China 3D Printer Manufacturers Suppliers Factory

Why Choose Us

Excellent Service

The factory is staffed with optoelectronic technology experts, enabling us to serve customers from a professional perspective and solve a wide range of issues for them.

Professional Team

We have a professional team of over 60 employees, including several senior technical personnel and engineers, ensuring that every product meets the highest quality standards.

High Quality Products

In terms of quality control, the factory strictly adheres to quality management systems (such as ISO 9001). Every stage, from raw material procurement to finished product delivery, undergoes stringent quality monitoring.

Global Sales

Up to Y2022, we have managed to deliver our products to over 100 countries including Europe, America and Asia areas with average 30% annual turnover increase.

Specification

Technology:	FFF FDM
Printer type:	Filament deposition
Year:	2020
Assembly:	DIY Kit
Diameter:	1.75 mm
Layer thickness:	100 - 400 Microns
Closed print chamber:	No, an open structure
Feeder system:	Direct
Extruder:	Single
Print bed details:	Heated bed
Connectivity:	SD card
Camera:	No

Material

Materials:	PLA, TPU, ABS
Material system:	Open material system

Size

Dimensions metric:	440 x 440 x 465 mm
Dimensions imperial:	17.3 x 17.3 x 18.3 inches
Weight metric:	6.7 kg
Weight imperial:	14.8 pounds

Advantages of 3D Printer

Create complex geometries – Unlike traditional machining, 3D printing can create complex designs that conventional manufacturing cannot create with assemblies of several components. An example is internal voids inside the part to lighter the product. The creation of lighter parts is a significant reason why 3D printing is popular within the aerospace, defense, and automotive industries. And with expensive materials such as metals, the internal voids also add up to cost savings.

Customized medical application – 3D printing allows medical professionals to produce customized items for medical procedures, including custom implants for dentures, hips, spine, & knees. A cranial implant was recently performed with 3D-printed parts. Several additional applications include strong and durable custom prosthetics, custom-fit hearing aids, and procedure-specific surgical instruments. Swabs were in high demand during the pandemic, and swabs were printed to ease the shortage. 3D printing medical research is developing tissues with blood vessels, drugs, heart valves, and organs. Biocompatible materials are essential to these ongoing medical advancements.

Design and Manufacturing engineering – 3D printing simplifies the part creation process. The process is more straightforward because Engineers don't have to deal with the numerous constraints associated with subtractive manufacturing technologies. This advantage also saves Engineering time; complex parts, which once required multiple components, can be easily printed into one lightweight part. Multiple set-ups and additional processing time for numerous components are eliminated on the manufacturing floor.

Efficient manufacturing – 3D printing is an efficient method of manufacturing products. It is a single-step process and avoids numerous additive manufacturing operations, set-ups, and energy consumption. CNC parts are as much as 10X the cost of 3D printed parts. There is little wasted material, and the process can be automated to run multiple parts continuously. As is the carrying cost of inventory, warehouse and transportation costs are avoided. Local 3D printing operations offer contracted services that can save companies money by avoiding in-house capital acquisition and process and operator development.

Lightweight materials – Most materials used in 3D printing are lightweight plastic compounds and engineering materials. This aspect is a huge selling point in the aerospace industry., Materials can be customized to deliver specific performance characteristics in addition to lighter weights, including improved chemical resistance, heat resistance, elasticity, or strength.

Little material waste - Unlike subtractive manufacturing, which removes material for part creation, 3D printing is an additive manufacturing solution that only adds the material required for the part and supports it during the build. The process is also environmentally friendly, with lighter parts and energy savings, but many filaments are recyclable and powdered materials are 95%-99% reusable.

Quick part creation – 3D parts can be printed in hours. This quick turnaround is a considerable advantage over the additional carrying cost of inventory or overnighting parts across the country, assuming they are even in stock.

Reasonable equipment pricing – 3D printers are reasonably priced compared to traditional manufacturing equipment. Entry-level printers for the hobbyist start around $200, and industrial machines are less expensive than CNC machining centers. Material costs for 3D printing may be more costly on the surface. Still, they use less material, so the overall material costs are less costly with lower-priced plastics. Even the more expensive metal powders are cheaper than the subtractive manufacturing material costs.

Sustainability – The 3D printing process is environmentally friendly, using less material and can reuse powders and recycle most plastic supports. The lighter part also improves fuel efficiency in planes, automobiles, and space vehicles.

