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We produce external or internal threads including metric M and MF threads from M2 to M16 and GAS threads from 1/4, 1/8, 1/2 and 3/4.
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Weerg is unable to guarantee any build that has walls or features <1,0mm. While some processes are able to successfully build parts with walls or features that fall below that threshold, the issue is post-processing, where the part may be exposed to high pressure air, water or another process. We’ve found that walls and features that fall below the 0,1mm threshould have a high rate of failure.
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There are more than 30 processing materials in Weerg and they are offered in a constantly updated list to offer the latest available technologies.
Compare the data sheets of each material to discover their properties, the sectors in which they are used and to understand which of the many is right for you.
The technologies with which the chosen material is processed are listed under the heading Processings.
Weerg's know-how and machine park enable optimal processing with each technology.
3D Printing, or Additive Manufacturing, is a set of production processes and technologies that are currently revolutionizing the industry.
The wide choice of technologies and materials makes it excellent for both rapid prototyping and for cutting costs and time-to-market of new products created in medium to large runs.
Milling, turning and other types of CNC processing are carried out in Weerg by a HERMLE machine park, fully automated and with 5-axis continuous machining stations.
Multi Jet Fusion (MJF) technology from HP produces finished parts with excellent mechanical properties, good detail and high repeatability. The best alternative to injection molding for medium production runs.
Fused Deposition Modeling (FDM) printing technology allows thermoplastic polymers with unique mechanical, thermal and chemical properties to be processed. By using specific support materials, the full potential of this technology can be maximized.
Masked Stereolithography (MSLA) is a variant of SLA that allows resin parts to be produced even faster at a lower cost. It is used to process high-performance resins for industrial use.
Finishes allow you to change the appearance and look of the parts produced with our online manufacturing services.
The wide choice of solutions allows you to customize and create unique items produced either by 3D printing or CNC machining from solid material.
Printing modes are settings that affect some mechanical properties such as load at break and elongation at break.
Tolerances, surface quality and minimum thickness of parts do not change based on this choice.
A Weerg technician ensures that the following variables are checked in your file:
Please use the configuration notes to make any specific requests explicit. Possible difficulties will be communicated by e-mail by our experts.
An automatic analysis is being carried out on the file to detect any critical issues. The result will indicate if the file is suitable to be placed into production.
The automatic analysis of the file has detected thicknesses of less than 1 mm that are subject to breakage or imperfections during printing.
Check the critical areas of the file via the 3D preview here in Weerg. Using CAD drawing software then edit the file and upload it back to Weerg to repeat the automatic analysis.
If you accept that such thicknesses may cause imperfections in production, you can ignore this message.
The automatic analysis carried out on the file has not detected any thicknesses below 1 mm. It means that the file is suitable to be put into production.
Option valid for MJF printing only.
In order to achieve better tolerances and surfaces, our technicians will orient your parts according to their judgement, to prepare them for printing, understanding their functionality and aesthetics.
If you do not want this to happen and wish to keep the original orientation with which you have saved the part, enable this option.
When there are specific requests and/or tight tolerances for CNC machining orders, it is possible to attach the related tables in .pdf or .dwg format.
It is not possible to attach photos and images of the part to be produced
Mechanical processings are suitable for applications where the required tolerances are very tight.
The versatility of our equipment allows you to choose between 2 tolerance levels: ISO 2768-1 fine (f) or medium (m).
For more information visit the Support Center
To indicate threads and H7, you can choose whether:
1) Enter the individual machining operations manually from the 3D model preview. The system will suggest to you the available options based on the diameter measurement of the modelled pre-hole;
2) Attach a technical drawing, if you already have a 2D file that clearly indicates your design requirements.
Please refer to our Table of available Threads and H7/h7.
The density represents the level of optimisation of your build: it has a limited impact on the final cost and is given to you by the program you used to nest your 3D Build.
A .step or .stp file is required for automatic quotation for this material.
The file cannot be produced with this material due to the format: for CNC machining of aluminium, steel and other metals, the accepted formats are .step and .stp.
If you have uploaded an .stl file, the format will not allow correct analysis for this technology.
Due to high demand, the stock of this material has temporarily run out.
Please check the website to find out when it will be available again.
The file is smaller than the minimum dimensions achievable with this material ().
