A cheaper manufacturing option: Order 3D prints

Table of Contents

Hands holding a wallet with money to order 3d printing

3D printing

In today's competitive industrial landscape, cost reduction and efficiency are two critical factors in maintaining competitiveness. One technology that has proven to be a powerful tool in achieving these goals is 3D printing. With this article, we want to clearly show the advantages of using 3d printing instead of other traditional manufacturing methods.

Faster Prototyping and Product Development

One of the most obvious benefits of 3D printing is its ability to quickly create prototypes and models. Instead of waiting for traditional tools and molds to be manufactured, companies using 3D printing can iterate and test their products faster and cheaper. This not only saves time, but also reduces the costs of product development.

Reduced production costs

Traditional mass production often requires expensive tools and machinery to manufacture products in large quantities. With 3D printing, mass production can be more cost-effective because it does not require as extensive investment in tooling. In addition, small batches of products can be produced with 3D printing without the high costs of creating special tools and molds.

Increased Flexibility in Design

3D printing makes it possible to create products with complex shapes and geometries that were previously difficult or impossible to achieve with traditional methods. This increased flexibility in design can lead to innovative products and the opportunity to constantly improve products to an extent that was previously unthinkable.

Reduced material waste

Another benefit of 3D printing is a potential reduction in material waste. By using almost only the material needed to create a detail, companies can reduce their material costs and reduce their environmental impact.

3D printing reduces inventory

A significant advantage of 3D printing in industry is its ability to reduce the need for large inventory. Traditional manufacturing often requires companies to produce and store large quantities of finished products to meet demand. This means significant costs for warehouse space and capital tied up in inventory. With 3D printing, products can be created on demand, also known as Print on Demand, which minimizes the need for inventory. Companies can simply print the products they need when they need them, leading to reduced inventory costs, increased flexibility in managing demand and lower risk of stockpiling components that are out of date and need to be scrapped.

Print on Demand

Print on Demand is a type of manufacturing workflow enabled by 3D printing, this allows you to order 3D printed objects on demand rather than traditionally manufacturing in large quantities. 3D Print on Demand is an excellent way for large and small companies that want to offer customized or unique products and want to avoid having a large capital tied up in inventory and expensive tools. Thanks to Print on Demand, stocks can be kept digital and expensive spare parts can only be produced when they are needed. This eliminates the need to manufacture large quantities in advance and store them pending sale. Instead, the products are manufactured immediately after the order and sent directly to the customer. This method reduces inventory costs and discards, while allowing for a wide range of products to be offered without having to worry about excess inventory.

Practical Examples

In various industries, 3D printing has already proven to be a powerful tool for cost reduction. In production, 3D printing has changed and streamlined the manufacturing of fixtures, jigs and other aids that are needed in relatively low volumes. With 3D printing, machine builders can manufacture specially adapted components in both plastic and metal at favorable prices and with a short delivery time compared to what traditional manufacturing offers. In the aerospace industry, 3D printing has been used to produce lighter and stronger components, which has led to reduced fuel consumption and reduced CO2 emissions. In the automotive industry, custom parts have been manufactured using 3D printing, which was previously not economically possible using traditional methods. Even the medical industry has used 3D printing to create customized medical devices, improving patient care and reducing costs.


3D printing is a technology that has revolutionized the industry by reducing production costs, increasing design flexibility and reducing material waste. Companies that apply this technology can expect to improve their competitiveness and profitability in the long term.

Contact us at Top3D today to explore how 3D printing and modern manufacturing methods can revolutionize your business. We are experts in implementing effective solutions that save time and money. Let us help you take your business to the next level!

Table of Contents
Our Social Media

ESD står för elektrostatisk urladdning (Electrostatic Discharge), vilket är en plötslig överföring av elektricitet mellan två elektriskt laddade objekt orsakad av direkt kontakt eller genom ett elektriskt fält. Detta fenomen kan orsaka skador på elektroniska komponenter och kretsar, eftersom de ofta är känsliga för små laddningar. För att skydda mot ESD-skador används ofta antistatiska material, jordningsmetoder och andra förebyggande åtgärder inom elektronikindustrin.

an image that represents having 100% infilrate when ordering 3d printing
an image that represents having 0% infilrate when ordering 3d printing

A CAD program, which stands for "Computer-Aided Design," is an important component when it comes to ordering 3D prints for industrial purposes. CAD programs are specialized software used to create detailed and accurate digital models of objects, components or prototypes. These digital models serve as basic blueprints or designs needed to produce physical objects using 3D printing technology.

.STL (stereolithography) is a file format used to represent 3D geometry, especially surfaces made up of triangles. It is a common format in 3D printing and is used to describe models to be printed in 3D printers.

.STEP (Standard for the Exchange of Product Data) is a standard for exchanging 3D models and product data between different CAD (Computer-Aided Design) programs. It is a common format in industry and is used to transfer detailed 3D models of components and products.