Detailed analysis of manufacturing technology of V1 industrial 3D printing hand board

Detailed analysis of manufacturing technology of V1 industrial 3D printing hand board


At present, 3D printing hand board has brought a great impact to the hand board manufacturing industry. Those once expensive and time-consuming handpieces can now be designed in the morning, printed at night and delivered to customers the next morning.

Printing technology and hand board making technology

1.ABS material is generally selected for the hand board of conventional products. This material is easy to process and the post-treatment of the hand board is also beautiful.

2.High temperature resistant product hand board can be made of (1) epoxy resin; (2) Bakelite; (3) Black PC; (4) PA (nylon). Except that black PC can be bonded, the other three materials can not be bonded and need to be processed as a whole.

3.POM or PA can be selected for wear-resistant product hand board. The hand boards made of these two materials can not be bonded and need to be processed as a whole.

4.PA or PP can be selected for high toughness product hand board. The hand boards made of these two materials can not be bonded and need to be processed as a whole.

5.PMMA (acrylic), transparent ABS, transparent PC and other materials can be selected for transparent product hand board. The hand boards made of these materials are highly transparent through polishing, and achieve the same effect as real products.

6.The surface treatment of product hand board is generally divided into surface effects such as oil injection, electroplating, sanding, silk screen printing and pad printing. The hand board oil spray can be divided into smooth surface, dumb surface, sand surface, transparent color, translucent color, fluorescent color, rubber oil and other effects.


The 3D printing hand board of V1 printing can be closer to the demand of the application market and promote the progress of technology through the demand. It is this industrial mode of combining technology with application depth and carrying out benign closed-loop iteration that has greatly promoted the continuous development of 3D printing technology in breadth and depth.