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If the export scale and measurement unit are correct, please consider choosing another material.
Please contact Support if you require technical assistance.
The file is larger than the maximum dimensions that can be achieved with this material ().
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If the export scale and measurement unit are correct, please consider splitting into several parts or choosing another material.
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Nylon PA12 MJF is a versatile material that allows you to quickly produce prototypes and functional parts (from 1 to 10.000 parts in 3 days). It is a real alternative to injection moulding and offers you absolute design freedom.
It has characteristics very similar to those of the classic Nylon PA12 but it is white. This feature makes it much easier to dye and paint the pieces in bright, light colors.
It is more flexible and impact resistant than PA12, and is more environmentally friendly; moreover is resistant to many chemicals, offers excellent wear and abrasion resistance, and has low friction properties.
Nylon PA12 CF (carbon fiber) is a high-performance material used industrially for metal replacement practices. Among its excellent mechanical properties, it is characterized by a high lightness and rigidity. Processed with FDM 3D Printing, it allows remarkable design freedom.
A strong, stiff and heat-resistant composite combining the properties of carbon fiber and nylon. It has excellent chemical resistance, low friction, and high impact strength. It is lightweight, making it attractive for aerospace and automotive applications.
The Nylon PA12 GB is added 40% with glass beads to improve stiffness and resistance to wear and heat resistance. Perfect for automotive, industrial, and consumer applications, these glass beads are the perfect choice for your needs.
Translucent resin finds applications in all contexts where the need for a translucent material is functional to the project, working with light or with models that have to show their internal operation.
Dimensional stability, smooth surface and HDT 238°C. This resin is designed to withstand high temperatures and is the perfect choice for a wide range of applications.
Perfect resin for all industrial mechanical applications: it presents itself as an extremely ductile, resilient and elastic material with an excellent degree of detail. Used in industry for the manufacture of final parts subject to stresses and shocks and for functional prototypes.
This 3D printing resin is the perfect balance of quality, resolution and price, making it the ideal choice for the ones who are looking for a reliable and cost-effective general purpose resin. Available in 3 colors.
One of the most popular polymers in the world, it is high-performance, lightweight and chemically resistant.
PEEK is a polymer used in the industrial and aerospace field thanks to its exceptional mechanical properties, very similar to those of some metal alloys: in its filament-worked version, it allows to obtain complex geometries, freeing the Designer of most of the design constraints and limitations of traditional manufacturing technologies.
PEEK CF has the highest mechanical properties among the materials achievable with Additive Manufacturing, allowing it to be applied in Metal Replacement practices in more extreme contexts and environments.
PEEK (Polyetheretherketone) glass-filled is a strong, lightweight composite with excellent chemical and thermal resistance. It is widely used in electric, aerospace, and automotive applications, offering superior strength and stiffness.
Our services include PEEK CNC machining on industrial grade PEEK. It offers 100% infill and tight tolerances for the most demanding industrial applications.
ABS Food made for food use and using innovative FDM technologies in the room at a controlled temperature, meets the need for a material with the highest health certifications and thus able to be used in contact with foodstuff and beverages, for example in the production of household appliances.
ABS Medical created for use in the medical field and made using innovative FDM technologies in the room at a controlled temperature, satisfies the need for a material with the highest health certifications, which can be used in medical contexts.
An improved chemical formula for an improved Acrylonitrile Butadiene Styrene ABS resin to get better mechanical properties compared to the standard resin
Excellent corrosion resistance and versatility. This austenitic alloy is easy to weld, machine, and sanitize, making it a top choice for industries like food and beverage, pharmaceuticals, and architecture.
Highly versatile and corrosion-resistant material that is ideal for use in harsh environments and applications where strength and durability are required.
C45 steel (AISI 1045) is the best choice for strength and versatility! Exceptional tensile strength, excellent machinability and remarkable versatility.
A perfect balance of strength, wear resistance and hardness. Ideal for automotive parts and heavy-duty machinery.
The 39NiCrMo3 alloy is a high-performance material offering exceptional strength, toughness, and wear resistance. Ideal for challenging applications.
Lightness, ease to weld and high chemical resistance are the main features of this alloy. It is used for parts to be joined together or if excellent corrosion resistance is required over long periods, such as in marine environments.
