Our factory has more than 200 square meters of 3D printing workshops and is known for manufacturing high-quality parts at competitive prices. We use lasers of specific wavelengths to solidify liquid photosensitive resin (SLA) layer by layer. The laser selectively sinters powder materials and builds them layer by layer. Molding to build a complex structure (SLS) A high-energy laser beam melts and solidifies metal powder layer by layer to build a three-dimensional metal part (SLM) with high precision and complex structure. The PLA material is heated to the melting point and passed through 3D The printer builds layers layer by layer to create objects with the desired shape and structure (PLA)
800+
Clients To Work With
30+
Countries Of Operation
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Customer Satisfaction
What We Good At 3D Printing Processes
SLA 3D Printing
SLA (Stereo Lithography Apparatus) 3D printing technology is a rapid prototyping technology based on the principle of light curing. A specific light source (such as an ultraviolet laser) is used to irradiate the liquid photosensitive resin layer by layer, causing a photopolymerization reaction and solidification. The cured resin layers are stacked layer by layer to finally build a three-dimensional solid model.
It can quickly process high-precision, high-surface quality, and multi-detailed prototypes, which can be used in automotive molds, medical biology, consumer electronics, game animation, architectural design, sculpture modeling, home decoration and other fields. In addition, SLA technology can also select special materials according to special requirements, such as heat-resistant resin, fully transparent resin, etc.
SLS (Selective Laser Sintering) 3D printing technology is an additive manufacturing technology based on powder materials. High-power laser beams are used to selectively heat powdered materials to reach the melting point or close to the melting point, thereby forming atomic or intermolecular bonds between particles, achieving layer-by-layer sintering and building a three-dimensional entity.
According to the instructions of the 3D printing program, the laser beam scans the powder bed according to the preset cross-sectional profile information, selectively heating the powder material to the melting point or close to the melting point. Due to its ability to use a variety of materials, print complex structures, and have high precision and strength, SLS technology plays an important role in product development, prototyping, and small-volume production.
SLM (Selective Laser Melting) 3D printing technology, also known as selective laser melting technology, is an advanced metal 3D printing method. Using a high-energy laser beam as a heat source, metal powder materials are selectively melted, stacked layer by layer, and solidified into three-dimensional solid parts.
The laser beam scans the metal powder layer according to the set path according to the three-dimensional model data preset by the program, causing the powder material to melt and fuse with the previously solidified metal layer. Subsequently, the printing platform will drop by a distance of the thickness of the powder layer, a new layer of metal powder is spread on the printed layer, and the laser beam scans and melts again, and so on until the entire three-dimensional model is completely printed.
FDM (Fused Deposition Modeling) 3D printing technology, also known as fused deposition modeling technology, is a widely used additive manufacturing process. Using filamentous thermoplastic materials, such as ABS, PLA, etc., the material is melted and accurately extruded by heating the print head. On a predetermined path, the melted material is deposited layer by layer on the printing platform, and each layer is solidified and combined with the next layer to finally build a three-dimensional object.
The equipment cost of FDM 3D printing technology is relatively low, the manufacturing cost is also low, and the degree of precision is also low, making this technology more suitable for character modeling, small batch production and rapid prototyping with low precision requirements.
Precision, Quality and Affordability at any volume. Our team responds quickly to accommodate your needs.
An Experienced Team with Expertise
Advanced In-house Equipments
Competitive Prices in the Industry
One-To-One Collaboration & Proactive DFM
High Complexity Machining Capability
Industry-Leading Turnaround Times
Advantages of 3D printing
3D printing technology can customize rapid prototyping and manufacturing complex structures at low cost
Reduce Assembly Time
Fast Turnaround
Reliable Quality
Don’t waste time putting products together! Rely on 3D printing to make complex geometries that can be printed as one piece—or consolidated in one build.
Working on a project for a customer that has to be just right? Get models back fast, and 3D print new iterations, if needed, for final feedback and production.
Proprietary processes, expert 3D printing operators, and inspections are our secrets to delivering exceptional, quality products every time.
4 Simple Steps to Get Your Product
1
Send your 3D/CAD to us
Multiple designs for different parts can be imported at the same time to produce a single quote. We can accept the following file types: PDF.DXF.DWG.OBJ. STEP. STL. IGES
2
Files Analysis
First, select the manufacturing process you require. You can then choose from over 70 materials, both metals and plastics, and from a wide range of finishes and certifications.
3
Production Begins
Once you have selected the required options, all you need to do is confirm the order and pay for it on the secure payment platform. Your design will be analysed by engineers.
