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Rapid Prototyping

LUSHI provides 3D printed prototypes, as well as CNC machined rapid prototyping for accelerating your product development process.

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Understanding
Rapid Prototyping Process

Rapid prototyping is a essential way in the manufacturing industry, this technique offers quickly manufacturing method to build a scale model of a physical part or assembly using three-dimensional computer-aided design (CAD) data, mostly with 3D printing technologies like SLA, SLA, MJF and CNC machining. Broadly used in different industries,it allows engineers and designers to turn innovative ideas into tangible products swiftly by iterative testing and revising.

Rapid prototyping has vast benefits for product development. It leads to a significant reduction in product development time as designers can iterate and refine the prototype in the early stages of the design process before moving to production. Moreover, it facilitates better communication and feedback within the design team, as well as with clients, as everyone involved can better understand the end product's shape, size, and functionality. Prototypes also create a profound impact on innovation, communication, cost savings, and the overall product development cycle.

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Lever-up your rapid prototyping with 3D printing

Compared with traditional hand-made prototypes, 3D printed rapid prototyping hugely shortens the product development cycle and speeds up the time from product concept to launch. Moreover, no matter how complex the structure of the product is, you can find the right technology from 3D printing and the materials by us.
Design
Design
Create the geometry in just minutes with 3D software, no matter how complex the part is. Using DfM technology to gain the best simulation result required by real production.
Refine
Refine
Check out the foreseeable design flaws, and refine the 3D objects in real-time simulation data, this allow you to modify the design instantly, whether functional or aesthetic.
Building
Building
Simply transfering the 3D data to the 3D printing platform, Instantaneously start the building process layer by layer.
Reusability
Reusability
The model data will be stored in software as reusable, always ready for next your rebuilding or iterating product.

3D Printing
Rapid Prototyping

Rapid prototyping with 3D printing technology enables swift iteration and visualization of designs, resulting in quicker product development cycles. It allows for cost-effective testing of concepts, reducing time-to-market and fostering innovation. Its precision and versatility empower designers to efficiently validate ideas and refine designs with ease. Across a range of industries, including consumer products, healthcare, and automotive, popular 3D printing techniques like SLS, SLA, FDM, and MJF are accessible for manufacturing prototypes.

CNC Machining
Rapid Prototyping

Rapid prototyping with CNC machining is a process widely adopted in manufacturing due to its efficiency and versatility. It utilizes digital software models to create physical prototypes swiftly and accurately. CNC machines, capable of cutting a range of substances from plastics to metals, interpret these digital designs, removing material layer by layer. This results in reduced turnaround times, minimized manual errors, and enables complex geometries to be produced that can verify form, fit, and functionality in a operations. Moreover, through its iterative process, adjustments can be introduced promptly, speeding up product development cycles and reducing production costs.

3D Printing rapid Prototyping

How Goes Rapid Prototyping Process

Conceptualization: Initial idea for a product is developed, often using brainstorming sessions and basic design software.
Design: Detailed CAD models are created, considerations for real-world production are included, and the product's specifications are finalized.
Prototyping: Rapid prototyping technology, like 3D printing, is used to produce a physical model from the CAD design.
Testing: The prototype is subjected to tests reflecting its intended use and adjustments are made based on findings.
Refinement: In response to testing results, the design is tweaked and another prototype may be created and examined.
Production: Once the design is finalized, it's ready for mass production. Rapid prototyping aids commercial viability testing.
Review: Feedback from consumers and market is gathered continuously post-launch for further refinements in future iterations.

Rapid Prototyping Accelerates Your Product Development

The rapid prototyping market is revolutionizing the product development cycle, enabling companies to quickly create and test new designs with unprecedented efficiency. This market encompasses a range of technologies, including 3D printing, CNC machining, and injection molding, which are instrumental in reducing the time and cost associated with traditional prototyping methods. Industries such as automotive, aerospace, healthcare, and consumer goods are increasingly adopting rapid prototyping to stay competitive and innovative.

As demand for customized products grows, rapid prototyping offers the flexibility to produce prototypes that meet specific client needs, allowing for faster iteration and refinement of designs. This market is not only fostering innovation but also driving advancements in materials and processes, ensuring that prototypes are increasingly closer to the final product in terms of functionality and appearance. The future of product development is being shaped by the capabilities of rapid prototyping, making it a critical component in the evolution of modern manufacturing.

Available 3D printing techniques for rapid prototyping

Selective Laser Sintering

SLS

Selective Laser Sintering (SLS) employs polymers or resins for 3D modeling, akin to SLM. It's increasingly favored in industrial manufacturing, particularly for end-use parts or rapid prototyping due to its superior mechanical properties, sometimes surpassing injection molding.

3d metal printing materials
Stereolithography

SLA

SLA (Stereolithography) 3D printing utilizes a UV laser to cure liquid resin layer by layer, creating precise, high-resolution models. Commonly used for intricate prototypes, dental models, jewelry, and detailed architectural models.

3d metal printing materials
Digital Light Processing

DLP

DLP 3D printing technology has excellent precision and fast printing speed, making it widely used in parts manufacturing, especially in industries including dental, medical and jewelry industries, DLP has become an ideal choice.

3d metal printing materials
Multi Jet Fusion

HP MJF

MJF (Multi Jet Fusion) 3D printing fuses nylon powder using fast inkjet arrays, enabling the highly precise creation of complex structures. Low cost and excellent part quality are the advantages of MJF, making it appropriate for low volume manufacturing.

3d metal printing materials
Fused Deposition Modeling

FDM

Fused Deposition Modeling (FDM) 3D printing service offers cost-effective prototyping and low-volume production solutions. Ideal for industries such as automotive, medical, and consumer goods, FDM produces durable, functional parts with quick turnaround times.

3d metal printing materials