Skip to content

BS041 - #41 Beltservice 5 Ply CP 30 Tan FS x FS Conveyor Belt

$10.00
SKU 41 Beltservice

$10.00 IS FOR A PRODUCT SAMPLE
-or-
REQUEST A FREE BELT ASSEMBLY QUOTE

Use [Add to cart] to purchase a sample piece of belting which will put a $10 credit on your account if you decide to order your belt from BeltSmart. Limit 3 per customer or $30.00 total. Product samples are shipped priority mail.

Use [Request a Laced or Endless Belt Quote] to have our customer service work up a quote with mechanical lace, open-ended, or vulcanized endless. Our team of belt specialists are on hand during regular business hours to answer questions and help with any questions you may have.

If you are unsure what your belting is and would like us to identify it, please send us a sample of the belting to the address given in our [about us] page. Include name, company, phone, address and dimensions to 1/8" for width and length.

PRODUCT DESCRIPTION


Beltservice Corperation Belting - Light Duty / Transmission Belting / Package Handling - Rubber Transmission - FS x FS
Applications:
  • Transmission Belting
  • Slider bed and roller applications
Features:
  • Commonly known as friction surface and/or transmission belting, this belt has long been a standard for a wide variety of conveyor applications for both slider bed and roller applications.
  • Construction is cotton/nylon fabric plies bonded with resilient rubber compounding.
  • Either side to pulley, vulcanized endless or metal laced.
  • For applications where rubber covers are not necessary or desirable.
3 Ply CP30
Black FS x FS
Pt No.: 38
3 Ply CP30
Tan FS x FS
Pt No.: 39
4 Ply CP 30
Tan FS x FS
Pt No.: 40
5 Ply CP 30
Tan FS x FS
Pt No.: 41
Thickness 1/8" 9/64" 3/16" 1/4"
Covers FS x FS
Carcass 28 oz. Cotton 32 oz. C-N
Working Tension
per Inch Width
90 lbs. 120 lbs. 150 lbs.
Approx. Weight
Lbs. Per Inch Width
.054 lbs. .064 lbs. .087 lbs. .109 lbs.
Min. Pulley Diameter 2-1/2" 3" 6"
Temperature Range -40 deg. F / 250 deg. F
Clipper Lace #1 #2 #3 #4 1/2
Alligator Lace #15 #25 #27
FS = Friction Surface