+86 13860473071
Search
enLanguage

 fd961e6a430fac93267e0c6ba323cc6

3

3D Printing FDA

Fused Deposition Modeling (FDM) rapidprototyping process is a method ofheating fused silk materials (e.g.engineering plastic ABS,PCpolycarbonate, etc.) which does not relyon laser for forming energy source

31

3D Printing 3DP

It's called BinderJetting, Inkjet PowderPrinting. Three-dimensional printingand traditional two-dimensional inkjetprinting is closest to the SLS process3DP is also made by unbonded powderinto a whole. The difference is that it issprayed by the binder

32

3D Printing LPD

Digital Light Processing, a technologyfirst developed by Texas Instruments,uses projectors to solidifies light-sensitive polymer liquids layer by layerto create 3D printed objects.

 

2 1

3D Printing SLA

Photocuring: UV curing resin is used asraw material, resin is poured into the fattank and immersed into the printingplatform, Use UV laser or DLP projectorto shine UV light on the resin. Theprinting range of each layer ofhorizontal section is hardened andraised from the container by the

1 1

3D Printing SLS

Laser sintering: Using a powderpolymer, the powder is stored in acontainer A thin layer of powder is laidout within the printing range. A laserlight fusion material is used to create asingle horizontal layer

1 1

3D Printing SLM

The metal powder is completely meltedby high energy laser beam under theaction of heat, and then formed bycooling and solidification. SLMequipment can be divided into downfeed powder and up feed powderaccording to different feeding methods

 

 

 

Our 3D Printing Capabilities

We have over 90 3D printing shops in our network and are well known for manufacturing high-quality parts at competitive prices, from rapid prototyping with Fused Deposition Modeling (FDM) to functional end parts made with Selective Laser Sintering (SLS) or Multi Jet Fusion (MJF).

 

d7984524ca0ec7d80190f31faaaf43e

FDM

Fast & affordable
prototyping

                       ● Dimensional accuracy of ±0.05%

                         with a lower limit: ±0.05 mm
                       ● Lead times from 1 business day

fb8e092ea2810cb8c57f27a6518856a

SLS

Functional prototyping &

low-run production

                   ● Dimensional accuracy of ±0.3%

                       with a lower limit of : ±0.3mm(± 0.0118")

                   ● Lead times from 3 businessdays

613f1aab9a46f3cfe410c8593dd0671

MJF

Functional prototyping &

low-run production

● Dimensional accuracy of ±0.5%

                      with a lower limit of : ±0.5mm(±0.020”)
● Lead times from 3 businessdays

b46a0b3e063446e95eb405240a9c837

SLA

Visual prototyping

 

● Dimensional accuracy of +0.2%

                            with a lower limit of +0.127 mm(+ 0.005")

● Lead times from 2 businessdays

 

 

Gallery of 3D printed parts manufactured by HaoZe

 

Here are some examples of 3D printed parts that have been successfully manufactured:

1. Medical implants - 3D printing technology has revolutionized the medical industry, allowing for the production of custom implants that fit perfectly to each patient's unique anatomy.

2. Aerospace components - 3D printing is often used to produce aerospace parts with intricate geometries that cannot be easily fabricated through traditional manufacturing methods.

3. Automotive parts - From engine components to dashboards, 3D printing can produce high-quality parts quickly and cost-effectively.

4. Prosthetics - 3D printing has made it possible to produce prosthetics that are both functional and customizable to each individual user.

5. Art and jewelry - 3D printing allows artists and jewelers to create intricate designs that would be impossible to produce by hand.

 

5df74e52f1dceea2240a3252e9d9cc3

Aluminum 7075-T6

6bfa8774f60bbfd8463aeb9b675147b

Aluminum 6063

b79adf4fbf32a59640a5f400a3f6582

HP PA 12

61d4f885909795fa855a5ce71abef5b

HP PA 12 - Dyed Black

140c0464b99862553527a7986a0805e

Markforged Onyx- Black

3D printing processing







 
Your advantages with haoze® polymer plain bearings and energy chains:
  • Self-lubricating properties reduce maintenance and downtime.

