Fluorescent Color+Silver Color | Designed for Rain Coats and Plastic Surface Clothing | OEKO-TEX 100 | Don't Wash

Meaning of Product Codes

TF: Transfer Film (Iron-On Heat Transfer Reflective Film)

LT:  Low Temperature (Substrates that require low temp heat transfer, such as Plastic Surface, PVC, PU, Thin Nylon, ?)

603000: 60 Home Wash Cycles at 30°C (Tested to ISO 6330), Don?t Dry-Cleaning

HV1: High Visible Lime-Yellow Color (Fluorescent) on surface of reflective tape

HV2: High Visible Red-Orange Color (Fluorescent) on surface of reflective tape

The durability of above descriptions was determined by laboratory testing. Product codes are just general descriptions of the key features of reflective material. 

NOTE:

We don't recommend to wash this product at higher 30°C degree temperature at any circumstance. For PVC raincoats and other clothing which should not be washed, we recommend cleaning it with soft and wet textile.

Physical Performance

V-REFLEX^TM Reflective Material - Low Temperature Heat Transfer Reflective Film meets or exceeds the following specifications which were classified by standards as "Separate Performance Retroreflective Material". All R_A values are over 100 cd/lux/m2 measured at +5.0° entrance angle and 0.2° observation angle after tests are carried out according to following test method

Retro-reflectivity (initial): ANSI/ISEA 107-2010 level 2, EN ISO 20471

OEKO-TEX 100: Product Class II

Abrasion: 5000 cycles (EN 530 Method 2) | R_A ? 100

Flexing: 7500 cycles (ISO 7854 Method A) | R_A ? 100

Cold Fold: -20° (ISO 4675) | R_A ? 100

Temperature Variation: 50 hours @ 50 °C and 20 hours @ -30 °C | R_A ? 100

Home Wash: 60 cycles @ 30°C | R_A ? 100

Dry-Cleaning:  30 cycles (ISO 3175) | R_A ? 100

Wet Reflectivity: ANSI/ISEA 107-2010, EN ISO 20471 | R_A ? 100

Industrial Wash: N/A 

Flame Resistant and Fire Retardant:  N/A

Heat Transfer (Heat Lamination) Guidelines

Handling Precautions

• V-REFLEX^TM Reflective Material - Low Temperature Heat Transfer Reflective Film contains an aluminum layer as part of their construction. Blemishing of this aluminum layer can occur if the PET film carrier is removed and the front surface of the product has direct contact from hands during application and is then exposed to hot and humid conditions, greater than 26.7 °C (80 °F) and greater than 70% relative humidity, for a period of weeks. These blemishes do not affect performance of the product.
• V-REFLEX^TM Reflective Material - Low Temperature Heat Transfer Reflective Film may not be compatible with some polychloride (PVC, Film) film, especially those containing phosphate plasticizers. It is possible that some plasticizers may be able to migrate into the reflective material, making the reflective surface soft and sticky. We recommend that substrates always tested prior to mass production to ensure that they meet your specific needs.
• Fabric finished with dyes containing sulfur compounds should not be used with V-REFLEX^TM Reflective Material - Low Temperature Heat Transfer Reflective Film exposure to sulfur compounds in dyes or in the environment will darken the retro-reflective material and may affect retro-reflectivity.

Prepare For Heat Transfer (Heat Lamination)

V-REFLEX^TM Reflective Material - Low Temperature Heat Transfer Reflective Film are recommended to follow below info to set up the settings on laminating equipment:

• Lamination Temperature: 90-110°C
• Dwell Time (seconds): 10-20
• Line Pressure Firm: 30-40 psi

V-REFLEX^TM Reflective Material - Low Temperature Heat Transfer Reflective Film are specially designed for LOW TEMP Heat Transferred on the substrates, which should not be heated higher than 120^oC degree.  Above settings should be adjusted according to the pre-production testing results.

CAUTION!

Especially for the substrate (fabric) that are very fragile to over-heated temperature, customers should continually find the best setting on their own machines to achieve the best laminating results.

We also recommend below operations for mass production.

1. Work on a flat surface where uniform heat and pressure can be applied. Avoid applying film over seams and stitches.
2. Remove adhesive side liner (if that product has one), exposing dry adhesive. Do not remove PET film covering reflective side.
3. Place V-REFLEX^TM Reflective Material - Low Temperature Heat Transfer Reflective Film on substrate with the adhesive side down and apply heat and pressure as described above. Place a non-stick slip sheet between the platen and laminating surface to prevent any excess adhesive transfer contamination.
4. Allow application to cool to room temperature before removing the PET liner covering the reflective side (if that product has one). Place application on a flat surface and remove the PET liner by lifting one corner and pulling (about 45° angle) in a continuous, smooth manner.
5. Cover with silicone paper, press for further few seconds.

