https://www.avient.com/sites/default/files/resources/TRA%2520-%25202016%2520Annual%2520Report%2520for%252017%2520Tideman.pdf
Business Number: 898451794 Mailing Address: Address Line 1: 17 Tideman Drive City, Province/Territory, Postal Code: Orangeville Ontario L9W3K3 Country: Canada Facility Name: Orangeville Compound NAICS Code: 326198 NPRI ID: 4358 Physical Address: Address Line 1: 17 Tideman Drive City, Province/Territory, Postal Code: Orangeville Ontario L9W3K3 Country: Canada Latitude: 43.91230 Longitude: 80.11300 Number or Permit Number: ON9820023 Government Department, Agency, or Program Name: Ontario MOE Hazardous Waste Generator Number Number or Permit Number: 07786DZLMV Government Department, Agency, or Program Name: Certificate of Approval Air Number or Permit Number: 56265DFQF2 Government Department, Agency, or Program Name: Certificate of Approval Industrial Sewage Works Contact Type Technical Contact, Company Coordinator Name: Brian Greer about:/V003/Html http://www.canada.gc.ca/home.html http://www.servicecanada.gc.ca/eng/home.shtml http://www.canada.gc.ca/aboutgov-ausujetgouv/depts/menu-eng.html https://ec.ss.ec.gc.ca/auth/en/Services about:blank# about:blank# about:blank# about:/V003/Logout_Deconnexion http://ec.gc.ca/default.asp?
lang=En&n=FD9B0E51-1 https://ec.ss.ec.gc.ca/auth/en/Services about:/ about:/ about:/ General Information Substance List CAS RN Substance Name Releases Releases (Speciated VOCs) Disposals Recycling Unit NA 01 Antimony (and its compounds) 0.0004 N/A N/A N/A tonnes NA 02 Arsenic (and its compounds) 0.0007 N/A N/A N/A kg 103231 Bis(2ethylhexyl) adipate 0.0106 N/A N/A N/A tonnes 117817 Bis(2ethylhexyl) phthalate 0.0283 N/A N/A N/A tonnes 85687 Butyl benzyl phthalate 0.0008 N/A N/A N/A tonnes NA 14 Zinc (and its compounds) 0.0000 N/A N/A 0.0002 tonnes Applicable Programs CAS RN Substance Name NPRI ON MOE TRA ON MOE Reg 127/01 First report for this substance to the ON MOE TRA NA 01 Antimony (and its compounds) Yes NA 02 Arsenic (and its compounds) Yes 103231 Bis(2ethylhexyl) adipate Yes 117817 Bis(2ethylhexyl) phthalate Yes 85687 Butyl benzyl phthalate Yes NA 14 Zinc (and its compounds) Yes Position: EHS Manager Telephone: 5192150535 Email: brian.greer@polyone.com Contact Type Certifying Official Name: Najat Kamal Position: EHSQ specialist Telephone: 5148089920 Email: najat.kamal@polyone.com Number of employees: 45 Activities for Which the 20,000Hour Employee Threshold Does Not Apply: None of the above Activities Relevant to Reporting Dioxins, Furans and Hexacholorobenzene: None of the above Activities Relevant to Reporting of Polycyclic Aromatic Hydrocarbons (PAHs): Wood preservation using creosote: No Is this the first time the facility is reporting to the NPRI (under current or past ownership): No Is the facility controlled by another Canadian company or companies: No Did the facility report under other environmental regulations or permits: No Is the facility required to report one or more NPRI Part 4 substances (Criteria Air Contaminants): No Was the facility shut down for more than one week during the year: No Operating Schedule Days of the Week: Mon, Tue, Wed, Thu, Fri Usual Number of Operating Hours per day: 24 Usual Daily Start Time (24h) (hh:mm): 00:00 General Information about the Substance Releases and Transfers of the Substance CAS RN Substance Name Was the substance released onsite The substance will be reported as the sum of releases to all media (total of 1 tonne or less) 1 tonne or more of a Part 5 Substance (Speciated VOC) was released to air NA 01 Antimony (and its