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TIVAR HPV FG UHMW-PE Bearing Grade for Outstanding Performance in Conveying Processing Systems TIVAR HPV FG was developed specifically for wear components subject to challenging production environments such as high speeds high temperatures high loads and aggressive cleaning agents. Components made with TIVAR HPV exhibit improved sliding behavior and abrasion resistance due to its low COF and high LPV. Key B e n e f i t s Av ailab ility Very low wear of belt and slide plates Shapes Stock Plate Profiles Extruded .25 to 2 Machined 48 x 120 - Available upon request Finished parts according to customers specifications COF reduced by 80 vs POM-C LPV value approximately 18-35 higher than competitive dry lubricant material Food contact safe FDA and EU 102011 compliant Significant noise reduction Round Rod Limiting PV-Values Limiting PV-Values Competitive Advantage Shorter downtimes Less interruptions leading to significant energy cost savings Eliminates lubrication cleaner operation 0.3 Limiting PV-value Longer productive cycles between maintenance Tribological test procedure Thrust Washer testing LPV-limits measured on a Thrust Washer rotating against a metal system speed 0.5 ms wear as limit Data Source Mitsubishi Chemical Advanced Material Lab Tests 0.2 0.1 0 0.105 0.142 0.153 0.175 0.208 UHWM-PE Modified TIVAR Competitive Dry Lubricant UHMW-PE 1 Competitive Dry Lubricant UHMW-PE 2 TIVAR HPV FG COF improved Higher is better Built in dry lubricant MCAMconnect HPV 7960 Lab Lab Testing WEAR the POM C Pin Testing WEAR RATE RATE ofofthe POM C Pin measured on a plastics pin on rotating disk - tribo system 3MPa pressure 0.33ms speed 23C Lower is better Wear Rate mkm 1.5 1.0 0.5 0 0.12 0.58 0.47 1.4 1.05 0.58 Counterplate is TIVAR HPV FG Counterplate is TIVAR Dryslide Counterplate is TIVAR 1000 Counterplate is TIVAR PET-Line Counterplate is TIVAR H.O.T Counterplate is TIVAR Oil Filled Other Elect. Prop. Thermal Prop. Mecha

nical Properties Data Sheet Metric Dryslide 8160 Tribological test procedure similar to Test method A pin-on-disk as described in ISO 7148-2 1999 Test conditions 3 MPa pressure POM-C pin sliding velocity 0.33 ms normal environment air 23C 50 RH unlubricated operation test time 24 hrs Data Source Mitsubishi Chemical Advanced Material Lab Tests Imperial Test Method ISO Average Value Test Method ASTM Density Specific Gravity 73F ISO 1183-1 0.95 gcm3 ASTM D792 0.93 Tensile Strength 23C 73F ISO 527-1-2 20 MPa ASTM D638 5900 psi Tribological test 73F Tensile Modulus of Elasticity 23C ISO 527-1-2 800 MPa ASTM D638 56000 psi 50 ASTM D638 390 ASTM D790 3000 psi ASTM D790 77000 psi procedure similar to Test method A 73F Tensile Elongation at break 23C pin-on-disk as Flexural Strength described 23C 73F in ISO 1999 Flexural Modulus of7148-2 Elasticity 23C 73F Test conditions 3 MPa Compressive Stress 10 pressure Deformation 23C 73F POM-C pin sliding Compressive Modulus of Elasticity velocity 0.33 ms 23C 73F normal environment Hardness Durometer Shore D Scale 23C 73F air 23C 50 RH unlubricated Notched Charpy Impact 23C 73F operation test Sand Slurry time 24 hrs Sand Wheel Wear Data Source Mitsubishi Chemical Advanced Material Lab Tests Coefficient of Linear Thermal Expansion 23-6 C -40-300F ISO 527-1-2 Tribological test procedure similar ISO to Test 178method A pin-on-disk as described ISO 178 in ISO 7148-2 1999 Test conditions 3 MPa ISO 604 pin 22 MPa pressure POM-C sliding ISO velocity 6040.33 ms normal environment air ISO 868 23C 50 RH unlubricated D61 operation test time 24 hrs 2 ISOSource 179-11eA Data Mitsubishi 106P kJm Chemical Advanced Material ISO 15527 Lab Tests Average Value ASTM D695 3000 psi ASTM D695 77000 psi ASTM D2240 D65 ASTM D25 6 Type A 55 ft. MCAM TM D4020 165 TIVAR 1000100 - - ASTM G65 101 TIVAR 1000100 ASTM E831 TMA - ASTM E831 TMA 8 x 10-5 116F Heat Deflection Temperature 1.8 MPa 264 psi ISO 75 -1-2 - AS

TM D648 Melting Point crystalline peak ISO 11357-1-3 135C ASTM D3418 275F - 80C - 180F - - F433 - EOSESD S11.11 - EOSESD S11.11 1014 ohmssquare UL 94 HB UL-94 HB Water Absorption Immersion 24 Hours ISO 62 0.1 by wt. ASTM D5703 0.1 by wt. Water Absorption Immersion Saturation - 0.1 by wt. ASTM D570 3 0.1 by wt. Continuous Service Temp in Air Max. 1 Thermal Conductivity Surface Resistivity Flammability 3.1mm 18 in. 2 1 Data represents our estimated maximum long-term service temperature based on practical field experience. 2 Estimated rating based on available data. The UL-94 Test is a laboratory test and does not relate to actual fire hazard. Contact us for specific UL Yellow Card recognition number. 3 Specimens 18 thick x 2 diameter or square. Distributed by All statements technical information and recommendations contained in this publication are presented in good faith and are as a rule based upon tests and such tests are believed to be reliable and practical field experience. The reader however is cautioned that Mitsubishi Chemical Advanced Materials does not guarantee the accuracy or completeness of this information and it is the customers responsibility to determine the suitability of Mitsubishi Chemical Advanced Materials products in any given application. TIVAR is registered trademark of the Mitsubishi Chemical Advanced Materials group of companies. Design and content created by Mitsubishi Chemical Advanced Materials and are protected by copyright law. Copyright Mitsubishi Chemical Advanced Materials. All rights reserved. MCM-FP-03B 8.27.19 1000 PE Trib simil pinin IS Tes pres slidin norm 23C oper Dat Chem Lab