Description
This transfer features bold varsity-style block letters spelling "MERRY" filled with a green and white buffalo check pattern, paired with a flowing white script "Christmas" beneath — a classic holiday pairing delivered as a ready to press DTF transfer — heat press and go.
Made for:
- Tee shirt makers and small shop owners building out a Christmas collection with classic holiday style.
- Crafting mamas personalizing a festive shirt for their little one's holiday school event or family Christmas morning.
- Nanas looking to create a matching family Christmas set everyone will actually want to wear.
Press it on:
- Hoodies, sweatshirts, and tees — the cozy buffalo check pattern pairs perfectly with heavier winter blanks for the holiday season.
- Perfect for holiday markets, Christmas pop-ups, and seasonal craft fairs where festive designs move fast.
- Tote bags and canvas pouches make a great match for gifting alongside coordinating holiday apparel.
Open the press, peel the film while it's hot, a quick re-press to set it, and you're on to the next blank before you know it. Batch of fifty for a Christmas collection run or a single custom piece — same clean result, every time.
About Our Ready to Press DTF Transfers
Sweet Tee Transfers are premium Direct-to-Film (DTF) heat press transfers — vibrant, durable, and ready to press on cotton, polyester, and cotton/poly blends. No weeding required. Works on light and dark fabrics for any apparel.
DTF Transfer Pressing Instructions
Pre-press your garment to remove moisture and wrinkles before applying.
- Temperature: 300°F
- Time: 15 seconds, heavy pressure
- Peel: Hot peel immediately after pressing
- Repress: 5 seconds for best results
Do not use a Teflon sheet or Teflon bonnet between the heat platen and the transfer paper.
DTF Transfer Washing Instructions
- Wash inside out in cold water
- Tumble dry on low heat
Transfer Sizes
- Adult: 11" wide
- Youth: 9"
- Toddler: 7"
- Baby: 5"
- Pocket / Hat: 4"
Maximum height is 12". For narrow, tall designs, children's sizes are determined by height.
