How is it made?
Making polymer clay cutters is a complex process, from 3D design to packaging. First, designers create drawings and dimensions for the desired shape in a 3D program. Based on the completed drawings, the 3D printer uses white PLA to create the cutter with 0.4 mm edges. After printing, the cutter is carefully packed for safe transport. With the cutter thus made, you can easily decorate things made of polymer clay. Despite the complexity of the process, the end result will be a precise, high-quality cutter that helps you in your work.
PLA (polylactide) is a durable, biodegradable thermoplastic commonly used for 3D printing. PLA material is usually made from corn starch or sugar, allowing it to use raw materials from natural sources. PLA material can print well and is easy to shape, so it is also suitable for 3D printing and sculpting. PLA material has a higher boiling point than ABS material, so it is not suitable for making heat-resistant products. PLA material is widely used in 3D printing because it is environmentally friendly and readily available and therefore suitable for prototyping, model building and small series production.
3D printing is a time-consuming process, from design to final product. The design time depends on how complicated the shape is and how long it takes to draw and measure. And the duration of 3D printing depends on how big the product is and how long the printer needs to make the product.
3D Design
3D design is an innovative method that allows designers to create realistic and accurate 3D models for various projects. 3D design allows designers to visualise the final product before it is finished, making it easier to correct errors and improve the design. With 3D design, designers are able to create designs that meet different expectations and requirements, ensuring the highest quality in the final product.
3D printing
3D printing is an innovative technology that allows products to be produced quickly and accurately. During 3D printing, the digital model of the product is built up layer by layer using particle printers, creating the actual product. With 3D printing, products are made faster and more cost-effectively than with traditional production methods.
PLA (polylactide) is a durable, biodegradable thermoplastic commonly used for 3D printing. PLA material is usually made from corn starch or sugar, allowing it to use raw materials from natural sources. PLA material can print well and is easy to shape, so it is also suitable for 3D printing and sculpting. PLA material has a higher boiling point than ABS material, so it is not suitable for making heat-resistant products. PLA material is widely used in 3D printing because it is environmentally friendly and readily available and therefore suitable for prototyping, model building and small series production.
3D printing is a time-consuming process, from design to final product. The design time depends on how complicated the shape is and how long it takes to draw and measure. And the duration of 3D printing depends on how big the product is and how long the printer needs to make the product.
3D Design
3D design is an innovative method that allows designers to create realistic and accurate 3D models for various projects. 3D design allows designers to visualise the final product before it is finished, making it easier to correct errors and improve the design. With 3D design, designers are able to create designs that meet different expectations and requirements, ensuring the highest quality in the final product.
3D printing
3D printing is an innovative technology that allows products to be produced quickly and accurately. During 3D printing, the digital model of the product is built up layer by layer using particle printers, creating the actual product. With 3D printing, products are made faster and more cost-effectively than with traditional production methods.