.

But most importantly, the modern 3 D Metal Printer makes it easy to customize the configuration for printing with a specific metal powder. Thus, even with inexpensive material, you can get a first-class result. But only if you use high-quality modern equipment. And here we are ready to surprise you too!

Metal 3D printing B SPRINT 3D

3D printing with own 3D printers

The largest working area is 280x280x350 mm

layer thickness up to 15 micron

3D with various types of metals

Delivery throughout Russia and CIS countries

installations for 3 D metal print, which we use

Production quality is a key requirement that we set ourselves. Therefore, in our work we use only professional equipment with wide possibilities for metal printing. Let's take a closer look at each of the production units. nine0009

Production unit SLM 280HL

SLM 280HL is a development of the German company SLM Solutions GmbH, which uses the technology of layer-by-layer laser melting of powder metal materials. The installation is equipped with a large working chamber and allows you to create 3D objects with dimensions of 280x280x350 mm. Among the main advantages of printing with this unit are:

Small minimum thickness of the applied layer - 20 microns.
Filling the working chamber with an inert gas, which allows you to work with various reactive metals.
Print speed up to 35 cm/hour.
Construction layer thickness – 30 and 50 µm.
Power - 400 W.

A special highlight is the patented powder feed system, which delivers significantly faster print speeds than most production machines in the same price range. We use the following materials in production:

Stainless steel (domestic 07X18H12M2 (Polema), 12X18H10T and imported 316L).
Tool steel (imported 1.2709).
Heat-resistant alloys 08KhN53BMTYu (similar to Inconel 718, produced by Polem) and EP 741 (produced by VILS).
Cobalt Chrome (COCR)

The SLM 280HL 3D printer can be used to create all kinds of metal components, prototypes and end products. If necessary, we can provide small-scale production. nine0009

ProX 100 production unit

ProX 100 is a compact 3 D metal printing unit developed by the American company 3D Systems. It uses direct laser sintering technology, which ensures high speed and precision of production. Among the main characteristics it is worth highlighting:

The size of the working chamber is 100x100x80 mm.

Construction layer thickness – 20 and 30 µm. nine0021
Power - 50 W.

ProX 100 allows you to create prototypes that cannot be developed by standard methods, provides short lead times, guarantees the absence of material porosity and high part density. In addition, we note the standardized quality of all products, regardless of their structure. At the moment, the model is actively used in dentistry when creating high-precision prostheses, but it has found wide application in other industries:

Manufacture of engines and their individual parts.

Development of medical equipment.

Printing jewelry and even contemporary art.

In printing, we use the KX28M6 cobalt-chromium alloy (Polem's production), originally developed for additive technologies when creating endoprostheses.

Metal 3D printing - current application
Many experts argue that 3D printing as such has not yet fully revealed its potential. For example, Elon Musk plans to use technology in the colonization of Mars to build administrative and residential buildings, equipment and technology right on the spot. And this is quite real, because already now the technology of three-dimensional metal printing is actively used in various industries: The high precision of production and relatively affordable price have made 3D printing very relevant in this industry. nine0021
In the jewelry industry: many of the jewelry companies use 3D printing technology to make molds and stencils, as well as directly create jewelry products. For example, printing with titanium allows you to create products that previously seemed impossible.

In the automotive and even aerospace industries: BMW, Audi, FCA and other companies have been using 3 D metal printing for years in prototyping and are seriously considering its use in series production. And the Italian company Ge-AvioAero is already printing components for LEAP jet engines on 3D printers. nine0021

And this is only a small part of what can be created on modern equipment. Almost all metal products that you need can be created using metal 3D printing technology. And if this service is relevant for you, contact SPRINT3D. We will undertake work of any complexity and volume. And most importantly - we will provide first-class results!

The future is here!

You may be interested in

Metal 3D Printing - A Fundamental Guide

There is no hotter trend in 3D printing today than metal. We will talk about metal printing at home, how it is done on an industrial scale, about technologies, applications, printers, processes, prices and materials.

