THERMOPLASTIC POLYOLEFIN TPO SINGLE PLY

Brand Owner Address Description
INNOVI IKO INDUSTRIES LTD. 1 Yorkdale Road, Suite 602 Toronto, Ontario M6A3A1 Canada Thermoplastic polyolefin (TPO) single ply roofing membrane systems comprised of membranes, flashings, and roofing accessories used for commercial roofing; accessory products for TPO commercial roofing adhesives, namely, roofing membrane cover tapes, roofing adhesive and insulation adhesive application accessories; non-metal roofing pipe boot flashings; non-metallic reinforcements for concrete and wood building construction, namely, fasteners and plates; flashing products, namely, non-metal roof flashings; sealants; walkway pads, namely, roofing walkway pads; non-metal induction welding plates;Metal roofing pipe boot flashings; edge metal goods, namely, roofing membrane joint covers, accessories for termination of membranes at the building edge, namely, gravel stops, drip edges, copings; roofing fasteners and plates made of metal, namely, plates, purlins, strips, spikes, augers, and bars; roof flashing of metal; metal induction welding plates;Accessory products for thermoplastic polyolefin (TPO) commercial roofing adhesives, namely, roofing membrane adhesives, board stock roofing insulation adhesives, hoses, spray applicators, flushing solutions, spray applicator tips, and mixing wands; roofing sealants for sealing cut membrane edges and membrane flashing edges, for filling sealant pockets, and for water cut-off sealing of fasteners;primers; pre-wash liquid solutions for preparing membrane and flashing surfaces to receive primers; primer application accessories, namely, scrubbing pads and pad handles;Roofing fasteners, namely, non-metal plates, purlins, strips, spikes, augers, and bars for the attachment of roofing membranes into substrates; non-metal fasteners, namely, threaded roofing fasteners for attachment into steel, concrete, and wood substrates;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A thermoplastic polyolefin having a melt flow rate of 20 dg/min or higher at 230° C. is produced in reactor without visbreaking. By controlling ratio of the weight average molecular weight of the xylene soluble fraction to the weight average molecular weight of the xylene insoluble fraction, a high melt flow thermoplastic polyolefin can be produced having a good balance of impact and stiffness, tensile elongation at break and gloss properties. Optionally, the ratio of the melt flow rate of the homopolymer phase to the melt flow rate of the total thermoplastic polyolefin can also be controlled. By compounding thermoplastic polyolefins according to the current invention with one or more modifiers, additional compositions can be produced having improved resistance to solvents.