Do you need drinking water for the digital screen-printing machine office?

Last Updated on January 13, 2020 by admin

Drinking water filter for the digital screen-printing machine office? Digital screen printing is defined as any inkjet-based system of printing pigments onto fabric. Most remarkably, digital textile printing is referred to when recognizing either printing minor designs on garments (T-shirts, dresses, publicity wear; abridged as DTG, which stands for Digital to Garment and printing bigger designs on big format spools of textile. The latter is a rising inclination in graphic communication where commercial and corporate branding is printed on the polyester particles. Examples are flags, placards, symbols, retail graphics.

drinking water for the digital screen-printing machine office

Types of printing can be divided into:

  • Straight Print
  • Release Print
  • Pigment Print
  • Resist Print
  • Responsive Print
  • Scatter print
  • Acid print
  • Forte Print

Digital screen printing was formed in the early 1980s as a probable additional for referend digital screen printing. With the expansion of a dye-sublimation printer in the premature 1990s, it became probable to print with little energy sublimation inks and much energy diffuse direct inks straight on the textile particle, as contrasting to print dye-sublimation inks on a transmission paper and, in a dispersed process using a heat press, transmit it to the fabric.

Production requirements:  

The principal textile particle used in pictorial communication is a polyester-based fabric. In the US, nylon is commonly used for flags. In northern Europe, polyspun substantial has been optimal of fabric for old-fashioned flag printing.

In today’s market, and interlaced or knitted polyester is standardized. This differs from the major covered vinyl or PVC particle used in the symbol and display industry. The manufacturing process needs to be suitable which is required for the type of ink: high energy redirection (also known as scatter direct), truncated energy rerouting (dye-sub), acid, responsive and stain.

In turn, the category of ink chemistry desires to suit requirements for the particle (such as polyester, nylon, cotton, silk). Based on the particle and ink amalgamation, the prime comes for infra-red fixation, heat-press redirection or steaming. The construction of the fabric also needs consideration, for example, whether it is laced, non-laced or knitted.

Polyester fabric is published frequently with dye-sub or scattered direct ink. The prodigious benefit of redirected ink is the datum that the colorants will promise with the fibre during redirection or fixation.

The colors are ‘inside’ the particle and don’t remain within the coverage and on topmost of the particle. Even latex inks on permeable textiles can agonize from crocking matters or ‘rub-off’. Little energy redirection ink is easier to print with but has the difficulty of colors disappearing faster.

Dye-sub can also agonize from a ‘halo’ consequence which results in fewer sharp images. The scattered direct ink is a ‘stronger’ ink than the dye-sub kind, and this is very significant for outdoor use, such as for hurdle fabric, flags, and notables: artwork will last lengthier.


  • Absence of Hazardous Components
  • Offers maximum print
  • Higher margin can be obtained
  • Higher quality is obtained
  • Drastically reduce waste
  • Doesn’t need printing on transfer paper
  • Longevity is found in the products
  • Products can easily be printed
  • Less costly than other printing machines
  • Easily affordable to the consumers


  • The product cannot be washed repeatedly, only dry cleaning can be done
  • Colour fades faster

Economic effect:

As well as material concerns and application issues, economics come into play. Where the traditional textile print industry is accustomed to mass production with long-runs, the digital inkjet business mostly produces short-run non-textile products. This approach to digital textile printing is very different, and so is the expectation. Where sign-makers are familiar with a single process system, traditional textile printing is accustomed to several production steps. In the balance of the economics behind production needs, it is important to understand the entire production flow. An example lies with the choice of fixation equipment and the subsequent implication of energy and resource cost; for example, a steamer needs water and energy, and a calendar needs to heat up and uses lots of energy plus considerable amounts of paper. so we say the drinking water for the digital screen-printing machine office is very argent.

Read More: Heat Press Machines

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