Manufacturing 3D printed custom plastic medical machine model
services
What is 3D printing?
3D printing, also known as additive manufacturing, is an emerging
method of producing plastic parts quickly and efficiently. More and
more applications using 3d printed parts are emerging and the
benefits are being enjoyed by many customers around the world.
3D printing of parts and components is now common across a wide
range of industries. This technology was once the preserve of
highly specialized design engineers, but now it is rapidly becoming
more accessible in many different industries such as automotive,
construction, healthcare, retail, and heavy industry.
- 100% visual inspection for every part
- Parts made in the China
- Parts as fast as 24 hours
- ISO 9001:2015 | AS9100D | ITAR Registered
How the Medical Device Industry is Leveraging 3D Printing
Digital manufacturing offers the speed and precision required in
medical component prototyping and production. Our diversete 3D
Printing chnologies support customers in the medical industry by
offering:
design for manufacturability (DFM) feedback on every quote
ability to 3D print small, complex, and intricate part geometry
capability to rapidly prototype in diverse production-grade
materials (high-temperature plastics, thermoplastics, and
elastomeric materials)
quality certifications: ISO 9001:2015
post-processing options such as heat treatment to improve
mechanical properties
3D Printing Advantages
Able to mass produce a high volume of parts. Injection moulding can
use a high number of molds at once, meaning that it is more
cost-effective for producing a large number of objects
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Enhanced strength of objects. Injection molded parts are created
using a single layer of poured material, eliminating any fissures
or other areas of weakness. This process also works for dense
materials, such as concrete, that would need to be diluted or
modified for 3D printing
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Minimal wastage. Because injection moulding involves pouring
material into a mold, it uses exactly the amount of material
required for the design. This means this manufacturing method is
ideal for mass producing objects cost-effectively
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With a comprehensive range of biocompatible materials and
industry-leading technology, we offer innovative solutions that
meet stringent medical standards and deliver superior quality and
performance. Whether you're in medical device manufacturing,
medical device manufacturing, or healthcare manufacturing, our team
is ready to bring you breakthrough medical devices, equipment, and
tools that deliver precision and reliability.
Medical 3D printing materials need to have some characteristics:
Biocompatibility: Materials used to make products such as implants
and internal medical devices must be biocompatible. This means that
they must not react at all when in contact with biological systems.
Biocompatibility is critical for implants, dentures, organ/bone
replacements, pacemakers, and other medical products that come into
contact with human tissue.
Sterilizability: The extremely high hygiene requirements of the
medical industry make sterilization essential in most cases. This
makes sterility an important characteristic of medical 3D printing
materials.
Bioavailability: For the replacement of body parts such as
prosthetics, dentures, implants and artificial organs, it is not
enough for materials to be biocompatible. They also need to have
physical properties similar to the original body parts.
3D printing process flow table
Machining Step
| Description
|
| Design Preparation | Create or optimize a 3D model using CAD software, ensuring it meets
the specifications and requirements for printing.
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| Material Selection | Choose the appropriate material based on the application, such as
plastic, metal, or resin, considering factors like strength,
flexibility, and finish.
|
| Printing Setup | Configure the 3D printer settings, including layer thickness,
printing speed, and temperature, according to the material and
design requirements.
|
| 3D Printing | The printer builds the part layer by layer according to the digital
model, using the chosen material and printing technology (e.g.,
FDM, SLA, SLS).
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| Post-Processing | Clean and finish the printed part by removing support structures,
sanding, polishing, or applying surface treatments to achieve the
desired final appearance and functionality.
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Making 3d Prints Stronger And Custom 3D Printing Service With
Low-Cost,JYH is your best partner!