Metal 3D printing has grown in popularity over the past few years. And this is quite natural: each material offers a unique combination of practical and aesthetic qualities, can be suitable for a wide range of products, prototypes, miniatures, decorations, functional details and even kitchen utensils. nine0009
The reason metal 3D printing has become so popular is because the printed objects can be mass-produced. In fact, some of the printed parts are just as good (if not better) than those made with traditional methods.

In traditional production, working with plastic and metal can be quite wasteful - there is a lot of waste, a lot of excess material is used. When an aircraft manufacturer makes metal parts, up to 90% of the material is simply cut off. 3D printed metal parts require less energy and waste is reduced to a minimum. It is also important that the final 3D printed product is up to 60% lighter than a traditional part. Billions of dollars could be saved in the aviation industry alone—mainly through weight savings and fuel savings.

So, what do we need to know about metal 3D printing?

Metal 3D printing at home

If you want to make objects that look like metal at home, your best bet is to use metallized PLA filaments. ? Given the extreme heat required for true metal 3D printing, a conventional FDM 3D printer will not be able to do this.

It is unlikely that in this decade it will be possible to print with liquid metal at home. Until 2020, you probably will not have a printer specialized for this purpose at home. But in a few years, as nanotechnology advances, we may see significant developments in new applications. This can be 3D printed with conductive silver, which will emit in much the same way as it does in 2D home printers. It will even be possible to mix different materials like plastic and metal in one object. nine0009
Materials for metal 3D printing at home

Even though you can't print actual metal objects at home, you can turn to plastic filament that has metal powders added to it. ColorFabb, ProtoPasta and TreeD Filaments all offer interesting metal-PLA composite filaments. These filaments, containing a significant percentage of metal powders, remain pliable enough to be printed at low temperatures (200 to 300 Celsius) on virtually any 3D printer. At the same time, they contain enough metal to make the final object look, feel, and even weigh like metal. Iron-based filaments even rust under certain conditions. nine0009
But you can go further. Typically, up to 50 percent metal powder is added to 3D printing filament. Dutch company Formfutura says they have achieved 85 percent metal powder with 15 percent PLA. These filaments are called MetalFil Ancient Bronze and Metalfil Classic Copper. They can be printed even at "moderate" temperatures from 190 to 200 degrees Celsius.

Metal 3D Printing Filament Spools, in this case by SteelFill and CopperFill colorFabb (Steel and Bronze), Ancient Bronze by Formfutura

Here are the key points about metal printing at home

Gets a unique metal surface and look

Ideal for jewelry, figurines, housewares, replicas

Durability

Objects are not flexible (structure dependent)

Objects do not dissolve

Not considered food safe

Typical print temperature: 195 - 220°C

Extremely low shrinkage on cooling

No table heating required

Printing complexity is high, requires fine tuning of nozzle temperature, feed rate, post-processing

Preparing your home printer for metal 3D printing

Since getting metal 3D prints is more difficult than usual, you may need to upgrade your 3D printer nozzle, especially if you are an entry-level printer. The metal filament wears it out quickly. There are hard-wearing hot-ends (like the E3D V6) that are themselves made of metal. They can withstand high temperatures and fit most printers. Be prepared for the fact that the nozzles will have to be changed frequently, because the metal filament is very abrasive. nine0009
You will also need to take care of the final finishing of the surface (cleaning, sanding, oiling, waxing or priming) so that the printed metal object shines as it should.

How much does metal filament for 3D printing cost?

And what about metal filament for 3D printing? - you ask. Here are some examples:

ColorFabb's 750 gram Bronzefill spool is $56.36

ColorFabb 750g Copperfill Coil $56.36

Protopasta's Polishable Stainless Steel PLA Composite is $56 for 56 grams of

Protopasta's Rustable Magnetic Iron PLA Composite is $34.99 for 500 grams of

Industrial metal 3D printing

But what if you want a better result or even full metal 3D printing? Should a real "metal" 3D printer be purchased for business needs? We wouldn't recommend it - unless you're going to be doing it every day. A professional metal 3D printer is expensive: EOS or Stratasys devices will cost you 100-500 thousand dollars. In addition, the costs will be even greater, since you will have to hire an operator, a worker to maintain the machine, as well as to finalize the printouts (polishing, for example). Just a note: In 2016, an affordable metal 3D printer didn't exist. nine0009
Lowering Metal 3D Printing Costs

If you are not going to open a metal 3D printing business, but still need a professionally 3D printed metal part, it is better to contact the appropriate company that provides such services. 3D printing services like Shapeways, Sculpteo and iMaterialise offer direct metal printing.