The strongest aluminum alloy. Suitable for challenging and complex applications in aerospace, marine and industrial sectors.
Versatile alloy with an excellent combination of mechanical and physical properties. Thanks to its suitability for machining and welding and its good chemical resistance, it is ideal for a wide variety of applications.
Brass is an easy-to-work material from which precise parts can be obtained. It can also be hot worked by deformation. Its use is widespread in the creation of small parts and components for hydraulic and heating systems.
C101 copper stands out for its electrical and thermal conductivity properties. Ideal for electronic and electrical applications in consumer products or in applications related to heat exchangers and cooling systems.
The CuSn12 is a high-performance alloy in the mechanical applications of wear parts. It has excellent characteristics for the casting of very complex moulds, which make it an excellent candidate for the production of raw products. Easy to work and weld is a versatile material.
Nylon 6 + MOS2 is a high-performance material, which is well suited for mechanical applications even in harsh environments and in the presence of contaminants. Easy to work with, it presents an excellent solution for the realization of high-performance and resilient components.
POM-C is a performance polymer that lends itself well to mechanical applications thanks to its good mechanical properties combined with chemical resistance, wear and creep. Its characteristics also make it suitable for applications in the food sector.
Our services include PEEK CNC machining on industrial grade PEEK. It offers 100% infill and tight tolerances for the most demanding industrial applications.
Use CNC-machined PVC parts to achieve the full potential of your projects. They will be durable, cost-effective and more corrosion-resistant parts than other materials.
Aluminium alloy 2011 is mainly used in precision parts such as screws and bolts. It is composed by additions of aluminium and copper that improve its hardness and strength.
TPU material offers a unique combination of softness and flexibility, making it the perfect choice for applications requiring a flexible and durable material.
PPS GF (glass-filled polyphenylene sulphide) is a composite material that combines the outstanding properties of PPS together with the reinforcing effects of glass fibres. This high-performance thermoplastic offers higher mechanical strength, better dimensional stability and greater wear resistance than unfilled PPS.
A synthetic fluoropolymer that is known for its resistance to high temperatures, chemicals and corrosion. Used in many industrial and consumer applications due to its non-stick properties, very low friction coefficient and excellent electrical insulation properties.
Explore CNC machined polyethylene, the leading thermoplastic polymer with outstanding chemical resistance, electrical insulation, and tensile strength. From films to piping systems, elevate your projects with this industry-leading material.
ECOtech is designed for GREEN and high-performance applications. With excellent flexural strength, minimal warping, and a high-quality surface finish, it offers durability, stability, and an optimal basis for post-processing techniques, reaching a new standard for performance materials of the industry.
11SMnPb37 (1.0737) is a high-quality, non-alloyed free-cutting steel designed for machining applications like turning, milling, and drilling, commonly used for precision mechanical components, it offers excellent machinability, faster production, and a better surface finish on machined components.
Known for its toughness and versatility, it's an excellent choice for your custom CNC machining projects. S235JR steel is suitable for a wide range of applications, perfect for manufacturing complex components with tight tolerances.
PC is a versatile, robust, and heat-resistant material ideal for crafting your complex designs. With its excellent durability, toughness and rigidity, it's perfect for a wide range of applications. Experience the future of 3D printing with Polycarbonate at Weerg.
Unlock New Possibilities in Advanced 3D Printing with Ceramic Resin - Experience Exceptional Heat Resistance, Superior Rigidity, and the Unique Ceramic Aesthetic for a Wide Spectrum of Professional, Industrial and Technological Applications.
Also known as AlZn4.5Mg1, it's a high-strength alloy typically used in applications that require superior hardness, toughness, and good resistance to wear and corrosion.
The Go-To UV-Resistant, All-Weather Material for Long-Lasting 3D Printed Parts. Ideal for Outdoor Applications with Superior Mechanical Properties and High Impact Resistance.
Discover the excellent mechanical strength and ease of processing of S355J2G3 Steel: the ideal material for structural applications, heavy machinery and extreme environmental conditions
The High-Performance 3D Printing Material for Prototyping, Automotive, and Consumer Electronics
The components with Soft Touch Black Finish are painted with a combination of products for which the surface is soft to the touch and opaque. To achieve this effect, this paint adds a uniform thickness of material of about 100 microns on your parts.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The painting can be applied to components produced in HP MJF and is created by spraying an industrial two-component product in two or more coats. The coating is partially uniform and increases in thickness by about 100 microns. However, the porosity of the material may be visible, especially on the non-aesthetic side, as it is a characteristic feature of the printing technology.
