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SACO AEI Polymers
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98 Products found on SACO AEI Polymers
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PEXIDAN® L/T-UV
Polymer Name:
High Density Polyethylene (HDPE)
Processing Methods:
Extrusion
Melt Flow Index:
0.7 - 0.7 g/10 min
PEXIDAN® L/T-UV is a high density PEX system consisting of a silane grafted basecompound A-1001 and a catalyst masterbatch CAT-003 (or A-1022 and CAT-117). When mixed and extruded in the proper proportions, the two-component system results in a material that is crosslinkable by exposure to moisture or by immersion in hot water at 90-95°C. PEXIDAN® L/T is listed by NSF International to standards 14 and 61 and to Canadian Standards Association standard B137.5. NSFI certification to ASTM F876 and ASTM F2023 testifies to its superior resistance to oxidation by hot, chlorinated water. PEXIDAN® L/T is permitted to be used in domestic continuous re-circulation systems and is listed by NSF as a NSF-pw CL5 / PEX 5006 material.
ARMIDAN® NT7510
Polymer Name:
Polyolefin Elastomer
Features:
Excellent Impact Modifier
Density:
870.0 - 870.0 kg/m³
ARMIDAN® NT7510 is a Maleic Anhydride modified polyolefin elastomer specifically designed for toughening Nylon 6, Nylon 66, and other polyamides. Suggested loading levels are between 15 and 25 wt % depending on the specific Nylon grade and desired level of impact modification.
PEXIDAN® J/T
Polymer Name:
Low Density Polyethylene (LDPE)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant
PEXIDAN® J/T is a low density flame-retardant XLPE system curable by moisture and consists of a silane pregrafted base compound A-3001 and a flame-retardant catalyst masterbatch CAT-012FR. Mixed and extruded in the proper proportions (60:40), the two components result in a material that is curable by exposure to 70-95°C hot water or even ambient moisture. PEXIDAN® J/T is designed to meet SAE J1128 standards for GXL, TXL and SXL type insulation. PEXIDAN® J/T is halogenated but is RoHS-compliant.
EXTINITY® 0202-103
Polymer Name:
Polypropylene (unspecified)
Processing Methods:
Extrusion, Thermoforming, Injection Molding, Compounding
Additives Included:
Flame Retardant
Melt Flow Index:
4.0 - 4.0 g/10 min
EXTINITY® 0202-103 is a highly loaded masterbatch of brominated flame retardant pre-dispersed in a polypropylene carrier. It has been designed for use in variety of compounding applications. The pellet form makes the flame retardant easier to handle, more efficient, and can lower overall costs. The product is RoHS compliant.
PEXIDAN® SX505
Polymer Name:
Ethylene Propylene Copolymer
Density:
900.0 - 900.0 kg/m³
PEXIDAN® SX505:CM493 and SX505:CM497 is a silane crosslinkable rubber compound, curable when exposed to moist conditions. The compound can be processed on largely standard thermoplastic extrusion equipment with good extrusion properties at high output rates. The graft component SX505 is mixed with a crosslinking catalyst masterbatch CM493 or CM497 generally in the ratio 95:5. CM497 is a lower strength catalyst masterbatch and is used on thin wall extrusion or to reduce premature crosslinking during processing. The SX505:CM493 or SX505:CM497 systems have passed type-tests for use up to and including 33 kV. PEXIDAN® SX505 is a zero-halogen material and is used as insulation in Low Smoke Zero-Halogen (LSZH) cable constructions
PEXIDAN® X/T-UV
Polymer Name:
Low Density Polyethylene Compound (LDPE Compound)
Additives Included:
Flame Retardant
Melt Flow Index:
0.8 - 0.8 g/10 min
PEXIDAN® X/T-UV is a low density flame-retardant XLPE system curable by moisture and consists of a silane pre-grafted base compound A-3001 and a flame-retardant catalyst masterbatch CAT-005FR-UV1. Mixed and extruded in the proper proportions the two-component system results in a material that is curable by exposure to 70-95°C hot water or even ambient moisture. PEXIDAN® X/T-UV is halogenated but is RoHS-compliant. UL44 type insulation may be marked SUNRES or SR in all colors for sizes of 6 AWG and larger. UL4703 photovoltaic insulation may be marked SUNRES in all sizes and colors
LINXIDAN® LX4433
Polymer Name:
High Density Polyethylene (HDPE)
Fillers Included:
Natural Fiber, Wood Fiber
Melt Flow Index:
0.6 - 0.6 g/10 min
LINXIDAN® LX4433 is a Maleated HDPE Coupling Agent designed specifically to chemically bind natural fibers to HDPE in Wood-Plastic Composites. Coupling fibers to the HDPE matrix, in a 50% wood-filled system, reduces moisture uptake while increasing flexural modulus by 20% and overall flexural strength by 90%.