They currently work with the following metal materials in 3D printing:

aluminum

steel

brass

copper

bronze

sterling silver

gold

platinum

titanium

If you are a jeweler, you can also order wax models for casting in precious metals.

If we talk about wax models, then in most cases they (with subsequent melting) are used when printing with metals (including gold and silver). Not all orders are carried out directly by these firms. They usually turn to other metal 3D printing companies to complete the order. However, the number of such services around the world is growing rapidly. In addition, metal 3D printing techniques are becoming more and more common in companies that offer such services. nine0009
The reason 3D printing is so popular with large companies is that it can be used to build fully automated lines that produce "topologically optimized" parts. This means that it is possible to fine-tune the raw materials and make the components thicker only if they must withstand heavy loads. In general, the mass of parts is significantly reduced, while their structural integrity is preserved. And this is not the only advantage of this technology. In some cases, the product turns out to be significantly cheaper and affordable for almost everyone. nine0009
Please note that metal 3D printing requires special CAD software for modeling. It is worth paying attention to the recommendations of Shapeways - 3D printing metal guidelines. To delve further into the topic, check out Statasys’ information on related 3D printers and the nuances of metal 3D printing.

Here are some examples of Benchy test model prices for metal 3D printing:

Metal plastic: $22.44 (former alumide, PLA with aluminium)

Stainless steel: $83.75 (plated, polished)

Bronze: $299.91 (solid, polished)

Silver: $713.47 (solid, mirror polished)

Gold: $87.75 (gold plated, polished)

Gold: $12,540 (solid, 18K gold)

Platinum: $27,314 (solid, polished)

As you might expect, solid metal 3D printing prices are quite high.

Metallic 3D printing. Applications

GE LEAP aircraft engine parts 3D printed at Avio Aero (Photo: GE)

There are several industries already using 3D printers to make everyday objects - you may not even know that these objects are printed. nine0009

The most common case is surgical and dental implants, which are considered the best option for patients today. Reason: they can be tailored to individual needs.

Another industry is jewelry. Here, most manufacturers have abandoned resin 3D printing and wax casting, switching directly to metal 3D printing.

In addition, the aerospace industry is becoming more and more dependent on 3D printed metal objects. The Italian company Ge-AvioAero was the first to do all-metal 3D printing. It manufactures components for LEAP aircraft engines. nine0021
Another industry targeting metal 3D printing is automotive. BMW, Audi, FCA are seriously considering this technology, not only for prototyping (3D printing has been used for this for quite some time), but also for making real parts.

Before metal 3D printing really takes off, however, there are some hurdles to overcome. And first of all, this is a high price, which cannot be made lower than during molding. Another problem is the low production speed. nine0009

Metal 3D printing.
Technologies

Most metal 3D printing processes start with an "atomized" powder

You can talk a lot about "metal" 3D printers, but their main problems remain the same as any other 3D – printers: software and hardware limitations, material optimization and multimateriality. We won't talk too much about the software, we'll just say that most of the major specialized software companies, such as Autodesk, SolidWorks and solidThinking, try to emphasize as much as possible the fact that as a result of the 3D metal printing process, you can get any shape you want. nine0009
In general, printed metal parts can be as strong as parts made by traditional processes. Parts made using DMLS technology have mechanical properties equivalent to casting. In addition, the porosity of objects made on a good "metal" 3D printer can reach 99.5%. In fact, manufacturer Stratasys claims that 3D printed metal parts perform above industry standards when tested for density. nine0009

3D printed metal can have different resolutions. At the highest resolution, layer thickness is 0.0008 - 0.0012" and X/Y resolution is 0.012 - 0.016". The minimum hole diameter is 0.035 - 0.045". formed layer)

The metal 3D printing process used by most relevant large companies today is called Powder Bed Fusion. This name indicates that some source of energy (a laser or other energy beam) melts an "atomized" powder (i.e., a metal powder that is carefully ground into spherical particles), resulting in layers of a printed object.