compounds) Yes Yes No NA 02 Arsenic (and its compounds) Yes No No 103231 Bis(2ethylhexyl) adipate Yes Yes No 117817 Bis(2ethylhexyl) phthalate Yes Yes No 85687 Butyl benzyl phthalate Yes Yes No NA 14 Zinc (and its compounds) Yes No No General Information about the Substance Disposals and Offsite Transfers for Recycling CAS RN Substance Name Was the substance disposed of (onsite or off site), or transferred for treatment prior to final disposal Is the facility required to report on disposals of tailings and waste rock for the selected reporting period Was the substance transferred offsite for recycling NA 01 Antimony (and its compounds) No No No NA 02 Arsenic (and its compounds) No No No 103231 Bis(2 ethylhexyl) adipate No No No 117817 Bis(2 ethylhexyl) phthalate No No No 85687 Butyl benzyl phthalate No No No NA 14 Zinc (and its compounds) Yes No No General Information about the Substance Nature of Activities CAS RN Substance Name Manufacture the Substance Process the Substance Otherwise Use of the Substance NA 01 Antimony (and its compounds) For onsite use/processing As a reactant As a byproduct NA 02 Arsenic (and its compounds) For onsite use/processing As a reactant As a byproduct 103231 Bis(2ethylhexyl) adipate For onsite use/processing As a reactant As a byproduct 117817 Bis(2ethylhexyl) phthalate For onsite use/processing As a reactant As a byproduct 85687 Butyl benzyl phthalate For onsite use/processing As a reactant As a byproduct NA 14 Zinc (and its compounds) For onsite use/processing As a reactant As a byproduct Onsite Releases Releases to air CAS RN Substance Name Category Basis of Estimate Detail Code Quantity NA 02 Arsenic (and its compounds) Stack or Point Releases O Engineering Estimates 0.0000 kg NA 14 Zinc (and its compounds) Stack or Point Releases O Engineering Estimates 0.0000 tonnes Onsite Releases Releases to air Total CAS RN Substance Name Total Releases to Air NA 02 Arsenic (and its compounds) 0.0000 kg NA 14 Zinc (and its compounds) 0.0000 tonnes Onsite Releases Releases to land CAS RN Substance Name Category Basis of Estimate Detail Code Quantity NA 02 Arsenic (and its compounds) Other O Engineering Estimates 0.0007 kg Onsite Releases Nature of Other Land Release CAS RN Substance Name Nature of Other Land Release NA 02 Arsenic (and its compounds) Landfill disposal CAS RN Substance Name Nature of Other Land Release Onsite Releases Releases to land Total CAS RN Substance Name Total Releases to Land NA 02 Arsenic (and its compounds) 0.0007 kg Total Quantity Released (All Media) CAS RN Substance Name Category Basis of Estimate Detail Code Quantity NA 01 Antimony (and its compounds) Total Quantity Released O Engineering Estimates 0.0004 tonnes 103231 Bis(2ethylhexyl) adipate Total Quantity Released O Engineering Estimates 0.0106 tonnes 117817 Bis(2ethylhexyl) phthalate Total Quantity Released O Engineering Estimates 0.0283 tonnes 85687 Butyl benzyl phthalate Total Quantity Released O Engineering Estimates 0.0008 tonnes Onsite Releases Total CAS RN Substance Name Total releases NA 02 Arsenic (and its compounds) 0.0007 kg NA 14 Zinc (and its compounds) 0.0000 tonnes Onsite Releases Quarterly Breakdown of Annual Releases CAS RN Substance Name Quarter 1 Quarter 2 Quarter 3 Quarter 4 NA 01 Antimony (and its compounds) 25 25 25 25 NA 02 Arsenic (and its compounds) 25 25 25 25 103231 Bis(2ethylhexyl) adipate 25 25 25 25 117817 Bis(2ethylhexyl) phthalate 25 25 25 25 85687 Butyl benzyl phthalate 25 25 25 25 Onsite Releases Reasons for Changes in Quantities Released from Previous Year CAS RN Substance Name