EXTINITY® 0202-102
Polymer Name:
Polypropylene Copolymer
Additives Included:
Flame Retardant
EXTINITY® 0202-102 is 48% active flame retardant masterbatch additive dispersed in co-polymer polypropylene (coPP) carrier. EXTINITY® 0202-102 can be added to polypropylene base resin and achieve flame retardant performance to meet UL vertical burn performance (UL V-0 and UL V-2).
EXTINITY® 0101-108
Polymer Name:
High Density Polyethylene (HDPE)
Processing Methods:
Injection Molding, Compression Molding, Film Extrusion, Extrusion
Additives Included:
Flame Retardant
Melt Flow Index:
0.6 - 0.6 g/10 min
EXTINITY® 0101-108 is a halogenated, flame retardant compound specifically designed for use in plenum tube applications. This compound has good thermal stability and can be converted easily on standard processing equipment.
PEXIDAN® V/T-2
Polymer Name:
Low Density Polyethylene (LDPE)
Additives Included:
Flame Retardant
Melt Flow Index:
1.0 - 1.0 g/10 min
PEXIDAN® V/T-2 is a low density flame-retardant XLPE system curable by moisture and consists of a silane-grafted base compound A-3001 and a catalyst masterbatch CAT-045FR. Mixed and extruded in the proper proportions (50/50), the two components result in a material that is curable by exposure to hot water. PEXIDAN® V/T-2 is halogenated but is RoHS-compliant.
PEXIDAN® A-3021
Polymer Name:
Thermoplastic Polyolefin (TPO), Thermoplastic Vulcanizate (TPV)
Density:
900.0 - 900.0 kg/m³
PEXIDAN® A-3021 is an ethylene-copolymer based XLPE curable by moisture and is intended for application requiring superior flexibility. When mixed in the proper proportions with a suitable catalyst masterbatch, the resulting mixture is curable by exposure to stream, 70-95°C hot water, or even ambient moisture. A-3021 is the silane-grafted base component of a 2-part system and must be used with a suitable catalyst masterbatch.
PEXIDAN® H/T
Polymer Name:
Low Density Polyethylene Compound (LDPE Compound)
Additives Included:
Flame Retardant
PEXIDAN® H/T is a low density flame-retardant XLPE system curable by moisture and consists of a silane pregrafted base compound A-3001 and a flame-retardant catalyst masterbatch CAT-012FR. Mixed and extruded in the proper proportions (67/33) this mixture results in a material curable by exposure to 70-95°C hot water or even ambient moisture. PEXIDAN® H/T is listed with CSA for AWM and CL1251, CL1252 & CL1503, and for UL AWM styles 3173 and 3321. See below for a more complete list of suitable AWM styles. PEXIDAN® H/T is halogenated but is RoHS-compliant.
PEXIDAN® V/T
Polymer Name:
Low Density Polyethylene Compound (LDPE Compound)
Additives Included:
Flame Retardant
Melt Flow Index:
0.8 - 0.8 g/10 min
PEXIDAN® V/T is a low density flame-retardant XLPE system curable by moisture and consists of a silanegrafted base compound A-3001 and a flame-retardant catalyst masterbatch CAT-010FR. Mixed and extruded in the proper proportions (50/50), the two components result in a material that is curable by exposure to hot water. PEXIDAN® V/T is halogenated but is RoHS-compliant.
EXTINITY® 0211-301
Polymer Name:
Ethylene Propylene Copolymer
Additives Included:
Flame Retardant
Density:
2660.0 - 2660.0 kg/m³
EXTINITY® 0211-301 is a highly loaded antimony oxide concentrate in an EPDM carrier resin. The antimony oxide content in EXTINITY® 0211-301 is 80% by weight. All SACO AEI Polymers flame retardant concentrates are much more easily dispersed and therefore provide resultant materials with superior physical properties and flame resistance versus the use of additives in their naturally occurring state.
