Replique
Software : Cloud Manufacturing : Additive Manufacturing
With the Replique platform you can start into this future and benefit from the full scope of industrial 3D printing: fast, easy and without the need of own complex and costly infrastructure.
Assembly Line
Optimizing Agricultureβs Spare Part Production with 3D Printing
When it comes to integrating 3D printing in agriculture, there are three main options to consider, with the farmer integrating 3D printing, the farmer ordering the part via a 3D printing service, or the equipment manufacturer itself integrating the technology.
The third option of integrating 3D printing in agriculture involves the hardware producers themselves adopting a 3D printing platform. This option provides the added benefit of the hardware producer having complete control over the design and quality of the parts produced.
To streamline the process, companies can integrate a digital inventory platform such as Replique. This allows them to store all their 3D printable parts in one place, already ready for production with fixed print parameters. When a farmer orders a part, they can place the order via their usual ordering system, such as a webshop or ERP system. This order is then processed in the digital inventory, triggering the printing of the part at the print farm. Once printed, the part is shipped directly to the end-user.
3-Step-Guide to Selecting the Perfect Parts for 3D Printing
3D printing (Additive Manufacturing = AM) has revolutionized the manufacturing industry, allowing businesses to create complex and customized parts with ease and move towards on-demand production. However, finding the right parts for additive manufacturing can be a challenging task, especially for those who are new to the technology. The quality of the parts chosen to print can greatly impact the outcome of the 3D printed part. In this article, we therefore want to give a 3-step-guide from a supply chain perspective that can help lead companies through the selection process and maximize the benefits of 3D printing, from the assessment stage to a technical validation and TCO analysis.
How 3D printing improves sustainability across the supply chain
After analyzing several studies about energy efficiency of 3D printing, the answer is not as simple. Due to very individual use cases (machine, product and process characteristics), comparability of traditional methods and 3D printing is not always generally possible. While compared with subtractive methods, 3D printing can be more energy efficient (especially due to lesser material consumption). The energy consumption of 3D printing compared to injection molding is generally considered to be higher due to a way longer production time per part (less than a minute per part for injection molding, several hours for 3D printing). However, other factors such as the energy consumption for producing the mold, the production volume and material efficiency have to be taken into account. When looking into lower volumes, it becomes a fact that additive manufacturing is a more sustainable production method, regarding energy efficiency.