Reasons for Changes in Quantities from Previous Year Comments 103231 Bis(2ethylhexyl) adipate No significant change (i.e. < 10%) or no change 117817 Bis(2ethylhexyl) phthalate No significant change (i.e. < 10%) or no change 85687 Butyl benzyl phthalate No significant change (i.e. < 10%) or no change NA 01 Antimony (and its compounds) No significant change (i.e. < 10%) or no change NA 02 Arsenic (and its compounds) No significant change (i.e. < 10%) or no change NA 14 Zinc (and its compounds) No significant change (i.e. < 10%) or no change Disposals Onsite Disposal (excluding Tailings and Waste Rock) CAS RN Substance Name Category Basis of Estimate Detail Code Quantity NA 14 Zinc (and its compounds) Landfill O Engineering Estimates 0.0002 tonnes Disposals Onsite Disposal (excluding Tailings and Waste Rock) Total CAS RN Substance Name Total Onsite Disposals NA 14 Zinc (and its compounds) 0.0002 tonnes Disposals Total Quantity Disposed (All Media) CAS RN Substance Name Total Quantity Disposed (All Media) NA 14 Zinc (and its compounds) 0.0002 tonnes Disposals Reasons and Comments CAS RN Substance Name Reasons Why Substance Was Disposed Reasons for Changes in Quantities from Previous Year Comments 103231 Bis(2ethylhexyl) adipate No significant change (i.e. < 10%) or no change 117817 Bis(2ethylhexyl) phthalate No significant change (i.e. < 10%) or no change 85687 Butyl benzyl phthalate No significant change (i.e. < 10%) or no change NA 01 Antimony (and its compounds) No significant change (i.e. < 10%) or no change NA 02 Arsenic (and its compounds) No significant change (i.e. < 10%) or no change NA 14 Zinc (and its compounds) Production residues No significant change (i.e. < 10%) or no change About us News Contact us Stay connected HEALTH healthycanadians.gc.ca TRAVEL travel.gc.ca SERVICE CANADA servicecanada.gc.ca JOBS jobbank.gc.ca ECONOMY actionplan.gc.ca Canada.gc.ca Terms and Conditions Transparency Version: 3.13.0 Recycling Reasons and Comments CAS RN Substance Name Reasons Why Substance Was Recycled Reasons for Changes in Quantities Recycled from Previous Year Comments 103231 Bis(2ethylhexyl) adipate No significant change (i.e. < 10%) or no change 117817 Bis(2ethylhexyl) phthalate No significant change (i.e. < 10%) or no change 85687 Butyl benzyl phthalate No significant change (i.e. < 10%) or no change NA 01 Antimony (and its compounds) No significant change (i.e. < 10%) or no change NA 02 Arsenic (and its compounds) No significant change (i.e. < 10%) or no change NA 14 Zinc (and its compounds) No significant change (i.e. < 10%) or no change Pollution Prevention Does the facility have a documented pollution prevention plan?
https://www.avient.com/sites/default/files/2025-05/Advanced Composites Utility Poles Product Overview.pdf
Customized and Consistent Material Manufactured in a continuous pultrusion process, GridCore poles are engineered for consistent strength and uniform appearance and are not subject to warping, shrinkage, or splintering.
Avient’s Advanced Composites business segment specializes in lightweight, strong, cost-efficient, and customizable composite materials used in many different industries, from automotive to construction and from infrastructure to recreation.
https://www.avient.com/sites/default/files/2021-06/fl.us-.datasheet-kevlar-para-aramid.pdf
We believe that our ongoing commitment to protect the environment, to remain at the forefront of fiber and coating technology, and to ‘treat others as we want to be treated’ will continue to drive the success of our customers, shareholders, and employees.
