Temperature Sensitive Color Changing HTV
The color of the temperature sensitive color changing HTV changes at certain temperature range environment. It is black at low temperature, and it will change into iridescent at high temperature, and returns to its original color after cooling. It is also often called a temperature sensitive thermochromic HTV.
The discoloration temperature of temperature sensitive color changing HTV is not a specific temperature point, but a temperature range, which is the temperature range from the beginning of discoloration to the end of discoloration. The discoloration temperature of common temperature sensitive color changing HTV is 28-31°C.
Advantages
- Easy to cut and weed
- Environmentally-friendly product
- Elastic and soft touch
- Durable and lightweight
- Matt Finish / Sticky backing
- Wide variety of colors is available
V-REFLEXTM Reflective Material - Retro-Reflective Fabric/Tape meets or exceeds the following specifications as noted. All RA 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) | RA > 100
Flexing: 7500 cycles (ISO 7854 Method A) | RA > 100
Cold Fold: -20° (ISO 4675) | RA > 100
Temperature Variation: 50 hours @ 50 °C and 20 hours @ -30 °C | RA > 100
Home Wash: 50 cycles @ 92°C (ISO 6330) | RA > 100
Dry-Cleaning: 100 cycles (ISO 3175) | RA > 100
Wet Reflectivity: ANSI/ISEA 107-2010, EN ISO 20471 | RA > 100
Flame Resistant and Fire Retardant:
- EN ISO 14116:2008; EN ISO 11611:2015; EN ISO 11612:2015;
- NFPA 1971:2013; NFPA 1977:2016; NFPA 2112:2012
- PU composition
- Average thickness: 350 µm
- Cut pressure: 120g
- Blade: 60°
V-REFLEXTM Reflective Material - Retro-Reflective Fabric/Tape meets or exceeds the following specifications as noted. All RA 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) | RA > 100
Flexing: 7500 cycles (ISO 7854 Method A) | RA > 100
Cold Fold: -20° (ISO 4675) | RA > 100
Temperature Variation: 50 hours @ 50 °C and 20 hours @ -30 °C | RA > 100
Home Wash: 50 cycles @ 92°C (ISO 6330) | RA > 100
Dry-Cleaning: 100 cycles (ISO 3175) | RA > 100
Wet Reflectivity: ANSI/ISEA 107-2010, EN ISO 20471 | RA > 100
Flame Resistant and Fire Retardant:
- EN ISO 14116:2008; EN ISO 11611:2015; EN ISO 11612:2015;
- NFPA 1971:2013; NFPA 1977:2016; NFPA 2112:2012
- Time: 15 sec.
- Temperature: 160°C
- Medium pressure (3/4 bar)
- Remove carrier hot/cold
V-REFLEXTM Reflective Material - Retro-Reflective Fabric/Tape meets or exceeds the following specifications as noted. All RA 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) | RA > 100
Flexing: 7500 cycles (ISO 7854 Method A) | RA > 100
Cold Fold: -20° (ISO 4675) | RA > 100
Temperature Variation: 50 hours @ 50 °C and 20 hours @ -30 °C | RA > 100
Home Wash: 50 cycles @ 92°C (ISO 6330) | RA > 100
Dry-Cleaning: 100 cycles (ISO 3175) | RA > 100
Wet Reflectivity: ANSI/ISEA 107-2010, EN ISO 20471 | RA > 100
Flame Resistant and Fire Retardant:
- EN ISO 14116:2008; EN ISO 11611:2015; EN ISO 11612:2015;
- NFPA 1971:2013; NFPA 1977:2016; NFPA 2112:2012
- Wait 24 hours before first wash
- Max 40°C
- Do not use bleach or other aggressive chemical agents
V-REFLEXTM Reflective Material - Retro-Reflective Fabric/Tape meets or exceeds the following specifications as noted. All RA 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) | RA > 100
Flexing: 7500 cycles (ISO 7854 Method A) | RA > 100
Cold Fold: -20° (ISO 4675) | RA > 100
Temperature Variation: 50 hours @ 50 °C and 20 hours @ -30 °C | RA > 100
Home Wash: 50 cycles @ 92°C (ISO 6330) | RA > 100
Dry-Cleaning: 100 cycles (ISO 3175) | RA > 100
Wet Reflectivity: ANSI/ISEA 107-2010, EN ISO 20471 | RA > 100
Flame Resistant and Fire Retardant:
- EN ISO 14116:2008; EN ISO 11611:2015; EN ISO 11612:2015;
- NFPA 1971:2013; NFPA 1977:2016; NFPA 2112:2012
- 100% cotton
- 100% polyester, elastan
- Poly/cotton blends (not for dye sublimated fabrics)
About Us
We are V-Can, a corporation is full of skilled and talent people, advanced and new equipment, we are very passionate with what we are doing. Developing and manufacturing top quality of products and providing best service in the industries are always our market positioning strategy.
Reflective material, glow-in-the-dark material, and new materials are what we are now dedicating to. At present, we are dealing products with respective brands: V-REFLEX, V-MARK, V-RETRO, V-TRANSFER, V-LUMIX.
V-TRANSFER
V-TRANSFER – The brand of Heat Transfer Vinyl(HTV)that is one of the most of respectful HTV in the market.
V-TRANSFER deliver the very comprehensive choice of designs, styles, coloration, applications, and substrate materials in the market as well. Garment manufacturers, DIY creators are sticking on our HVT to make their T-shirts, tank tops, sweatshirts, sweatpants, jackets, onesies, hats, backpacks, tote bags and any other fabric projects you can imagine!
V-TRANSFERTM Heat Transfer Vinyl could be compatible with many different fabrics when operating heat transfer (hot-press) properly. 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.