Additive Printing- 3D Printing Services
Get additive printing rapid prototypes and production parts, which can have a quick delivery time even in several hours.
- Technical Support and Design Guide
- Material For Plastics or Metals
- ISO 9001:2015 certificated
Get instant quote in 24H, reaction time in 2H.
one-stop abilities for the 3D printing process
No MOQ, we can accept the 3D Printing Samples even 1 piece.
Fast Delivery Time
Variety Plastic &Matal Materials
Our Additive Printing Capabilities
SENYO will use different 3D printing methods according to different product requirements, allowing designers to generate multiple prototypes in a short amount of time – which means extensive feedback can be used to develop final requirements.
SLA
SLA(Stereo Lithography Apparatus) technology adopts photo curing molding, using laser beams to scan photosensitive resin materials layer by layer, and solidify to form finished products. SLA technology can achieve high precision and surface quality, suitable for making fine models and small parts
SLS
SLS(Selective Laser Sintering) technology adopts sintering/bonding molding, which gradually solidifies into finished products through laser beam scanning and sintering of powder materials. SLS technology has a wide range of material choices, including nylon polymers, metals, and ceramics
HP MJF
MJF, also known as Multi Jet Fusion, is an additive printing technology that leads the industry trend. Its most notable feature is its extremely fast speed, allowing for the rapid production of precise and intricate complex parts containing powdered thermoplastic materials.
SLM
SLM(Selective Laser Melting )is a technology that uses metal powder to completely melt and solidify through cooling under the thermal action of a laser beam. Its principle is similar to SLS, with the biggest difference being the different materials used. SLM is specifically designed for metals
How to Choose Your Additive Printing Services?
Choose the appropriate 3D additive printing process based on different materials and applications. The basic process advantages and disadvantages, as well as applicable scenarios, are listed below for your reference.
| Forming Process | SLA | SLS | SLM | HP MJF |
|---|---|---|---|---|
| Advantage | 1. Fast forming speed, high forming accuracy and surface quality 2. Suitable for making fine pieces | 1. A wider range of material choices 2. High strength and heat resistance 3. Simplifying post-processing steps 4. Suitable for complex geometric shapes | 1. Good mechanical properties 2. The variety of materials that can be processed | 1. Z-axis performance is superior to SLS 2. High extensibility and precision 3. Cleaner and fewer post-processing processes 4. Fast delivery for the parts |
| Disadvantage | 1. Further curing treatment is required after forming 2. Limited strength, stiffness, and heat resistance | 1. Expensive equipment 2. Powder processing and post-processing | 1. The speed is low. 2.The accuracy and surface quality are limited and can be improved through later processing. | 1. Very expensive investment 2. Limited material combinations 3.The surface smoothness is poor 4. The selection of parts has a relatively single color, usually gray as the main color. |
| Printable materials | Usually photosensitive resin is used | SLS mainly uses nylon (PA) polymer metals, and ceramics materials | SLM is specifically designed for metals | Nylon |
| Maintenance cost | Laser has losses, photosensitive resin is expensive, and operating costs are high | Laser has losses, high material utilization, cheap raw materials, and moderate operating costs | Due to the use of high-purity metal powders as printing materials in the SLM process, as well as relatively high equipment and maintenance costs, the manufacturing cost of this process is relatively high. | High investment for the HP printing machine |
| Application Industry | small and precision parts | Design and fabrication of castings and metal parts | Prototype,components,small batch production of parts or injection molds | It can use nylon materials to produce prototypes and functional components |
Additive Printing Process At SENYORAPID
Upload +Quote
Update your CAD or 3D file as a start to select your manufacturing process, and we will provide the quote accordingly in a short period.
Manufacturing
We start manufacturing process with your confirmation, we also provide DFM analysis for review.
Quality Inspection
We inspect all parts before they arrive with you and will provide the inspection report
Delivery
From our previous experience, the fastest delivery we can achieve in the same day!
Main Reasons To Choose Additive Printing
Fast Delivery
According to the requirements of different product sizes and complexity, 3D additive printing can achieve the fastest completion of products within 1 hour, which is incomparable to other manufacturing methods
Cost Effective
Due to its speed, it is constantly modified and optimized according to requirements, quickly iterating to produce the final product, greatly saving time and costs
Rapid Prototypes
3D additive printing technology can produce high-quality prototypes in a short period of time, accelerating product development and testing speed
Efficient Utilization of Resources
In terms of energy and resource waste, 3D additive printing technology is the best choice because its unique process can generate multiple products at once or add materials layer by layer.
Unlimited Creativity
3D additive printing technology can directly transform designer ideas into practical products, greatly improving the degree of creativity release
Customized Production
3D additive printing technology can customize production according to personalized needs, which is incomparable to traditional manufacturing processes with complex processes
Our Additive Printing Parts Gallery
FAQs For Additive Printing Services
What is additive printing?
3D additive printing is a type of rapid prototyping technology, also known as additive manufacturing. It is a technology that uses computer-generated design files as the basis, and uses adhesive raw materials such as powdered metal or plastic to construct objects through layer by layer printing.
How does additive printing work?
The principle of “3D printing” layer-by-layer additive printing is similar to that of inkjet printers. The printer contains “printing materials” such as liquid or powder. After being connected to a computer, it is controlled by the computer to “shape” by layer processing and stacking. The designed product is divided into thin layers, each time a thin layer is generated using raw materials, layer by layer stacking, and finally the blueprint on the computer is turned into a physical object
What are your tolerance for additive printing parts?
In theory, the accuracy can reach 0.01mm, but metal powder will expand under high-energy laser sintering and contract slightly after cooling, resulting in an error of about 0.05mm in accuracy.
How long does it take to additive printing parts?
The additive printing time is determined based on requirements such as model size, printing equipment, printing hollow/layer shell thickness, etc. Small ones can be printed quickly to within an hour, while larger ones require longer time.
Can i send something for 3D printed?
3D additive printing requires the creation of a digital design model, which is usually created through computer-aided design (CAD) software. If you only have products can also send to us, we can obtain the design model through scanning and copying, and print it to create it