4
Parts Shipped To You
Within a short amount of time, you will receive the parts you ordered directly to your shipping address. You can track your package at any time in your personal account.
Maybe I can do more for you
Our can provide you with a full process service from sample to mass production, Please leave your contact information
Our 3D printing products are mainly used in manufacturing, such as lightweight aircraft and spacecraft structural components, and the production of customized automotive parts, especially in racing and high-end automobile manufacturing. Use 3D printing during the automotive design phase to quickly prototype and test parts. Propellers and hull components used in ships are the best choice in machinery manufacturing and electrical product manufacturing and development. What’s more, it lies in its innovation potential in various industries, promoting the development of traditional manufacturing and service industries in a more intelligent and efficient direction.
Choosing the right material is essential for proper functionality. our on demand 3D printing service gives you access to a range of professional 3D printing technologies and materials that meet your business and industrial needs.
SLA
Photosensitive Resin
Parts printed with resin offer great details and high precision, smooth and good surface finishing, strong dimensional stability and etc.
low melting point polymer filament materials such as wax filament, polyolefin resin filament, polyamide filament, and ABS filament are used for fused deposition modeling
The surface treatment of 3D printed parts is mainly to increase their corrosion resistance, improve appearance, enhance hardness, etc.
Coating
Surface treatment is a very important part of 3D printing parts manufacturing. The main purpose is to improve the surface properties of parts, including appearance, corrosion resistance, hardness, lubricity, etc. The treatment method usually depends on the product’s materials, design requirements, usage environment, cost considerations, etc. Common baking methods include liquid baking paint and powder baking paint, anodizing, chrome plating, oxidation, and polishing. Take all factors into consideration to select the most suitable surface treatment method. To meet the design requirements of the product and the needs of the user environment. Therefore, during the spare parts manufacturing process, sufficient attention and attention needs to be given to surface treatment.
Electroplated 3d printing parts
Through a chemical reaction, a layer of other metal is attached to the surface of the workpiece to achieve a certain beautifying effect.
Polished 3d printing parts
The surface of 3d printing parts is made smooth through mechanical or chemical methods to increase its appearance and texture.
sandblasting 3d printing parts
A process that uses high-pressure airflow to spray abrasives onto the surface of an object to achieve surface polishing or texturing.
Anodized 3d printing parts
By forming an oxide layer on the surface of 3D printing parts, it improves its hardness and corrosion resistance.
What kind of surface treatment do you require?
Selecting the appropriate surface treatment method depends on factors such as the sheet metal part’s use, material and requirements, as well as production costs
3D printing models can present design details, surface textures, complex structures and other characteristics, bringing customers a more realistic and vivid visual experience.
Put Your 3D printed spare parts Into Production Today.
Our Clients
Our customers come from North America, South America, Europe, Oceania and Asia, and we look forward to getting win-win cooperation with customers all over the world.
Frequently Asked Questions
How much does your 3D printing service cost?
The cost of a 3D printed part depends on factors such as part volume, part complexity, material selection, the 3D printing technology used and whether any post-processing is required.
How to reduce the cost of 3D printing?
To reduce the cost of 3D printing, you need to understand the impact of certain factors on cost. The main factors affecting cost are material type, individual part volume, printing technology and post-processing requirements. Once these are decided, an easy way to further cut costs is to reduce the amount of materials used. This can be achieved by reducing the size of the model, hollowing it out and eliminating the need for support structures.
What is the printing accuracy?
The printing accuracy of SLA printing is about 0.1mm (smooth surface) The printing accuracy of SLS printing is about 0.1mm (frosted texture) The printing accuracy of SLM printing is about 0.1mm (frosted texture) The printing accuracy of FDM printing is about 0.4~0.3mm (surface fine texture)
What kind of models or drawings do I need to get a quote?
Our Quotation supports all popular CAD files ( PDF | DXF | DWG | OBJ | STEP | STL | IGES | Parasolid | Xt or Sample). If you don’t have a 3D model, don’t worry. You can submit a PDF or any other file for a manual quote.
What industries do you service?
Our provide manufacturing for all industries that require metal and polymer parts. These sectors include automotive, machine building, railway, aerospace, electronics, new energy and many more. Contact usif you have any questions about how we can help you with your application.
What is the quality Control before shipping?
Yes, our factories have internal quality control procedures. If you require quality control reports – please specify in your inquiry the control procedures you require. Often, control procedures can be supported by material certificates, conformity certificates, and inspection reports.