There are eight major manufacturers of metal 3D printers in the world that already use this technology; while we are talking here, there are more and more such companies. Most of them are in Germany. Their technologies are called SLM (Selective Laser Melting - selective laser fusion) or DMLS (Direct Metal Laser Sintering - direct metal laser sintering). nine0009

Metal 3D-printing process No. 2:

Binder Jetting (spraying the binding substance)
under 3DP-technology of Exone metal objects are printed by binding the powder before its binding in the mining (photos : ExOne)

Another professional approach that also uses a powder base is called Binder Jetting. In this case, the layers are formed by gluing metal particles together and then sintering (or fusing) them in a high-temperature furnace, just like it is done with ceramics. nine0009
Another option, which is similar to working with ceramics, is mixing metal powder into metal paste. A pneumatically extruded 3D printer (similar to a syringe bioprinter or an inexpensive food printer) forms 3D objects. When the required shape is reached, the object is sent to the furnace, i. e. in the mountains

This approach is used in the Mini Metal Maker, apparently the only inexpensive "metal" 3D printer.

Metal 3D printing process #3: 9Metal deposition This is not entirely true. Of course, on some desktop device, simply fusing metal threads onto the base will not work. However, very large steel companies can do it. And they do. There are two options for working with "metal surfacing". nine0009
One is called DED (Directed Energy Deposition) or Laser Cladding. Here, a laser beam is used to melt the metal powder, which is slowly released and solidifies as a layer, and the powder is fed using a robotic arm.

Normally the whole process takes place in a closed chamber, but the MX3D project uses conventional 3D printing techniques to build a full-size bridge. Another option for metal fusion is called EBAM (Electron Beam Additive Manufacturing - additive electron beam technology), which is essentially soldering, in which a very powerful electron beam is used to melt 3 mm titanium wire, and the molten metal forms very large finished structures. As for this technology, its details are known so far only to the military. nine0009

Metallic 3D printing. Metals

3D Printing Metal #1: Titanium

Pure titanium (Ti64 or TiAl4V) is one of the most commonly used metals for 3D printing and is definitely one of the most versatile, strong and lightweight. Titanium is used both in the melting process in a preformed layer and in the process of spraying a binder and is used mainly in the medical industry (for the manufacture of personal prostheses), as well as in the aerospace industry, automotive and machine tools (for the manufacture of parts and prototypes). But there is one problem. Titanium is very reactive and explodes easily in powder form. Therefore, it is necessary that titanium 3D printing takes place in a vacuum or in an argon environment. nine0009

3D printing metal #2: Stainless steel

Stainless steel is one of the cheapest 3D printing metals. At the same time, it is very durable and can be used in a wide range of manufacturing and even artistic and design applications. The type of steel alloy used also contains cobalt and nickel, is very difficult to break, and has a very high elasticity. Stainless steel is used almost exclusively in industry. nine0009

3D Printing Metal #3: Inconel

Inconel is a superalloy manufactured by Special Metals Corporation, its registered trademark. The alloy consists mainly of nickel and chromium and is very heat resistant. Therefore, it is used in the oil, chemical and aerospace (for black boxes) industries.

3D Printing Metal #4: Aluminum

Due to its lightness and versatility, aluminum is very popular in 3D printing. Aluminum alloys are commonly used. nine0009

3D Printing Metal #5: Cobalt Chrome

gap). It is most commonly used in the manufacture of turbines, dental and orthopedic implants, where 3D printing has become the dominant technology.

3D printing metal #5. Copper and bronze

With few exceptions, copper and bronze are used in wax melting processes, rarely in layer melting. The fact is that these metals are not very suitable for industry, they are more often used in the manufacture of works of art and crafts. ColorFabb offers both metals as the basis for a special metal filament.

