LUSHI ENGINEERING FOR MANUFACTURING INDUSTRIES
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Custom 3D Printing Services for Industrial Parts

LUSHI offers a diverse technologies of 3D printing for building industrial prototypes and end-use parts, with a broad wide options of metal and plastic materials. Delivery as quickly as 1 day.

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Industrial-Grad
3D Printing

LUSHI offers a comprehensive, on-demand manufacturing solutions that spans the entire production process, from initial concept through rapid prototyping to final production and post-processing. Our versatile range of materials includes both plastics and metal powders, allowing us to meet diverse manufacturing needs with precision. Leveraging advanced 3D printing technologies, including SLM for metal and SLS, SLA, MJF, FDM, and DLP for plastic parts, we deliver high-quality results with unmatched efficiency.

Our expert engineering team is dedicated to helping you select the right additive technology, materials, and processes to accelerate your time to market. We provide both commercial and industrial 3D printing services, all under one roof, ensuring that your projects benefit from seamless integration and the shortest possible lead times. Whether you require metal or plastic parts, our reliable solutions are tailored to meet your specific needs, with the ability to deliver fully finished additive components as quickly as the next day.

Industrial Grade 3D Printing for Prototypes and End-Use Parts

Selective Laser Melting

SLM

Selective Laser Melting (SLM) is a leading metal 3D printing technology, similar to DMLS. Base on powder bed fusion (PBF) principles, SLM is commonly used for building functional end-use metal parts with tight tollerence for high-level industry.

3d metal printing materials
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
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
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

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Our capabilites of additively 3D printing services :

For over a decade, LUSHI has been at the forefront of advancing additive manufacturing technologies, applying them across a wide range of industries. Leveraging our deep expertise and a team of skilled engineers, we collaborate with clients worldwide to overcome challenges in both development and production processes. Our commitment is to provide high-quality, cost-effective industrial-grade prototypes and custom 3D-printed parts, whether for low-volume runs or full-scale series production.
3D Model Design
Metal 3D printing
Resin/Plastics 3D printing
Low-Volume Manufacturing
Rapid Prototyping
End-Use Spare Parts
Post-Processing
Max. Building Volume for metal 3D printing : 425mm * 425mm * 450mm
Max. Forming Volume for resin/plastics 3D printing : 2700mm * 900mm * 800mm
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3D Printing in Metals
Metal 3D Printing for End-Use Parts

Thanks to 3D printing technology, a wide range of metal powders, including copper, nickel alloys, aluminum, titanium, cobalt chrome, and stainless steel, are capable of being tailored to individual requirements. These powders undergo meticulous preparation to ensure superior flowability and sintering properties, crucial for achieveing high-grade metal components.

The versatility of metal powders enables the production of complex, functional components with precision and durability. Stainless steel boasts corrosion resistance and affordability, titanium excels with a superior strength-to-weight ratio for aerospace and medical uses, while nickel alloys and cobalt chrome shine in heat and corrosion resistance, ideal for rigorous industrial settings.

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3D Printing in Plastics
Ideal for aesthetic and functional parts

Plastics 3D printing offers a versatile solution for producing both aesthetic and functional parts, change the way of building rapid prototyping across industries. Its flexibility enables the creation of intricate designs and tailored shapes, rendering it perfect for crafting visually appealing prototypes. Beyond prototyping, plastics are utilized for end-use functional components due to their durability and lightweight nature.

Commonly used materials include PLA, ABS, PETG, Nylon, TPU, and resin-based polymers like SLA and SLS resins, each offering unique properties suited for various applications.

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A Wide Range of AM Materials in Metals & Plastics

In 3D printing, the choice of materials, whether metals or plastics, plays a crucial role in determining the final product's performance and suitability for specific applications. Metal 3D printing, using materials like stainless steel, titanium, and aluminum, enables the creation of durable, complex parts with high strength and thermal resistance, ideal for industries like aerospace, automotive, and medical. Technologies such as SLM and DMLS are commonly used for industrial-grade components.

On the other hand, Each plastics and resins bring unique properties, such as flexibility, impact resistance, or thermal stability, allowing for tailored solutions that meet the demands of various industries. Plastics like Nylon 11 and Nylon 12, which are known for their strength, flexibility, and resistance to impact, making them ideal for functional prototypes and end-use parts in industries like automotive and aerospace.

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How additive manufacturing impact your product development

Complexity
Complexity
Due to its unique process of 3D printing, the ultra complex part can be achieved and truly optimized rather than limited by traditional manufacturing constraints.
Cost
Cost
The cost per printed metal part is consistent at low and high volumes, especially for low-volume production, it has a great price advantage, mainly because 3d printing does not require mold making.
Time
Time
In the stage of development using the 3D printed prototypes to check out and optimize the product can shorten the whole development cycle without tooling, which means you bring the products into market quickly.
Digital
Digital
AM is a digital technology that is compatible with other software and data, greatly enhancing its reliability and repeatability. It is also an on-demand production model that is in line with future manufacturing.

Industrial Applications of 3D Printing Technologies

Aerospace
Aerospace
Lightweight, intricate designs, and on-demand production enhance efficiency and performance in aircraft components.
Automotive
Automotive
Customization, prototyping, and lightweight materials optimize vehicle design, fuel efficiency, and performance.
Medical
Medical
Personalized implants, prosthetics, and surgical tools improve patient outcomes and streamline healthcare.
Consumer
Consumer
Complex circuitry, customized casings, and rapid prototyping enhance innovation and product development.
Dentistry
Dentistry
Customized dental implants, crowns, and orthodontic appliances improve patient comfort and treatment outcomes.
Industrial Tooling
Industrial Tooling
Precision, customization, and rapid prototyping reduce lead times and enhance manufacturing efficiency.
Jewelry
Jewelry
3D printing brings new expectations to jewelry manufacturing. Designers are free to design jewelry with imaginative shapes. It also enables the full use of precious metal materials.
Education
Education
3D printing enhances hands-on learning, facilitates prototyping, and fosters creativity in STEM education.