Woven Label Damask vs Woven Label Satin

Dalam industri pembuatan tag label untuk pakaian, terdapat pelbagai jenis tag label yang digunakan oleh pengeluar atau pemilik jenama produk untuk memperkenalkan jenama mereka kepada umum. Antaranya adalah seperti tag label jenis printed, rubber, metal tag, acrylic tag, leather, iron on label dan banyak lagi.

 

Antara jenis tag label yang popular dan banyak digunakan secara meluas adalah seperti jenis WOVEN atau label tenun. Untuk pengetahuan, label jenis WOVEN atau tag label tenun ini ada 2 jenis kualiti iaitu:

  1. Damask Quality
  2. Satin Quality

Damask Quality

  • Texture tag label tenun atau woven damask ini lebih lembut kerana dibuat daripada campuran benang cotton dan polyester.
  • Boleh dibuat dalam pelbagai size dan bentuk dengan menggunakan mesin khas.
  • Warna latar (background color) untuk damask ini boleh terdapat banyak pilihan warna.

Sebahagian warna benang yang digunakan untuk membuat woven damask

 

Satin Quality

  • Texture woven satin lebih keras kerana material satin yang lebih tebal.
  • Size ribbon satin adalah terhad dan tidak banyak pilihan size (lebar)
  • Warna latar (background color) juga terhad kerana ada 2 jenis warna ribbon satin sahaja iaitu warna putih dan hitam. Warna design banyak pilihan.

 

Contoh tag label woven dengan kualiti Satin.

Perbezaan antara tag label woven damask dan juga woven satin

Kenapa warna di cetak oleh printer tidak sama seperti warna di skrin komputer atau phone?

One of the most frequently asked questions we hear from customers is:

When I print a document, why doesn’t the color look the same as it does on my monitor?

While there are many possible reasons the screen and output don’t match, or that the printed colors are off, two common, but often overlooked, causes are printer calibration and paper type.

I like to begin with this anecdote: When you walk into a major electronics store, they have dozens of flat screen TVs displayed on the wall, all playing the same video. If you stand there and look at the images on the different screens, you’re going to notice the picture looks slightly different on each one. Brighter whites or deeper blacks, warmer or cooler tones, less or more contrast, etc. Every TV varies because of screen type, contrast ratio, color calibration, the room’s lighting and even the data transmission hardware.

tv-color-varations.jpg

Your monitor is like the TVs. Screen type, computer type, application version, calibration settings, color profiles, driver types, and so on all have an impact on the display color and the printer output color.

Here are two causes and solutions you can try yourself before calling your service technician for advanced support.

Cause: Opposite Base Colors

A monitor starts in a black state and is illuminated with RGB (red, green and blue) to produce colors. Copiers and printers start with white paper and add CMYK (cyan, magenta, yellow and black) toner or ink to produce colors.

cmyk-vs-rgb-monitor-printer-calibration.jpg

Each can produce its own gamut of colors, some of which the other simply cannot reproduce. The printer attempts to match a color it does not understand by using its software to calculate a best guess. The result can often be more “guess” than “best,” printing colors that are just plain off. If that is a heavily used color in your document, you’re probably not going to like the results.

monitor-rgb-vs-printer-cmyk_color.png

sumber artikel :

https://www.lewan.com/blog/why-dont-my-monitor-colors-match-the-printed-colors-printer-calibration

 

This is a common issue

Your printer does not print the colors as you see them on your monitor. The picture looks great on the monitor, but does not print true to the screen.

This is absolutely true. You will never get a perfect match because the image on the screen and the image kicked out of your printer are two different beasts. Your screen’s pixels are emitted light. Your printer simply can’t print light. It uses dyes and pigments to replicate the colors.

How RGB and CMYK Differ

Your monitor is composed of pixels and each pixel can display over 16 million colors. These colors are in what is called the RGB Gamut which, in very simple terms, is composed of all of the colors in light. Your printer can only reproduce around a few thousand colors thanks to the principle of absorption and reflection. Again, in simple terms, the pigments and dyes absorb the light colors that aren’t used and reflect back to you the CMYK combination that closely approximates the actual color. In all cases, the printed result is always a bit darker than the screen image.

If you are new to this topic the above advice might seem a bit convoluted. The bottom line is the number of colors available in a particular Color Space. Color printers such as the Inkjet printer in your office have Cyan, Magenta, Yellow and Black cartridges. These are the traditional printing inks and the color is made by combining those four colors. With ink, the number of colors that can be produced fall ,roughly, into a maximum of a couple thousand distinct colors.

Images on a computer screen use a totally different color space – RGB. The colors created are made with light. In broad terms the number of colors your computer monitor can display total about 16.7 million colors. (The actual number is 16,77,7216 which is 2 to the 24th power.)

You Can’t Print Light, So Your Images Print Darker

If you draw a circle on a sheet of paper and put a black dot in the middle of that circle you will get a good idea of why colors change. The sheet of paper represents all of the colors – visible and invisible – infrared, ultraviolet, x-rays – known to modern man. That circle represents the RGB gamut and, if you draw another circle inside the RGB circle you have your CMYK gamut.

If you move from a corner of that sheet of paper to the dot, in the middle that indicates how color moves from invisible to a black hole which is the dot.The other thing you will notice is that as you move towards the dot, colors get darker.  If you choose a red in the RGB color space and move it to the CMYK color space the red will darken. Thus RGB colors output as CMYK colors are pulled to their nearest CMYK equivalent which is always darker. So why does your printer output not match your screen? Simple. You can’t print light.

Other Factors that Affect Printed Colors

If you are printing at home on a desktop printer, it is not necessary to convert your photos and graphics to CMYK color mode before printing. All desktop printers handle this conversion for you. The explanation above is intended for those doing 4-color process printing on a printing press. However, you now know why you will generally never get a perfect match between on-screen color and printed color.

Your paper and ink selections can also have an enormous impact on how true colors reproduce in print. Finding the perfect combination of printer settings, paper, and ink can take some experimentation, but using the printer and ink suggested by the printer manufacturer often provides the best results.

Most graphics software has a setting for color management but , if you let the software do the work, you will still get good results results by simply turning color management off. Color management is primarily intended for people in a pre-press environment. Not everyone needs it. If you’re not doing professional printing, first try working without color management before you assume you need it.

source article:

https://www.lifewire.com/printed-colors-dont-match-monitor-1701245