The components produced in PEEK have a crystalline structure in the amorphous state once removed from the printer's construction plan. They can undergo an annealing heat treatment in a thermostatic stove in which, through a controlled cycle, the material is given time to crystallize and create an organized semi-crystalline structure. This treatment markedly improves the mechanical properties and thermal resistance of the material.
The Top Black™ finish retains the iconic surface stone effect of MJF technology with the advantage of making it homogeneous over the entire area, eliminating any unwanted traces or residues.
The new dyes used for this special finish provide longer-lasting protection, even from UV rays, preventing the colour from fading over time.
The Top Black™ line of finishes represents the best aesthetic and technical solution for products manufactured by Additive Manufacturing.
After months of development, the first of these finishes was born: Top Black™ for Nylon produced with MJF technology.
Metal materials produced by machining can be sandblasted to even out the surface, remove tool marks and improve the fatigue performance of components. With this finish, sharp edges may be slightly bevelled as a result of surface sanding.
Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Gloss Blue Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is an electrolytic passivation process used to increase the thickness of the natural oxide layer on the surface of metal components.
The process is called anodizing because the part to be treated constitutes the anodic electrode of an electrolytic cell. Anodizing increases corrosion and wear resistance and provides better adhesion to primers and glues than bare metal. Anodic films can also be used to achieve different aesthetic effects, either with thick, porous coatings that can absorb dyes, or with thin, transparent coatings that add interference effects of reflected light waves.
Gloss Red Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is an electrolytic passivation process used to increase the thickness of the natural oxide layer on the surface of metal components.
The process is called anodizing because the part to be treated constitutes the anodic electrode of an electrolytic cell. Anodizing increases corrosion and wear resistance and provides better adhesion to primers and glues than bare metal. Anodic films can also be used to achieve different aesthetic effects, either with thick, porous coatings that can absorb dyes, or with thin, transparent coatings that add interference effects of reflected light waves.
Gloss Green Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is an electrolytic passivation process used to increase the thickness of the natural oxide layer on the surface of metal components.
The process is called anodizing because the part to be treated constitutes the anodic electrode of an electrolytic cell. Anodizing increases corrosion and wear resistance and provides better adhesion to primers and glues than bare metal. Anodic films can also be used to achieve different aesthetic effects, either with thick, porous coatings that can absorb dyes, or with thin, transparent coatings that add interference effects of reflected light waves.
Matte Blue Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is an electrolytic passivation process used to increase the thickness of the natural oxide layer on the surface of metal components.
The process is called anodizing because the part to be treated constitutes the anodic electrode of an electrolytic cell. Anodizing increases corrosion and wear resistance and provides better adhesion to primers and glues than bare metal. Anodic films can also be used to achieve different aesthetic effects, either with thick, porous coatings that can absorb dyes, or with thin, transparent coatings that add interference effects of reflected light waves.
Matte Red Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is an electrolytic passivation process used to increase the thickness of the natural oxide layer on the surface of metal components.
The process is called anodizing because the part to be treated constitutes the anodic electrode of an electrolytic cell. Anodizing increases corrosion and wear resistance and provides better adhesion to primers and glues than bare metal. Anodic films can also be used to achieve different aesthetic effects, either with thick, porous coatings that can absorb dyes, or with thin, transparent coatings that add interference effects of reflected light waves.
Matte Green Anodizing is applicable to aluminium alloys and plays both the role of changing the colour of the object, but above all of protecting it, creating a protective barrier against chemical attacks and oxidation. It has a thickness of 10 microns in the interior and 20 microns for the exterior.
Anodizing is an electrolytic passivation process used to increase the thickness of the natural oxide layer on the surface of metal components.
The process is called anodizing because the part to be treated constitutes the anodic electrode of an electrolytic cell. Anodizing increases corrosion and wear resistance and provides better adhesion to primers and glues than bare metal. Anodic films can also be used to achieve different aesthetic effects, either with thick, porous coatings that can absorb dyes, or with thin, transparent coatings that add interference effects of reflected light waves.