Types of 3D Printer

Stereolithography (sla)
It is the world’s first 3D printing innovation introduced by Chuck Hull in 1986. It works by a 3D printing technique called Vat Polymerization where a material called a photopolymer gum specifically restored by a light source. Stereolithography (SLA) is the first modern 3D printing measure. SLA printers dominate at delivering elevated levels of detail, smooth surface completions, and tight resistances. The quality surface completions on SLA parts look decent. It’s generally utilized in the clinical business and basic applications incorporate anatomical models and microfluidics.

Specific laser sintering (SLS)
SLS softens together nylon-based powders into strong plastic. Since SLS parts are produced using genuine thermoplastic material, they are tough, reasonable for utilitarian testing, and can uphold living pivots and snap-fits. In contrast with SL, parts are more grounded, yet have harsher surface completions. SLS doesn’t need help structures so the entire form stage can be used to settle various parts into a solitary form—making it appropriate for part amounts higher than other 3D printing measures. Numerous SLS parts are utilized to model plans that will one day be infusion-shaped.

Polyjet
PolyJet is another plastic 3D printing measure, yet there’s a curve. It can create various parts with different properties, for example, tones and materials. Architects can use the innovation for prototyping elastomeric or over-molded parts.

Multi jet fusion (mjf)
Multi Jet Fusion assembles utilitarian parts from nylon powder. As opposed to utilizing a laser to sinter the powder, MJF utilizes an inkjet cluster to apply melding specialists to the bed of nylon powder. At that point, a warming component disregards the bed to combine each layer. This outcome in more predictable mechanical properties contrasted with SLS just as improved surface completion. Another advantage of the MJF cycle is the quickened fabricate time, which prompts lower creation costs. MJ differs from other types of 3D printing technologies that deposit, sinter, or cure build material with point-wise deposition. Instead, the print head jets hundreds of droplets of photopolymer and cures/solidifies them using UV light. Once a layer is deposited and cured, the build platform lowers by one layer thickness, and the process is repeated until the 3D object is built.

Applications Areas of 3D Printer

01/

Medical: 3D printing technology has promising applications in the medical field. It can be used to create customised medical implants, such as teeth, bones and joints, to meet the specific needs of patients. 3D printing can also be used to print biological tissues, organs and drugs, providing new solutions for tissue engineering and regenerative medicine. Doctors can use 3D printing to create models of a patient's anatomy to aid in surgical planning and simulation, improving the accuracy and safety of surgery.

02/

Aerospace: The application of 3D printing in aerospace is equally important. Because the technology can produce parts with complex internal structures and lightweight features, 3D printing is being used to produce key components for aircraft, rockets and other spacecraft, improving performance and reducing costs. In the aircraft assembly and maintenance process, 3D printing can quickly produce tools and fixtures suitable for specific work environments, improving work efficiency.

03/

Automotive manufacturing: In automotive manufacturing, 3D printing technology can be used to produce prototypes, custom parts and complex interior components. This technology can accelerate the development cycle of automotive products, increase productivity and reduce production costs. With 3D printing, R&D staff can create conceptual models on a computer in hours or days, reducing the need to open moulds and speeding up design and manufacturing costs.

04/

Construction: Applications of 3D printing in construction include the production of architectural models, personalised decorative parts and some components of building structures. This technology can reduce construction costs, improve construction efficiency and allow architects and designers to be more innovative. 3D printing can also be used to directly print the walls, floor slabs and other structural components of a house to enable rapid house construction.

05/

Consumer Electronics: With increasing consumer demand for personalised products, the application of 3D printing technology in consumer electronics is gradually expanding. Consumers can use 3D printing technology to create personalised mobile phone cases, headphones, speakers and other products to meet their unique aesthetic and practical needs.

06/

Education: 3D printing technology can also be used in education to help students better understand spatial structure and object shape. Through 3D printing technology, students can create physical models to deepen their understanding of subjects such as science, engineering and mathematics.

Our Services

► Pre-Sales

- 3D printer and service, free consultant
- sampling
- Requirement analysis
- Proposal according to user input

► On-Sales

- Standard and professional technical training
- 3D printing machine and process know-how
- Operation demonstration
- Maintenance and troubleshooting
- Installation and commissioning service

► After-Sales

- Archive 3D printer operation and maintenance instruction
- Consultant and newsletter regarding product upgrades and feature update
- Setup 3D printer spare parts list and inventory, to meet daily production needs
- Technical service team with regular customer communication and info-exchange
- 7*24 service response

► After-Warranty

- Low-cost spare parts supply for the customer base
- Lifetime free technical consultant service
- Machine and software upgrade service

Sales and Service Network

productcate-1-1

Packaging

We will follow destination customer language by default, if not specified we will offer English on packaging.

