MatterHackers 3D Scanning Services

Professional 3D Scanning Services

MatterHackers offers professional 3D scanning services using industrial-quality scanners to capture precise details with 0.05mm accuracy, delivering STL models quickly. Our expert team utilizes the latest technologies, including Artec 3D Scanners and Zeiss Metrology Equipment, to serve various industries such as prototyping, industrial engineering, and product design. Contact us to transform your physical objects into high-precision digital models efficiently.

Request a quote to learn more about our scanning services. 

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How Our 3D Scanning Process Works

The Process: We make 3D scanning straightforward and efficient. First, we discuss your project objectives, the quantity of STL models needed, and your preferred timeline. Once we have a clear understanding, we commence the scanning process, ensuring you receive regular updates throughout the project.

The Equipment: we employ the latest and most precise 3D scanning technologies. Our team is proficient in structured light scanning, utilizing the complete range of Artec 3D Scanners and Zeiss Metrology Equipment for unparalleled accuracy and detail.

The Results: Upon completion of your 3D scanning project, you'll receive a precise and accurate STL model from our team, often as soon as the next day! Utilizing cutting-edge 3D scanning technology, our skilled technicians capture your part, object, or project with high precision and detailed accuracy.

The Team: Every member of our 3D Scanning Team completes a comprehensive set of courses to achieve manufacturer training and certification. When you entrust us with your 3D scanning project, you can be confident that you are receiving expert advice and outstanding results.

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3D Scanning By Application

3D Scanning for Architecture: 

3D scanning in architecture revolutionizes the way buildings are designed, constructed, and maintained, offering unparalleled accuracy and efficiency. By capturing detailed measurements and creating precise digital replicas of structures, architects and engineers can streamline the planning process, facilitate renovations, and ensure the integrity of heritage buildings. This technology also enables the rapid prototyping of design concepts, allowing for swift adjustments and better visualization of the final project, thereby enhancing collaboration and innovation in architectural projects.

3D Scanning for Automotive: 

3D scanning in the automotive industry revolutionizes the way vehicles are designed, engineered, and manufactured, offering a bridge between physical objects and their digital representations. This technology enables rapid prototyping, precise reverse engineering, and stringent quality control, ensuring that every component fits perfectly and performs as intended. It also facilitates the creation of virtual simulations and immersive 3D visualizations, enhancing the development process and providing a more interactive customer experience.

3D Scanning for Reverse Engineering: 

3D scanning technology plays a pivotal role in reverse engineering by enabling the accurate and rapid digitization of physical objects into detailed 3D models. This process facilitates the analysis of product designs, improvement of existing products, and creation of compatible aftermarket parts without the original blueprints. By capturing precise geometries and dimensions, 3D scanning streamlines the workflow from concept to production, significantly reducing development time and costs while enhancing the quality of the final product.

3D Scanning for CGI: 

3D scanning technology is a game-changer for the CGI industry, enabling the creation of highly detailed and accurate digital replicas of real-world objects, characters, and environments. This process not only streamlines the workflow for filmmakers, game developers, and visual effects artists by providing them with ready-to-use digital assets but also enhances the realism and immersive quality of digital content. With the ability to capture intricate details and textures, 3D scanning opens up new possibilities for creativity and innovation in the production of movies, video games, and virtual reality experiences.

3D Scanning for Forensics and Crime Scene Investigation: 

3D scanning technology plays a pivotal role in modern forensics, offering a non-intrusive means to capture and preserve crime scenes and evidence in meticulous detail. This method allows forensic experts to analyze crime scenes and evidence long after the physical site has been cleared, supporting the reconstruction of events and the examination of intricate details that might be crucial for solving cases. Moreover, the ability to create precise digital replicas facilitates the presentation of clear, comprehensible evidence in court, enhancing the judicial process.

3D Scanning for Healthcare: 

3D scanning in healthcare offers transformative benefits, enabling highly accurate and detailed digital models of anatomical parts for a range of applications, from custom-fit prosthetics and orthotics to precise surgical planning and implant design. This technology enhances patient-specific care, allowing for personalized treatments and devices that significantly improve patient outcomes and recovery times. Additionally, 3D scanning supports medical education and research, providing realistic models for training and simulation, fostering a deeper understanding of complex medical conditions.

3D Scanning for Heritage Preservation & Anthropology: 

3D scanning plays a crucial role in heritage preservation and anthropological research by enabling the precise digital documentation of artifacts, historical sites, and human remains. This technology allows for the non-invasive study and archiving of cultural and historical treasures, ensuring their preservation for future generations. Furthermore, it facilitates detailed analysis and reconstruction of ancient lifestyles, practices, and human evolution, offering invaluable insights into our past. Through 3D models, researchers and the public alike can explore and interact with our shared heritage in ways previously unimaginable, bridging the gap between past and present.

3D Scanning for Jewelry: 

3D scanning technology is transforming the jewelry industry by enabling precise digital replication of intricate designs, facilitating the creation of custom pieces tailored to individual preferences. It streamlines the design and production process, from conceptualization to the final product, ensuring accuracy and reducing the time and cost associated with traditional methods. Moreover, 3D scanning aids in the preservation and restoration of antique jewelry, capturing every detail with high fidelity for replication or study, thus preserving cultural heritage and craftsmanship for future generations.

3D Scanning for Manufacturing: 

3D scanning technology revolutionizes the manufacturing process by enabling rapid prototyping, precise quality control, and efficient reverse engineering. It allows manufacturers to capture detailed geometries of objects quickly and accurately, significantly reducing the time from concept to production. This technology also facilitates the creation of digital inventories and the replication of legacy parts without existing documentation, streamlining the manufacturing workflow and enhancing product development across various industries.

3D Scanning for Prosthetics: 

3D scanning technology significantly enhances the field of prosthetics by enabling the creation of highly accurate and personalized devices tailored to the unique contours of an individual's body. This non-intrusive method allows for rapid and precise measurements, ensuring a perfect fit and improved comfort for the wearer. Moreover, 3D scanning streamlines the design and manufacturing process, making it possible to quickly adjust and replicate prosthetic devices as needed, thereby improving the quality of life for amputees and those requiring orthotic support.

3D Scanning for Video Games: 

3D scanning technology revolutionizes video game development by enabling the creation of highly detailed and realistic models of characters, objects, and environments directly from the real world. This process significantly speeds up the creation of immersive, photorealistic virtual worlds, allowing developers to focus on enhancing gameplay and storytelling. By capturing true-to-life textures and geometries, 3D scanning brings an unprecedented level of realism and authenticity to video games, elevating the player's experience to new heights.