Additional Precautions for Heat Lamination

• 1- Do not exceed lamination temperature listed above as the PET liner may be melt and become difficult to remove. If high temperatures are required for bond durability, follow lamination steps 1-3 using recommended temperature, remove PET liner, and then laminate again at the higher temperature (using a non-stick slip sheet to protect reflective surface).
• 2- The lamination temperature, time and pressure listed above should be used as a guide. Each substrate and reflective film combination should be tested to determine the best set of conditions that will meet customer requirements.
• 3- Other lamination method, such as roll to roll, heat fusing and HF welding may also be used. The proper temperature, time and pressure conditions must be tested for each fabric to assure adequate adhesion and physical performance.
• 4- Many fabrics can be used as lamination substrate; however, some substrate such as nylons and fabrics treated with a durable water repellent (DWR) finish are difficult to adhere to.
• V-REFLEX^TM Reflective Material - Reflective Fabric is recommended for sewing on these fabrics. If V-REFLEX^TM Reflective Material - Transfer Film is desired, then continuous testing should be done to ensure acceptable adhesion is maintained as input materials may vary.
• 5- The reflective surface of V-REFLEX^TM Reflective Material can be difficult to adhere to and caution is required when applying other material to it. If you are laminating a V-REFLEX^TM Reflective Material - Transfer Film to the surface of other V-REFLEX^TM Reflective Material, then testing is recommended to ensure the adhesion meets the customer?s specifications. It?s also recommended that continuous testing should be done to ensure acceptable is maintained throughout the manufacturing process.

Heat Transfer Reflective Film Cutting Guidelines

What is Electronic Cutting?

Electronic cutting is used to describe the cutting of a film by computer-driven knives. While we are able to give guidelines, we are not able to provide specific conditions as they will vary with machines, graphics, and substrates being used. It is important that you experiment with your equipment to determine its optimal settings.

V-REFLEX^TM Reflective Material -  Cuttable Heat Transfer Reflective Film was specifically designed for use in electronic cutting. The reflective film consists of exposed high performance glass lenses bonded to a durable polymer layer, which is coated with a heat-activated adhesive.

Graphic Software

In addition to the design software that comes with the cutter, Adobe Illustrator and Corel DRAW are programs that can be used to design complex graphics or logos, such as the examples below.

Design Factors

A well designed graphic will reduce the time required to weed a logo. Since this is a transfer film, all graphics must be cut as a reverse (mirror) image. Before designing a graphic for electronic cutting, consider these factors:

• Cutting capabilities of equipment
• Font characteristics
• Substrates and fabrics to which the graphic is applied
• Rounded edges are preferred over sharp corners
• Minimize large areas where weeding is needed
• Although small letters can be cut, weeding requires more care when the letter height becomes less than 5.1mm (0.2 inch) and Helvetica medium font is used.
• Although fine lines can be cut, weeding requires more care if the line width is thinner than 3mm (0.12 inch)
• The numbers and size of letters and lines affect weeding efficiency
• The converter is responsible for testing and determining acceptable minimum dimensions

Types of Cutters

1. Friction Fed Cutters: This is the most commonly used electronic cutter for our films. A two wheel drive system is used to move film in a variety of widths. The film is driven by being pinched between two wheels. The film in these cutters may slip, requiring more care to make accurate cuts or long runs.
2. Flatbed Cutters: Flatbed cutters evolved from garment and box cutters and are common in the graphic sign industry. Typically vacuum is used to hold the film during the cutting. Some smaller cutters may require double coated tape to hold the film down. They cut very accurately since the film does not move. They are more expensive as compared to other cutters and do require a larger work area.
3. Sprocket Fed/Pin Fed Cutter: Both edges of the film are punched with a hole pattern that match pins on the drive wheels of the cutter. These wheels traverse the film through the cutter. Our film is not supplied with punched edges.

Types of Knife Blades

There are several types of knife blades used in cutting standard electronically cuttable films. refer to the instruction manual for each cutter to determine the type of blade to be used. A single knife blade with an angle of 45°degrees is typically used on our material. It is important to keep the blade/knife sharp. Dull blades can create a serrated look on the edge of the cut film.

Cutting Depth

Proper cutting depth should result in the liner being lightly scored. Most cutters have a "test plot" feature to help determine this depth. Cutting too deep causes the liner to split increasing knife wear and potentially jamming the cutter. Cutting too lightly causes incomplete cutting of the film leading to difficulty in weeding. Changing cutting conditions (i.e. increasing knife pressure) may be required as the blade dulls.

