Rise above the limitations of conventional manufacturing.

In the manufacturing realm, the key is maximizing efficiency on the production line. Elevate quality, reduce time and costs.
Uncover a fresh approach to enhance productivity through the augmentation of Overall Equipment Efficiency (OEE)

What makes industrial additive manufacturing the optimal choice for your business?

The conventional methods of manufacturing are no longer the sole pathways to introduce your product to the market. It’s time to reimagine the role of 3D printing in manufacturing. In the age of Industry 4.0, additive manufacturing unlocks new possibilities. Shave days off production cycles. Remove complexity from final assembly. Produce lightweight, high-strength structures. Create hyper-realistic prototypes. Be more competitive than ever before.

Industry 4.0
Industrial Revolution

We’re still in the first stages of 3D printing but have already seen a reduction of costs in the applications that we found by 70 – 90%, and also a decrease of delivery time of 70 – 90%.

Heineken, Ensuring production continuity with 3D printing

What are the advantages of using 3D printing in manufacturing?

Failure is cheaper and faster

1. Reduction in costs

Traditional manufacturing methods are widely known for their high costs, while the 3D printing method offers a more cost-effective and accessible means of producing parts and products. In contrast to traditional manufacturing, which often involves multiple individuals operating various machines or assembling products on a production line, 3D printing eliminates these complexities. With 3D printing, only an operator is needed to initiate the machine, which then autonomously follows the instructions to create the specified design. Consequently, the use of 3D printing in manufacturing results in significantly reduced labor costs, as skilled machinists or operators are not essential components of the process.

2. Reduction of risks

Having the capability to validate a design before initiating production can mitigate the risks associated with errors, material wastage, and financial losses for businesses. Employing 3D printing in product creation enhances confidence, particularly due to the flexibility of redesigning and modifying 3D prototypes compared to their counterparts produced through traditional methods.

In terms of setup costs, manufacturers are not compelled to produce large quantities of a product to justify the setup expenses. Unlike traditional production methods that heavily rely on the economies of mass production and demand a substantial workforce for assembly, 3D printing necessitates only the filament material and minimal additional resources to fulfill an order.

Failure is cheaper and faster

3. Failure is cheaper and faster

3D printers do not require retooling between production runs. While the assembly speed of a 3D printer may be considered slower compared to a traditional assembly line, it becomes crucial to account for potential machinery malfunctions and human errors that can disrupt production in traditional manufacturing.

4. Time to market

3D printing facilitates the rapid development of ideas. In certain cases, it may even be feasible to design and print 3D concepts on the same day. When applied to large-scale manufacturing, 3D printing significantly outpaces conventional methods, allowing companies to compress manufacturing timelines from months to days. This acceleration not only expedites production but also positions companies ahead of their competitors.

Time to market
build and grow

5. Build and grow

By embracing 3D manufacturing, businesses can experience continual growth and evolution by bringing to life items born from their creativity. The realm of 3D manufacturing is boundless, as virtual creations can swiftly transform into tangible products within a short timeframe. Consequently, for any business, a product can seamlessly progress from being an idea to a conceptual design and ultimately materialize as the finished part.

6. No Limitations in geometries

Over the years, conventional manufacturing methods have constrained product design possibilities. However, with ongoing advancements and anticipated future innovations, the 3D manufacturing process opens up an infinite array of possibilities. Geometries that were once challenging, such as holes with changing directions or square interior cavities, can now be easily achieved. These designs have become not only possible but also simpler to construct.

No Limitations in geometries
As this is a relatively new and emerging technology, material costs can still be relatively high. However, the expanding range of materials holds the promise of future price reductions. Despite the current expense, the overall cost of utilizing 3D printing for manufacturing is significantly lower compared to traditional methods. Traditional manufacturing processes often generate substantial waste, a challenge that 3D printing addresses by utilizing resources more efficiently.

When employing 3D printing in manufacturing, the printer utilizes only the material that passes through its extruder, specifically for the assembly of the product. In contrast to injection molds, where additional materials are often required to fill the molds, 3D printing tends to generate a lower amount of waste, such as support materials, particularly in mass production scenarios.

7. Less waste

As this is a relatively new and emerging technology, material costs can still be relatively high. However, the expanding range of materials holds the promise of future price reductions. Despite the current expense, the overall cost of utilizing 3D printing for manufacturing is significantly lower compared to traditional methods. Traditional manufacturing processes often generate substantial waste, a challenge that 3D printing addresses by utilizing resources more efficiently.

When employing 3D printing in manufacturing, the printer utilizes only the material that passes through its extruder, specifically for the assembly of the product. In contrast to injection molds, where additional materials are often required to fill the molds, 3D printing tends to generate a lower amount of waste, such as support materials, particularly in mass production scenarios.

8. Less Storage

Many industries require businesses to store the parts and products they need or intend to sell, leading to a substantial need for storage space to accommodate goods that may remain on shelves for months or even years, incurring significant costs. Employing 3D printing in manufacturing can yield cost reductions by minimizing the necessary storage space. With 3D printing, products can be manufactured on demand as they are sold, eliminating the need for overproduction and subsequently reducing storage expenses.

DM Series

Application of 3D printing in manufacturing

EDU1 Pro | Bigger and Better 3D Printer for School and Universities.

Product Development

– Concept Directions
– Shape and form
– Functional prototypes
– Look and feel

Inspira Technology | Why Inspira

Manufacturing Aids

– Jigs and fixtures (assembly tools)
– Tool organizers
– Quality Assurance
– Molds and patterns
– Transport tools

Inspira Technology | Industrial 3D Printer, Manufacturer and Technology

Final Parts

– Custom one-offs
– Small batches
– Replacement Parts
– Decentral Manufacturing

Industrial 3D Printer for Manufacturing