THERMODAN® CP 0110-108 NT
Polymer Name:
Chlorinated Polyethylene (CPE)
Features:
Low Moisture Absorption, Abrasion Resistant, Superior Fire Performance, Good UV Resistance, Oil Resistant, Self-extinguishing Characteristics, Fast Extrusion Speed, Acid Resistant, Slow Flame Propagation, Chemical Resistant, Excellent Fuel Resistance
Density:
1380.0 - 1380.0 kg/m³
Strain at Break:
350.0 - 350.0 %
THERMODAN® CP 0110-108 NT is a natural, UV resistant, Lead-free, RoHS compliant, Thermoplastic CPE compound. It is designed for use in a wide variety of jacketing applications including wire and cable and tube bundles. This compound has superior fire performance; including slow flame propagation, and self-extinguishing characteristics. THERMODAN® CP 0110-108 NT should be extruded with a screw configuration designed to optimize process conditions and throughput. This extrusion compound meets, or exceeds, several industry jacketing specifications, including UL 1277 tray cable. THERMODAN® CP 0110-108 NT has been designed to be optionally cross-linked by e-beam irradiation in order to further toughen the material and provide for a thermoset CPE compound. Additional information regarding recommended e-beam dosing is available upon request.
PEXIDAN® SX739
Polymer Name:
High Density Polyethylene (HDPE) Compound, High Density Polyethylene (HDPE)
Processing Methods:
Injection Molding
Material SX739 is a silane grafted HDPE compound curable by exposure to moist conditions. SX739 is specifically designed for high output processing by conventional thermoplastic injection molding. The graft component SX739 is mixed with a crosslinking catalyst masterbatch CM488/6 generally in the ratio 95:5. This material combines good flow, high rigidity and excellent notched impact strength. The two component system SX739:CM488/6 has high degree of crosslinking which gives it a useful strength at temperatures not usually reached by HDPE.
THERMODAN® HF TP521
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant
End Uses:
Wires, Cables
Density:
1480.0 - 1480.0 kg/m³
THERMODAN® HF TP521 has been developed specially to comply with the requirements of BS7655 Section 6 for types LTS1, 2, 3 and 4; EN 50290-2-27 for type HM2 and HD 604 for type HM4. Cables made with TP521 have passed the 3m3 smoke density chamber test to IEC 61034-2.
PEXIDAN® HF SX524
Polymer Name:
Crosslinked Polyethylene (XLPE / PEX)
Processing Methods:
Extrusion
End Uses:
Cables, Wires
Density:
1400.0 - 1400.0 kg/m³
Tensile Strength:
10.0 - 10.0 MPa
PEXIDAN® HF SX524 pre-grafted base is mixed with a crosslinking catalyst masterbatch CM424 or CM424/1, in the ratio 95:5. Crosslinking is obtained by exposure to moist or hot water immersion only. PEXIDAN® HF SX524 has been developed specially for particularly optical fiber ADSS (all dielectric self-supporting) communication cables to be installed on overhead power distribution networks. The material is black in color and suitable for outdoor use with excellent tracking and UV resistance.
PEXIDAN® SX554
Polymer Name:
Ethylene Propylene Diene Terpolymer (EPDM)
Processing Methods:
Extrusion
Density:
900.0 - 900.0 kg/m³
PEXIDAN® SX554 pre-grafted base is mixed with a crosslinking catalyst masterbatch CM493, in the ratio 95:5, or CM497, in the ratio between 90:10 and 93:7.CM493 is a stronger catalyst suitable for wall thicknesses > 1.5mm and CM497 is a weaker catalyst suitable for small conductor sizes, such as 1 to 4 mm2. The system SX554:CM493 or SX554:CM497, has been approved for use at 1kV and has found uses up to 10kV, it is highly flexible and enables the production of soft rubber cables without the use of continuous vulcanization equipment. Crosslinking is obtained by exposure to moist or hot water immersion only.
THERMODAN® HF TP837B
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant
End Uses:
Wires, Cables
Density:
1520.0 - 1520.0 kg/m³
THERMODAN® HF TP837B has been developed specially to offer good processability, very fast extrusion process with very low die drool.