Stacking of Graphics

The PET liner used in V-REFLEX^TM - Cuttable Heat Transfer Reflective Transfer Film allows the weeded graphic to be stacked on top of each other for storage or shipping.

Applying Graphics to ANSI 107 or ANSI 207 High Visibility Apparel

When applying graphics to ANSI/ISEA 107 or ANSI/ISEA 207 high visibility safety apparel, please check to ensure that the amount of remaining background material still meets the area requirements of the apparel's classification. Customers should also consider the area of remaining background material when applying graphics to apparel covered by other standards.

Weeding

Weeding is the removal of unwanted film from the graphic. Before weeding, inspect each element (letters, numerals, etc.) to determine which side has the most open cuts and start from that side. For example, on mirrored graphics, most letters have open area on the left side, so weed from left to right. Conversely, most numerals have open area on the right side so weed from right to left. Plan to weed based on these recommendations to reduce unnecessary waste:

• Inspect each element to determine that the film is cut completely before starting
• Place the graphic on a flat surface with the adhesive side up and remove the weed by lifting one corner and pulling back at about 135°angle in a continuous motion
• Start weeding from the side where the graphic elements have the most open cuts
• Weeding graphics in a diagonal motion, avoid blunt sides. For example, if weeding from the left to right, start at the upper left corner and weed toward the lower right corner. In many cases it is helpful to alternate this direction from lower right corner to upper right corner in repeating motions during the weeding process
• During the weeding process, if the clear adhesive film starts to separate from the colored polymer layer, reduce your weeding angle. The clear adhesive film will bond to the colored polymer layer during the heat lamination step and will not affect the product's overall performance

Caution

When using any equipment, always follow the manufacturers' instructions for safety operation.

Manufacturers of Electronic Cutters

This information is provided for customer convenience only. V-CAN does not recommend any specific equipment manufacturer. Customers are solely responsible for choosing equipment suitable for their needs and for ensuring that all equipment meets all applicable workplace safety requirements.

Roland DGA Corporation www.rolanddga.com  

Gerber Scientific Company www.gspinc.com

Graphtec www.graphteccorp.com   

Ioline Corporation www.ioline.com

Handling Precautions

V-REFLEX^TM  Reflective Material - Reflective Heat Transfer Film/Tape contains an aluminum layer as part of their construction. Blemishing of this aluminum layer can occur if surface of the product has direct contact from hands during application and is then exposed to hot and humid conditions, greater than 26.7 °C (80 °F) and greater than 70% relative humidity, for a period of weeks. These blemishes do not affect performance of the product. But potential blemishes should be carefully considered as an important risk in marketing of end-use products.

V-REFLEX^TM  Reflective Material - Reflective Heat Transfer Film/Tape contains an sand-feeling reflective layer which is composing of an eco-friendly heat activated adhesive. Chemical moisture, liquid, oil, or other chemical elements may lead to a series of chemical reactions for a certain period of time, then result in a series unexpected subsequence on the reflective layer. Any remains of chemical elements happen to direct contacting to surface of fabric should be cleaned immediately.

We recommend that all customers, in accordance with good manufacturing practices, establish an ongoing quality system which includes maintaining lot/roll identification throughout the garment production process.

Customer should also store input materials and final products in accordance with manufacturer recommendations, as well as implement continuous testing throughout their production and on their finished garments that reflects their garment needs.

For lamination operations, customers should periodically check their equipment to ensure that the temperature set point matches the platen or roll temperature and that the temperature is uniform across the lamination area.

Specific Safety Information

Various environmental factors, like line of sight, rain, fog, smoke, dust and visual noise can influence retroreflectivity.

• The reflective intentsity of retro-reflective tape can also be diminished in extreme weather conditions.
• Fog, mist, smoke and dust can scatter the light from headlights, the wearer must be aware that detection distance will be severely reduced.
• Visual noise (contrast variations in the visual field) decreases the contrast of the reflective material with the background and affects the visibility in low-light conditions.  

Maintenance Misuse

• No harsh mechanical treatment, e.g. abrasion with wire brushes or sand paper.
• No uniform coating or spraying of oils, protective waxes, inks or paint.
• No application of products such as leather spray or shoe shine.   

Product Storage

• Store in a cool, dry area and use within 1 year of receipt.
• Rolls should be stored in their original cartons, whilst partially used rolls should be returned to their carton or suspended horizontally from the core via a rod or pipe.
• Cut sheets should be stored flat.