3D printing metal #6. Iron

Iron, incl. magnetic, also mainly used as an additive to PLA-based filaments, which are produced, for example, by ProtoPasta and TreeD. nine0009

3D printing metal #7. Gold, Silver and Other Precious Metals

Most preformed melt companies can 3D print precious metals such as gold, silver and platinum. Here, along with the preservation of the aesthetic properties of materials, it is important to achieve optimization of work with expensive starting powder. Precious metal 3D printing is required for jewelry, medical applications and electronics. nine0009

Metallic 3D printing. Printers

Do not hesitate - the purchase of a metal 3D printer will not pass without a trace on your budget. It will cost at least 100-250 thousand dollars. Here is a list of a variety of "metal" printers, some of which can be found in firms providing 3D printing services.

Metal 3D Printer #1:

Sciaky EBAM 300 - Metal Filament Printing

If you need to print really large metal structures, Sciaky's EBAM technology is your best bet. By order, the device can be built in almost any size. This technique is used mainly in the aerospace industry and the military.

Sciaky's largest production printer is the EBAM 300. It prints objects in a volume of 5791 x 1219 x 1219 mm.

The company claims the EBAM 300 is also one of the fastest industrial 3D printers on the market. A three-meter-sized titanium part for an aircraft is printed on it in 48 hours, while the material consumption is about 7 kg per hour. In general, forged parts that usually take 6-12 months to complete can be made in 2 days with this 3D printer. nine0009
The metal layers are first cut and then ultrasonically welded. The largest Fabrisonic 7200 printer operates in a volume of 2 x 2 x 1.5 m. The metal powder 3D printer is the Concept Laser XLine 1000. It has a modeling volume of 630 x 400 x 500 mm and is the size of a house. nine0009
Its German company, one of the main suppliers of 3D printers for aerospace giants like Airbus, recently introduced a new machine, the Xline 2000.

This machine uses two lasers and has a working volume of 800 x 400 x 500 mm. Uses LaserCUSING laser technology (a variant of selective laser fusion) from Concept Laser, which allows you to print alloys of steel, aluminum, nickel, titanium, precious metals and even some pure substances (titanium and stainless steel). nine0009
Metallic 3D printing. Services

There are more than 100 companies worldwide offering metal 3D printing services. We list the most popular services for consumer needs.

Metal 3D Printing Service #1: Shapeways

The world's most popular 3D printing service, Shapeways offers two types of services. As a consumer, you can choose from a wide range of professionally designed objects, customize them, and then have them printed to your specifications. Like other 3D printing services, Shapeways offers a platform for designers to sell and print their work. Shapeways is also a good place for rapid prototyping: customers benefit from industrial-grade printers (EOS, 3D Systems) and personal technical support. nine0009
3D printing metals: aluminium, brass, bronze, gold, platinum, precious metal plating, silver, steel. There are also wax molds for jewelry purposes.

Metal 3D Printing Service #2: Sculpteo

Like Shapeways and i.materialise, Sculpteo is an online 3D printing service that allows anyone to upload 3D models and send them to fabrication in a wide range of materials . Like its competitors, Sculpteo provides a platform for hobbyists and professionals to showcase and sell their designs. The stable of Sculpteo printers includes highly professional machines from 3D Systems, EOS, Stratasys and ZCorp. Extensive technical documentation will help identify design flaws and select the right material for the project. nine0009
Metals for 3D printing: alumide (plastic with aluminum particles), brass, silver.

Metal 3D Printing Service #3: iMaterialise

Materialise is a company that works with industrial customers to prototyping 3D printed products. For casual users and designers, Materialize offers an online 3D printing service called i.materialise. As with Shapeways, this service allows anyone to upload their 3D designs and print them out. Once an object has been uploaded and successfully printed, a designer can list it for sale either in the gallery of the i.materalise online store or by embedding some code into their site. nine0009
3D printing metals: alumide (plastic with aluminum powder), brass, bronze, copper, gold, silver, steel, titanium.

Metal 3D Printing Service #4: 3D Hubs

Through 3D Hubs, you can search for individuals and companies that offer 3D printing services in your area, upload STL files (which are immediately evaluated for defects ) and contact service providers directly to get the job done.
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