Delivery and Shipping

EXW, FOB, CFR, CIF

Payment Terms

TT, DP, DA, LC, OA

Cooperate Partners

productcate-1-1

Contact Data

productcate-1-1

FAQ

Q: What is a common issue with 3D printing?

A: Stringing is a common issue when printing at high temperatures, and it occurs when small strings of plastic are left behind by the nozzle, leaving traces. Plastic oozing from the nozzle also wastes material and increases print costs.

Q: What can you not do with a 3D printer?

A: Certain materials like glass, paper, wood, metals, and organic substances are generally not suitable for standard 3D printers due to limitations in the technology.

Q: What software do you need for 3D printing?

A: 3Ds Max – used in all types of 3D model creation, including video game design, architecture, and 3D printing. TinkerCAD – A free, browser-based CAD tool that allows users to build 3D models out of various shapes. Popular with CAD novices and for STEAM education. Blender – free, open-source 3D model creation software.

Q: What is the most important thing in 3D printing?

A: The size, resolution, thickness, orientation and choice of material are all important elements of a creation dedicated to 3D printing. When these factors are all considered and balanced, you are sure to get a functional part that meets your needs.

Q: Can you 3D print from blender?

A: Yes, you can use Blender to create 3D models for 3D printing. Blender is a free, open-source 3D modeling program. It includes a 3D Printing Toolbox and supports 3D printing modeling and file formats.

Q: What are the minimum requirements for 3D printing?

A: A Computer for 3D Modeling and Printing
For these tasks, you will need the following specifications on your PC at a minimum: RAM: 16GB. Processor: 6 cores (Intel i7 or Ryzen) Storage: 1TB or more.

Q: What to know before 3D printing?

A: Before 3D printing, you should consider things like the materials, the design, and the printer's safety. You can also learn about the process and how to use slicing software.
Generative AI is experimental. Learn more

Q: How to 3D print multiple colors?

A: To 3D print multiple colors, you can use multi-colored filaments, manually swap filaments, or use color mixing. You can also use a printer with an automatic material system (AMS).

Q: How much does 3D printer filament cost?

A: How Much is 3D Printer Filament? (The Short Answer) PLA and ABS, the most popularly used filaments in 3D printing, costs around the range of $20 to $27. This ballpoint figure depends on the brand and specs. Buying from an open-source 3D filament manufacturer usually gives a lot of savings.

Q: What is not suitable for 3D printing?

A: Synthetic rubbers like neoprene and nitrile rubber offer an alternative to natural rubber, but these too are thermosets and cannot be used with thermoplastic manufacturing processes like 3D printing.

Q: What is the first thing you should do with a 3D printer?

A: Start with something simple such as a phone stand or a keychain. These small experiments will help you grasp the basics of 3D printing so you can move on to bigger things.

Q: Can you 3D print 2 materials at once?

A: Multi-material 3D printing is the additive manufacturing procedure of using multiple materials at the same time to fabricate an object. Similar to single material additive manufacturing it can be realised through methods such as FFF, SLA and Inkjet (material jetting) 3D printing.

Q: Can you change colors while 3D printing?

A: Changing filament in the middle of a print is an easy way to get multi-color effects without a multi-extruder 3D printer. One way to do it is to sit by your machine and, when the moment is right, pause and change the spool. Another way is programmatic.

Q: Do 3D printers come with software?

A: Yes, most 3D printers come with some type of software, either free or proprietary. This software is typically used for 3D printing and slicing.

Q: What services can we provide?

A: Accepted Delivery Terms: FOB,CIF,EXW,FCA,DDP;
Accepted Payment Currency:USD,EUR,CNY;
Accepted Payment Type: T/T,Cash;
Language Spoken:English,Chinese,German

Q: Why should you buy from us not from other suppliers?

A: With engineering development team and partnerships with universities, we dedicate in cutting-edge turn-key solutions for metal 3D printing and ultra-fast laser processing for glass/ceramic and metal film materials.

Q: What can you buy from us?

A: 3D Printing Machine,Laser Welding Machine,Laser Welding Machine,Laser Cutting Machine,Laser Machine Parts

Q: How can we guarantee quality?

A: Always a pre-production sample before mass production; Always final Inspection before shipment;

Q: Who are we?

A: We are based in Guangdong, China, start from 2022,sell to Western Europe(93.00%),Eastern Europe(7.00%). There are total about 5-10 people in our office.

Q: What computer program do you need for a 3D printer?