Description
3D prntingisa kind ofadditive manufactunng technologies,which incudes SLA (Stereo Lithography) and SlS. they process 3D obiect by the coninuous phvsical laver. Providing the high-quality products in short days is our mision.3D printing did it, even for the compicate structure parts. 3D phinting is the future direction to produce the prototypes with low pice and fastspeed. TS have much experience in this line, and we can make the clear PC products via SLA with continuous innovation and testing.
SLA material: ABS-like, Semi-translucent and Clear PCSLS material: PA. PA+GF
Advanced Additive Manufacturing Technologies
We utilize Stereolithography (SLA) to produce parts with superior surface smoothness and fine detail, making it the optimal choice for visual models and master patterns. For applications requiring functional mechanical properties, we employ Selective Laser Sintering (SLS), which fuses nylon powders into durable components without the need for support structures. We also offer Selective Laser Melting (SLM) for direct metal fabrication. This range of technology allows us to handle highly intricate geometries that traditional machining cannot achieve. By directly processing digital CAD data, our custom 3d printing workflow ensures that your design concepts are transformed into physical objects with exceptional accuracy and speed.
Versatile Material Options for Engineering
A key strength of our custom 3d printing service is the wide variety of materials available for validation purposes. We support the use of photosensitive resins that simulate the properties of standard plastics, offering options for transparency, high toughness, or heat resistance. In the realm of powder-based printing, we process engineering thermoplastics such as Nylon PA12 and Glass-Filled Nylon, which provide excellent strength and thermal stability for rigorous testing. For metal requirements, our capabilities extend to Stainless Steel, Aluminum, and Titanium. This material diversity ensures that engineers can select the right medium for their specific application. Whether testing for flexibility, rigidity, or weight, our 3d printing solutions provide the physical characteristics needed to verify performance before final manufacturing.
Seamless Digital-to-Physical Workflow
Immicron streamlines the product development process through an efficient digital workflow. Once your 3D CAD files are received, our technicians analyze the geometry for printability, optimizing orientation and support structures to ensure the best possible outcome. This meticulous preparation minimizes errors and ensures that the final custom 3d printing services we deliver meet strict dimensional tolerances. We focus on bridging the gap between virtual design and physical reality, allowing designers to hold their creations in hand within days. This capability is crucial for verifying fit, form, and function, enabling immediate feedback and design refinement. Our process is designed to support the fast-paced nature of modern engineering, ensuring that your innovation cycle remains uninterrupted.
The advantages of 3D printing:
1. Fast
2.Low price, economical
3.Complex structures
4. Widely used in industrial, automotive, medical, consumer electronics industries etc.
Unrestricted Geometric Complexity
The primary advantage of using Immicron for custom 3d printing is the ability to create geometries that are impossible with subtractive manufacturing. Our additive process builds parts layer by layer, allowing for the inclusion of internal cooling channels, complex lattice structures, and undercuts without the limitations of tooling angles. This design freedom empowers engineers to consolidate multi-part assemblies into single, lightweight components. By utilizing our 3d printing service, you can explore innovative designs that maximize performance and efficiency. This capability is particularly valuable for creating organic shapes and topologically optimized structures that require precise weight reduction while maintaining structural integrity.
Rapid Design Iteration and Validation
Time is a critical factor in product development, and our services are optimized for speed. 3d printing allows for the rapid production of prototypes, enabling design teams to test and iterate multiple versions of a product in a short timeframe. Instead of waiting weeks for molds or fixtures, you can receive functional parts in a matter of days. If a design flaw is detected during testing, the digital file can be modified and re-printed immediately. Immicron’s agile custom 3d printing services facilitate this iterative loop, helping you refine your product’s ergonomics and functionality quickly. This accelerated validation process ensures that your final design is robust and market-ready sooner.