  • High wear resistance for longer service life.

  • Lightweight for increased efficiency and lower energy consumption.

  • Corrosion resistance for harsh environments.

  • Cost effective compared to traditional metal bearings.

  • Reduced noise and vibration for quieter operation.

  • Wide temperature range for versatility in various applications.

3d 9

 

 

page-1150-270

 

3D printing materials
We can generate 25+ plastic instant 3D printing quotes. For metal 3d printing parts, you can ask our company Haoze to quote.

 

SLS   MJF    
PA 12   HP PA 12    
Glass filled PA 12   Glass filled HP PA 12    
Desktop FDM   Industrial FDM    
Prototyping PETG   Markforged Onyx    
Prototyping ASA   ABSplus Stratasys    
Prototyping TPU   ULTEM 9085 Stratasys    
Prototyping ABS   Stratasys ASA    
Prototyping PLA   ABS M30 Stratasys    
    ULTEM 1010 Stratasys    
Desktop SLA   Industrial SLA    
Formlabs Standard Resin   Accura 25 (PP-like)    
Formlabs Clear Resin   Accura ClearVue    
Formlabs Tough Resin 2000   Accura Xtreme White 200 (ABS-like)    
Formlabs Rigid Resin 4000        
Formlabs Grey Pro Resin        
Formlabs Flexible Resin 80A        
Formlabs High Temp Resin        
Formlabs Durable Resin        
         

 

 

Some vetted manufacturing equipment
manufacturer 3

 

manufacturer 5

 

manufacturer 4

 

manufacturer 11

 

 

 

 
 

 


 

20221220163118
20221220165428
897d12c4a617617b26f58ca395bcd3a
11 1

 

Some Of The Leading Processes

 

1af36d8dc784b2725cd8ed0c7d01389

Digital modeling

You need a 3D digital model. This can be created using computer aided design software (CAD), or a 3D scan to transform a physical object into a digital model

5a99d95bde8baab5cdadea6abdf1bcd

Printing material

At present, PLA and ABS are the two most commonly used materials for desktop 3D printers. Both are engineering plastics with good thermoplasticity and are commonly used to print models of objects.

 

 

Source parts with HaoZe’ custom 3D printing services

 

                   

Our custom 3D printing service is here to help you purchase parts for your projects. With our state-of-the-art printers and experienced technicians, we can create high-quality, custom-made parts to meet your specifications.

 

Using 3D printing technology, we can produce even the most complex designs quickly and accurately. Our service is perfect for prototyping, small-batch production, and even one-of-a-kind items.

 

We offer a wide range of materials and finishes to choose from, including plastics, metals, and even wood-like filaments. Our team can work with you to select the best materials and finishes to match your project requirements.

 

Get in touch with us today to learn more about our custom 3D printing service and start bringing your ideas to life.

A network built for professional 3D printing services

 

Networks built for professional 3D printing services need to have reliable and high-speed connections, as well as secure data transfer protocols. It should also have enough bandwidth to handle the big data files involved in 3D printing and be compatible with the software and hardware used in the industry.

 

At our company, we pride ourselves on being experts in 3d printing services. We have advanced technology and a team of highly skilled professionals committed to delivering exceptional quality and accuracy for every project. Whether you need a single prototype or mass production, we have the ability and expertise to deliver outstanding results in the shortest possible time. Our 3d printing services cover a wide range of industries, including automotive, medical, aerospace, engineering and more. With our commitment to innovation, quality and customer satisfaction, we are your one-stop shop for all your 3d printing needs

Industrial 3D printing services for production & tooling

 

ndustrial 3D printing services for production tooling offer several benefits, including reduced lead times, lower production costs, and greater design flexibility. By using 3D printing, manufacturers can create complex geometries that would be difficult or impossible to produce using traditional manufacturing methods. This makes it ideal for creating jigs, fixtures, molds, and other tooling components. 3D printing also allows for rapid prototyping, which can be invaluable in the early stages of product development. Overall, incorporating 3D printing into production tooling processes can help manufacturers achieve better quality, faster production times, and greater cost-effectiveness.