Industrial and Commercial 3D Printers

Commercial 3D printers can produce high quality outputs and handle high volumes of production for your business. Browse through the wide range of industrial 3D printers that are available on our website now, each with their own unique applications, features, and advantages. With over 20 years in the 3D printing industry, rest assured that Creatz3D will be able to provide you with smart solutions for your commercial and industrial-scale 3D printing needs. Whether you’re in the market for a 3D printer or seeking service printing, count on Creatz3D for connections that consistently help you reach your objectives.

An award-winning leader for commercial 3D Printers and Production Systems, Stratasys is at the forefront of shaping the future and empowering customers with optimum prototyping and production experiences.

Digital Wax Systems (DWS) designs and manufactures Stereolithography commercial resin 3D printers, along with software and specific materials, for fast production and rapid prototyping.

The Spanish-based company, GPA Innova, specialises in manufacturing machines for metal surface finishing using their revolutionary and patented DLyte technology, the world’s first Dry Electropolishing system.

With experienced technical ceramic expertise gleaned from decades of research, 3DCeram‘s complete range of professional 3D printers helps to support its customers with ceramic manufacturing needs in different industries.

Materialise software solutions are at the heart of developments in prototyping, production, and medical needs. With their user-friendly 3D imaging solutions, Materialise generates increased production efficiency for your business needs.

SLM Solutions is the leading provider of metal-based additive manufacturing technology in the field of selective laser melting. Achieve lightweight construction with premium part quality for your 3D metal prototyping and production demands.

Applications of Industrial 3D Printers

Industrial 3D printers have paved the way for a variety of applications, transcending traditional methods and establishing innovative production processes. These printing equipment, renowned for their efficiency and adaptability, are especially adept at prototyping, hybrid manufacturing, and comprehensive production. Let’s delve into their broad spectrum of applications:

Rapid prototyping helps businesses test ideas before producing them on a large scale. With industrial 3D printers, designers can swiftly turn their digital concepts into tangible prototypes. By doing this, it becomes easier to see how a product feels, works, and looks. If there’s a design flaw or room for improvement, they can tweak the design and print a new 3D printing prototype. 

This quick, iterative process allows for perfection and ensures that when a product hits the market, it’s the best version possible.

This is an exciting blend of old and new. By combining tried-and-true methods like moulding with modern 3D printing, industrial manufacturers can benefit in several ways:

  • Tooling: Making custom tools can be time-consuming and expensive. But with 3D printers, creating precise, custom tools becomes quicker and more affordable. Whether it’s tools for shaping metal, moulding plastics, or any other specific task, 3D printers deliver without breaking the bank.
  • Jigs and Fixtures: These are crucial in the manufacturing process. They help guide the production, ensuring consistency and quality. With 3D printers, creating these components in-house is straightforward and efficient. This means faster production times and potentially significant cost savings.

Industrial 3D printers have evolved beyond just prototyping. They’re now crucial players in the actual production process.

  • Mass Customisation: Every individual is unique, and sometimes products need to reflect that. Be it medical tools tailored to a specific patient, or headphones designed to fit an individual’s ear shape perfectly, 3D printing makes it feasible. Changing designs and producing varied items becomes a seamless task.
  • Short Run Production: Not all products need to be made in massive quantities. Sometimes, a business might need a limited batch of a product. For such needs, 3D printing is a boon. It allows businesses to produce limited runs without the high costs or extended timelines traditionally associated with such tasks.

As technology continues to advance, we can only anticipate more groundbreaking uses and further integration of 3D printing in various industries.

Benefits of Industrial 3D Printing in Manufacturing

Industrial 3D printing promises transformative benefits that are making traditional manufacturing methods rethink their stance. Here’s why:

  • Cost Efficiency: 3D printing emerges as a cost-effective solution in manufacturing. Compared to traditional methods which often involve expensive machinery and more manual labour, 3D printing largely automates the process. The result? Lower staffing overheads and more cost-savings. Additionally, 3D printing’s precise nature means minimal waste, ensuring that every ounce of material counts, further optimising costs.
  • Unleashing Design Potential: Historically, manufacturing designs were restricted by the constraints of traditional methods. With 3D printing, these barriers are dissipating. Now, designs previously thought too intricate or impossible—like intricate internal cavities or angular holes—are achievable. This freedom in design means products can be more innovative, tailored, and complex.
  • Minimal Waste, Maximum Gain: Traditional manufacturing can be wasteful, often cutting away material, resulting in significant waste. 3D printing turns this model on its head. By adding material layer by layer, only what’s needed is used. This not only means fewer raw materials but also bolsters the company’s eco-friendly credentials.
  • Quick In-house Prototyping: The path from idea to product is swifter with 3D printing. Manufacturers can rapidly produce prototypes on-site rather than waiting on outsourced versions. This streamlining reduces lead times, helps in early fault detection, and accelerates time-to-market, keeping businesses agile and competitive.
  • Local Economies Revitalising: 3D printing presents a unique opportunity for local manufacturing hubs. As costs reduce, and the need for large operational teams dwindles, it becomes viable for businesses to set up shop closer to home. This move could rejuvenate local economies, particularly in regions that previously struggled, creating jobs and spurring growth.
  • Simplifying Supply Chains: With the capacity to produce parts on demand, businesses can trim down inventory, reducing storage costs and waste. This adaptability means they can respond quicker to market demands, ensuring they remain nimble and ahead of competitors.
  • Customisation at Scale: Personalised products aren’t just for niche markets anymore. With 3D printing, mass customisation is now in reach. Manufacturers can efficiently tailor products to individual specifications without compromising on time or cost, enhancing customer satisfaction.

Frequently Asked Questions About Industrial 3D Printers

Industrial and desktop 3D printers serve different purposes and vary significantly in size, capability, and cost. Industrial 3D printers are larger, designed for professional settings, and can handle bulk and complex projects with higher precision. They often use a broader range of materials and provide faster print speeds due to advanced mechanics. On the other hand, desktop 3D printers are more compact, suited for personal use or small businesses. They are more affordable but might lack the precision, speed, and material versatility of their industrial counterparts.

Yes, industrial 3D printers are generally faster than their consumer counterparts. They’re designed for bulk and continuous production, incorporating advanced technology and larger print beds. While the speed depends on the complexity and size of the object, material used, and chosen resolution, their optimised mechanics and software capabilities ensure efficient and faster print times in a professional setting.

Industrial 3D printers are built for durability and long-term usage. With regular maintenance and proper care, they can last for several years, often beyond a decade. Their lifespan is a testament to their robust construction and the high-quality components used. However, just like any machinery, the actual longevity depends on usage frequency, maintenance practices, and the operational environment.

The cost of industrial 3D printers is a reflection of their capabilities. They are equipped with advanced features, precise calibration tools, and larger printing capacities. Furthermore, the materials they use are often of a higher grade, ensuring durability and accuracy in final products. The technology and research that go into their development, combined with the robustness and scalability they offer, justify their premium price tag.