WON.TRANSFER
WATERLESS ECO PRINTING
Obstacle of water use
Whether using traditional or digital printing and dyeing technology,
Steaming and washing are necessary steps that consume a lot of heat and water.
New waterless and low-temperature printing benefit
Since the dyeing and finishing industry consumes a lot of water, it does not meet environmental protection requirements and causes a great cost burden. Using printing instead of dyeing is one of our core strengths. We do not use any water in the entire process and require no steaming or washing processes.
In order to master the coloring state of textiles, we manage the temperature and textile properties with datamation. In general, the printing temperature is about 200 ~ 210 ℃, but we use low-temperature printing to control the temperature between 170 ~ 180 ℃, which causes less damage to the fiber tissue and provides the user with the fabric’s original feeling.
Colors go deeper into the textile
WON.TRANSFER uses heat energy and kinetic energy to press the pigment into the textile, achieving the best effect and making the colors penetrate deeper into the textile.
WON.TRANSFER pigment goes deep
into the fiber.
Pigment used in sublimation printing technology just adheres to the surface.
Achieve the most original feeling
Due to the high temperature printing settings in traditional printing and common digital printing, the fabric becomes hard and stiff when heated.
However, WON.TRANSFER hardly damages the fabric's fiber structure due to low temperature control and can maintain the fabric's soft feel and elasticity. Even a 7-Denier transparent silk scarf can maintain its silky effect after printing.
Not a drop of water is wasted
Although the market has tried its best to develop printing technology that can replace traditional dyeing and finishing, the follow-up process, even when using digital technology, still requires water for steaming and washing.
WON.TRANSFER sticks to environmental protection, saves water resources, and uses zero water in the entire process while still fully considering quality.
Greatly shorten the production process
一般網版印花流程 | 數位印花流程 | WON.TRANSFER數位印花流程 |
|---|---|---|
原稿 | 原稿 | 原稿 |
顏色選擇與批准 | 顏色選擇與批准 | 顏色選擇與批准 |
分色 | 分色 | 分色 |
底片製作 | 底片製作 | 製作印刷檔 |
網版製作 | 製作印刷檔 | 確認數位印刷位置 |
確認網版印刷位置 | 確認數位印刷位置 | 套版 |
套版 | 套版 | 環保數位印刷 |
印刷 | 數位印刷 | 數位儲存 |
染整/蒸洗 | 染整/蒸洗 | |
壓燙整理 | 壓燙整理 | |
水洗 | 水洗 | |
乾燥/定型
(尺寸穩定性) | 乾燥/定型
(尺寸穩定性) | |
網版復原/保存 | 網版復原/保存 | |
Greatly shorten the production process
CONVENTIONAL PRINTING PATH | DIGITAL PRINTING PATH | WON.TRANSFER DIGITAL PRINTING PATH |
|---|---|---|
ORIGNAL ART | ORIGNAL ART | ORIGNAL ART |
COLOR SELECTION/APPROVAL | COLOR SELECTION/APPROVAL | COLOR SELECTION/APPROVAL |
COLOR SEPARATION | COLOR SEPARATION | COLOR SEPARATION |
FILM GENERATION | FILM GENERATION | RIP |
SCREEN PRODUCTION | RIP | GREEN DIGITAL PLACEMENT |
SCREEN PLACEMENT | DIGITAL PLACEMENT | REGISTRATION |
REGISTRATION | REGISTRATION | GREEN DIGITAL PRINTING |
PRINTING | DIGITAL PRINTING | DIGITAL STORAGE |
DYING/STEAMING | DYING/STEAMING | |
PRESS CLEANUP | PRESS CLEANUP | |
WASHING | WASHING | |
DRYING/FINAL SETTING
(Dimensional stability) | DRYING/FINAL SETTING
(Dimensional stability) | |
SCREEN RECOVERY/STORAGE | SCREEN RECOVERY/STORAGE |
Our advantage
Keep the hand feel
Low-temperature printing can maintain fabric characteristics, prevent damage to the fiber, and maintain the best hand feel, while not causing the fabric to stiffen due to overheating.
No process disruption
The fabric can be printed before and after processing, and the eco-friendly water repellent feature, which is easily damaged by high temperatures, can also be processed before printing.
Multiple fabric selection
The low-temperature printing property will not damage the fabric material and will retain the original characteristics of the fabric. Even the thinnest 7-Denier nylon can be perfectly colored.
Good color fastness
Advanced printing technology enables the pigment to penetrate deeper into the fiber. Compared with today's thermal sublimation technology, with which the pigment only adheres to the surface, the process of WON.TRANSFER is more stable.