EXTINITY® 0101-107
Polymer Name:
High Density Polyethylene (HDPE)
Processing Methods:
Injection Molding, Compression Molding, Film Extrusion, Extrusion
Additives Included:
Flame Retardant
Melt Flow Index:
0.6 - 0.6 g/10 min
EXTINITY® 0101-107 is a halogenated, flame retardant compound specifically designed for use in plenum tube applications. This compound has good thermal and ultraviolet stability and can be converted easily on standard processing equipment.
THERMODAN® HF TP837NU
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant, UV Stabilizer
End Uses:
Wires, Cables
Density:
1520.0 - 1520.0 kg/m³
THERMODAN® HF TP837NU has been developed specially to offer good processability, very fast extrusion process with very low die drool.
EXTINITY® 0102-104
Polymer Name:
Polypropylene Compound (PP Compound)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant
Melt Flow Index:
1.5 - 1.5 g/10 min
EXTINITY® 0102-104 is an extrusion grade UL V-0 recognized copolymer polypropylene based compound. The product features an excellent balance of properties including high impact strength, high elongation and good flexural and tensile properties. EXTINITY® 0102-104 has an all color UL V-0 rating. Custom colors can be provided. Typical applications including extruded sheet, rod and profiles.
EXTINITY® 0201-127
Polymer Name:
Polyolefin (unspecified)
Processing Methods:
Extrusion, Thermoforming, Injection Molding
Additives Included:
Flame Retardant
Melt Flow Index:
1.0 - 5.0 g/10 min
EXTINITY® 0201-127 is a highly effective flame-retardant concentrate, which will provide excellent flame resistance properties. EXTINITY® 0201-127 easily disperses into a wide range of polyolefins through typical melt blending and is stabilized to impart thermal stability to the finished composition. EXTINITY® 0201-127 is non-blooming and has been designed to alleviate color shift problems when a flame retardant is used in colored films. The product is RoHS compliant.
EXTINITY® C0007-18LM
Polymer Name:
Polypropylene Copolymer
Processing Methods:
Extrusion
Melt Flow Index:
1.5 - 1.5 g/10 min
EXTINITY® C0007-18LM is an extrusion grade UL V-0 recognized copolymer polypropylene based compound.The product features an excellent balance of properties including high impact strength, high elongation and good flexural and tensile properties. EXTINITY® C0007-18LM has an all color UL V-0 rating. Custom colors can be provided. Typical applications including extruded sheet, rod and profiles.
ARMIDAN® NT7100
Polymer Name:
Polyolefin Elastomer
Features:
Excellent Impact Modifier
Density:
890.0 - 890.0 kg/m³
ARMIDAN® NT7100 is a Maleic Anhydride modified polyolefin elastomer specifically designed for toughening Nylon 66 and other polyamides. Suggested loading levels are between 15 and 25 wt % depending on the specific Nylon grade and desired level of impact modification.
PEXIDAN® SX523
Polymer Name:
Crosslinked Polyethylene (XLPE / PEX)
Processing Methods:
Extrusion
End Uses:
Low Voltage Insulation, Cables, Wires
Density:
950.0 - 950.0 kg/m³
PEXIDAN® SX523 pre-grafted black base is mixed with crosslinking catalyst masterbatch CM493 or CM497 in the ratio 95:5. This system is carbon loaded, with high UV stabilization, and has been developed especially for usage on overhead power cables insulation according NFC 33-209, “Câble Torsadé”. Crosslinking is obtained by exposure to moist or hot water immersion only.
PEXIDAN® SX522A
Polymer Name:
Crosslinked Polyethylene (XLPE / PEX)
Processing Methods:
Extrusion
End Uses:
Low Voltage Insulation, Cables, Wires
Density:
920.0 - 920.0 kg/m³
PEXIDAN® SX522A pre-grafted base is mixed with crosslinking catalyst masterbatch CM401 in the ratio 95:5. This system has ambient cure.
SACO AEI Polymers XR Sheet
Applications:
Furniture, Interior, Automotive
Product Families:
Parts, Shapes & Films
Chemical Family:
Polypropylenes (PP), Polyolefins
Polymer Name:
Polypropylene (unspecified)
End Uses:
Furniture, Door Panel, Automotive Interior Parts
SACO AEI Polymers XR Sheet is the moldable substrate of choice for automotive interior components. Its wood fiber composition and inherent recyclability provide the environmentally responsible solution for next-generation automotive designs. The XR2M formula offers a balance of stiffness, dimensional stability and moldability are welcome benefits for design engineers interested in blending performance, form and function.