Professional Surface Finishing
While raw printed parts are functional, Immicron adds value through comprehensive post-processing capabilities. We understand that the visual appearance of a prototype is often as important as its function. Our team offers expert surface finishing for custom 3d printing service projects, including sanding, bead blasting, polishing, and painting. For SLA parts, we can achieve optical clarity or a high-gloss finish that rivals injection molded plastics. We also provide vapor smoothing for SLS parts to seal the surface and improve aesthetics. These finishing touches ensure that your prototypes are not only dimensionally accurate but also visually presentable for investor presentations, marketing photos, or end-user focus groups.
Use Scenarios
Medical Models and Surgical Guides
Immicron leverages its ISO 13485 certification to provide specialized custom 3d printing for the medical sector. We assist biomedical engineers and surgeons by producing accurate anatomical models derived from patient scan data. These models are essential for pre-surgical planning and education. Additionally, we manufacture biocompatible drill guides and cutting fixtures using medical-grade materials. The high precision of our 3d printing service ensures that these tools fit perfectly and perform reliably during procedures. This application helps medical professionals visualize complex pathologies and test surgical approaches on physical models before entering the operating room, thereby enhancing safety and procedure efficiency.
Automotive Functional Prototyping
In the automotive industry, verifying the fit and assembly of complex components is vital. Immicron supports automotive engineers by printing full-scale prototypes of ventilation ducts, dashboard panels, and engine components. Using tough SLS nylon, we create 3d printing parts that can withstand functional assembly tests and thermal checks. This allows for the physical verification of airflow paths and mounting points within the vehicle chassis. For aesthetic reviews, we produce high-resolution SLA parts that are finished to match the texture and color of the final interior. Our custom 3d printing services enable automotive teams to validate design concepts rapidly, ensuring that every part interacts correctly with the rest of the vehicle system.
Robotics and Automation Components
Robotics developers rely on Immicron to fabricate lightweight and rigid structural parts. Through custom 3d printing service solutions, we produce complex end-effectors, grippers, and joint housings that require integrated cable routing or sensor mounts. The ability to print with Aluminum or strong polymers allows for the creation of parts that reduce the overall weight of the robot arm, thereby increasing payload capacity and battery life. Engineers use our services to test the kinematics of moving parts quickly. By producing these specialized components without the need for expensive tooling, robotics companies can experiment with different claw designs and mechanical linkages to optimize the performance of their automation systems efficiently.
About Us
Micron Precision Technology Co., Ltd. (Immicron) was established in 2013 in Shenzhen, China, and is a premier provider of advanced manufacturing solutions. With a facility of 2,000 square meters and over 50 skilled professionals, we specialize in 3d printing, CNC machining, and rapid prototyping. We are committed to delivering high-quality results, backed by our ISO 9001:2015, ISO 14001:2015, and ISO 13485:2016 certifications. These credentials reflect our dedication to quality management, environmental responsibility, and medical device standards. Immicron focuses on helping clients turn innovative concepts into reality through precision engineering and state-of-the-art additive manufacturing technologies. We serve a global client base across the medical, automotive, and industrial sectors, providing reliable engineering support and rapid delivery for projects of any complexity.
Call to Action
Submit your CAD files today to receive an instant analysis and quotation for your project!
FAQ
What file types do you accept for printing?
The most common file format for 3d printing is STL (.stl). We also accept STEP (.stp) and IGES (.igs) files. Please ensuring your files are exported with sufficient resolution to maintain curved surfaces.
What is the difference between SLA and SLS?
SLA (Stereolithography) uses a laser to cure liquid resin, producing parts with very smooth finishes and high detail, ideal for visual models. SLS (Selective Laser Sintering) uses a laser to sinter nylon powder, creating strong, heat-resistant parts suitable for functional testing.
Can you print clear or transparent parts?
Yes, we offer clear resins for SLA printing. After printing, we can perform polishing and clear coating to achieve high transparency, making these parts suitable for lenses or light pipes.
Do you offer metal 3D printing?
Yes, our custom 3d printing services include SLM (Selective Laser Melting) for metal parts. We work with materials like Stainless Steel, Aluminum, and Titanium to produce fully dense metal components.
How do you ensure part quality?
We adhere to ISO 9001 and ISO 13485 standards. Our team checks raw materials and performs dimensional inspections on finished parts to ensure they meet your design specifications and tolerances.
