Why Do We Say That 3D Printing Melbourne Is the Future of the Country’s Manufacturing Sector?

The time it takes to run 3D printing on small orders has transitioned from a tool to make high-end products to becoming an integral part of regular manufacturing protocol. All these factors have contributed to the elevation of quality and a decrease in price. According to Acumen Research and Consulting, the global market for 3D printing will reach a whopping amount of $41 billion by 2026.

3D printing services

Meanwhile, traditional manufacturing is streamlining processes by virtue of different technological advancements. The million-dollar question we have here is, can we say that the 3D printing Melbourne sector holds the very future of the country’s manufacturing industry?

According to a 2017 poll of manufacturing executives, 81% employ additive manufacturing techniques for prototype production, but only 29% use them for the creation of parts and components.

Consider the state of technology now and how it is positioned to play a role in manufacturing’s future.

3D Printing Now

3D printing, alternatively referred to as additive manufacturing (AM), is a process that generates three-dimensional items from a digital file. The process begins with a 3D model which is rendered into a printable file. After that, it will be rendered into a myriad of printable layers by virtue of specialized software. Layers are printed sequentially using a 3D printer machine until the object in question is fully created.

Technology companies developing prototypes were among the first and most passionate users of additive manufacturing technology. Business leaders lauded 3D printing as the future of the industry, only to see the technology miss the mark due to cost and other constraints.

Developments in the 3D printing Melbourne sector have recently accelerated on several fronts. The capabilities of printers have evolved, commercial norms for certain sectors and materials are evolving, and special software for 3-dimensional printing transforms a business idea from a concept to something that is print-ready. As a result, numerous industries are adopting 3D printing into their processes.

3D Printing Manufacturing Advantages


Businesses are realizing that additive manufacturing can save money in the right circumstances. Despite the fact that an industrial 3D printer is a considerable investment, you save money by eliminating the need for casts, injection molds, and other tools and materials that are associated with traditional manufacturing.

Lower manufacturing costs translate into lower consumer expenses, which may result in a gain in market share for your organization. It is possible to customize services for existing clients and seek new market opportunities provided that the product offering at hand is fully customizable.


On-demand industrial production generally requires the use of a scalable process such as that offered by AM. Manufacturers will be able to store less inventory and reduce the length of their design and production cycles.

3D printered parts

The increased availability of materials is boosting the growth of 3-dimensional printing in the parts manufacturing sector, which is estimated to rise from less than 30% today to an estimated 85% in the years to come.

AM technology has started to employ metal, expanding the range of parts that can be produced for spares and special applications. As the metal printing process becomes more refined and less expensive, increasing the volume of manufacturing bodies will take good advantage of it for mass or bulk production.

Can We 3D Print the Future? 

Is it time? Not yet, but additive manufacturing is overcoming the remaining barriers. 3D printing mass/bulk manufacturing must grow cheaper and more efficient. While it is admittedly useful for small runs, we consider AM too sluggish for bulk manufacturing. Most post-processing steps are too laborious for large-scale efficiency.

Moreover, AM must also refine alternatives to metal powders for metal component production. Working with metal powder is difficult, hazardous, and time-consuming. Standards must be maintained while cutting costs.