THERMODAN® HF 0103-212 NT
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant
End Uses:
Wires, Low Voltage Insulation, Cables
Density:
1500.0 - 1500.0 kg/m³
SACO AEI Polymers THERMODAN® HF 0103-212 NT is a flame retardant non-halogen thermoplastic wire and cable compound. It is designed for use in a variety of jacketing applications. This compound has superior fire performance including slow flame propagation, low smoke production and low smoke corrosivity. THERMODAN® HF 0103-212NT can be used as a jacket compound on cables recognized under UL 1277 tray cables and can pass flame retardant requirements set forth under UL 1685, IEEE 1202 and FT-4. THERMODAN® HF 0103-212 NT is recognized under UL 2885 as being halogen free. It is natural in color and UV resistant.
LINXIDAN® LX4435
Polymer Name:
Polypropylene Compound (PP Compound)
Melt Flow Index:
100.0 - 100.0 g/10 min
LINXIDAN® LX4435 is a Maleated PP Coupling Agent designed specifically to chemically bind natural fibers to PP in Wood-Plastic Composites. Coupling fibers to the polypropylene matrix, in a 50% wood-filled system, reduces moisture uptake (up to 43% at the 2% addition level), improves flexural modulus (stiffness) by 14%, and increases overall flexural strength by 70%.
THERMODAN® HF TP832
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant
End Uses:
Wires, Low Voltage Insulation, Cables
Density:
1500.0 - 1500.0 kg/m³
THERMODAN® HF TP832 has been developed specially to comply with the requirements of BS7655 Section 6 for types LTS1, 2, 3 and 4; EN 50290-2-27 for type HM2 and HD 604 for type HM4. Cables sheathed with TP832 have received LPCB approval.
THERMODAN® HF TP870
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Extrusion
Additives Included:
Flame Retardant
End Uses:
Wires, Cables
Density:
1460.0 - 1460.0 kg/m³
THERMODAN® HF TP870 has been developed specially to meet general requirements of BS 7655 Section 6.1 type LTS 1.
PEXIDAN® HF SX612S
Polymer Name:
Crosslinked Polyethylene (XLPE / PEX)
Processing Methods:
Extrusion
End Uses:
Cables, Wires
Density:
1470.0 - 1470.0 kg/m³
Tensile Strength:
14.0 - 14.0 MPa
PEXIDAN® HF SX612S pre-grafted base is mixed with catalyst masterbatch CM602 or CM601, in an addition rate between 5% and 10%, depending on extrusion conditions. This system has ambient cure. PEXIDAN® HF SX612S has been designed to meet the requirements of IEC 60092-351 HF90, EN 50363-5, EI5 type, EN 50525-1 and EN 50525-3-41.
THERMODAN® HF TP832NU
Polymer Name:
Thermoplastic (unspecified)
Processing Methods:
Extrusion
Additives Included:
UV Stabilizer, Flame Retardant
End Uses:
Wires, Cables
Density:
1500.0 - 1500.0 kg/m³
THERMODAN® HF TP832NU has been developed specially to comply with the requirements of BS7655 Section 6 for types LTS1, 2, 3 and 4; EN 50290-2-27 for type HM2 and HD 604 for type HM4. Cables sheathed with TP832 have received LPCB approval.
PEXIDAN® U/T
Polymer Name:
Low Density Polyethylene Compound (LDPE Compound)
Melt Flow Index:
0.8 - 0.8 g/10 min
PEXIDAN® U/T is a low density XLPE system curable by moisture and consists of a silane pre-grafted base compound A-3001 and a catalyst masterbatch CAT-008. When mixed and extruded in the proper proportions (95/5), the two components result in a material curable by exposure to 70-95°C hot water or even ambient moisture. In order to prevent pre-scorching the grafted compound and the catalyst masterbatch must be stored separately and mixed only when used. PEXIDAN® U/T is RoHS-compliant. PEXIDAN® U/T is also suitable for medium voltage XLPE jacket applications not requiring flame retardancy.
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