Over the last several years, FIBER-LINE® and DuPont™ have formed a strong partnership based upon the synergies between both organizations. • FIBER-LINE®’s ability to add value to the already attractive properties of both Kevlar®Para-Aramid & Nomex® Meta-Aramid creates more opportunity in the market place to provide solution driven products to a diverse range of markets. • Because FIBER-LINE® already processes so many dif- ferent types and deniers of both Kevlar® & Nomex®, we have been authorized by DuPont™ to distribute small quantities of these fibers to an ever-growing customer base. • Through this program, we hope to introduce busi- nesses of all sizes to the benefit of Aramid fibers.
https://www.avient.com/industries/transportation/trucking/trucking-interiors
Continuous fiber thermoset springs and laminates for seating
Continuous fiber thermoplastic reinforcement for panels and seating
Continuous Glucose Monitors (CGM)
https://www.avient.com/knowledge-base/article/exploring-world-fluoropolymers?rtype[]=1164
Fluoropolymers have high melting points and corresponding high processing temperatures and continuous use temperatures, depending on the specific product.
Perfluoroalkoxy (PFA), for example, is at the high end; it has a typical continuous use temperature of 500°F (260°C) and typically reaches 715°F (380°C) during processing; equipment temperatures can be even higher than the melt temperature3.
At the lower end, polyvinylidene fluoride (PVdF) has a typical continuous use temperature of 300°F (150°C) and typically reaches 450°F (232°C) during processing3.
https://www.avient.com/knowledge-base/article/exploring-world-fluoropolymers?ind[]=6598
Fluoropolymers have high melting points and corresponding high processing temperatures and continuous use temperatures, depending on the specific product.
Perfluoroalkoxy (PFA), for example, is at the high end; it has a typical continuous use temperature of 500°F (260°C) and typically reaches 715°F (380°C) during processing; equipment temperatures can be even higher than the melt temperature3.
At the lower end, polyvinylidene fluoride (PVdF) has a typical continuous use temperature of 300°F (150°C) and typically reaches 450°F (232°C) during processing3.
https://www.avient.com/knowledge-base/article/exploring-world-fluoropolymers?ind[]=21506
Fluoropolymers have high melting points and corresponding high processing temperatures and continuous use temperatures, depending on the specific product.
Perfluoroalkoxy (PFA), for example, is at the high end; it has a typical continuous use temperature of 500°F (260°C) and typically reaches 715°F (380°C) during processing; equipment temperatures can be even higher than the melt temperature3.
At the lower end, polyvinylidene fluoride (PVdF) has a typical continuous use temperature of 300°F (150°C) and typically reaches 450°F (232°C) during processing3.
https://www.avient.com/knowledge-base/article/exploring-world-fluoropolymers?ind[]=6601
Fluoropolymers have high melting points and corresponding high processing temperatures and continuous use temperatures, depending on the specific product.
Perfluoroalkoxy (PFA), for example, is at the high end; it has a typical continuous use temperature of 500°F (260°C) and typically reaches 715°F (380°C) during processing; equipment temperatures can be even higher than the melt temperature3.
At the lower end, polyvinylidene fluoride (PVdF) has a typical continuous use temperature of 300°F (150°C) and typically reaches 450°F (232°C) during processing3.
https://www.avient.com/knowledge-base/article/exploring-world-fluoropolymers
Fluoropolymers have high melting points and corresponding high processing temperatures and continuous use temperatures, depending on the specific product.
Perfluoroalkoxy (PFA), for example, is at the high end; it has a typical continuous use temperature of 500°F (260°C) and typically reaches 715°F (380°C) during processing; equipment temperatures can be even higher than the melt temperature3.
At the lower end, polyvinylidene fluoride (PVdF) has a typical continuous use temperature of 300°F (150°C) and typically reaches 450°F (232°C) during processing3.
https://www.avient.com/resource-center?document_type=253&document_subtype=216
Continuous Fiber Reinforced Thermoplastic Composites: Performance Advantages & Applications
Explore how the versatility of continuous fiber reinforced thermoplastic composites can help you minimize weight and maximize design efficiency.
Explore the functionality and versatility of continuous fiber reinforced thermoplastic composites