Features and Benefits - Composition: di-polymer of vinylidene fluoride and hexafluoropropylene - In compliance with U.S. Food and Drug Administration (FDA) 21 CFR 177.2600(c)(4)(i) - When compared to diamine cured compounds this product gives: -- Excellent mold release -- Better mold flow -- Superior compression set resistance -- Superior water resistance at elevated temperatures - Proprietary incorporated cure technology

Features and Benefits - Composition: di-polymer of vinylidene fluoride and hexafluoropropylene - High mooney version of FG 5630Q - In compliance with U.S. Food and Drug Administration (FDA) 21 CFR 177.2600(c)(4)(i) - When compared to diamine cured compounds this product gives: -- Excellent mold release -- Better mold flow -- Superior compression set resistance -- Superior water resistance at elevated temperatures - Proprietary incorporated cure technology

Features and Benefits - Composition: di-polymer of vinylidene fluoride and hexafluoropropylene - Medium viscosity - Process targets: injection and transfer molding and calendering - Improved chemical resistance compared to lower percent fluorine fluoropolymers - Excellent compression set resistance compared to lower percent fluorine fluoropolymers - Proprietary incorporated cure technology

Features and Benefits - Composition: terpolymer of vinylidene fluoride, hexafluoropropylene, and tetrafluoroethylene; plus cure site monomer - Low volume swell, high fluorine terpolymer - Can be used in blends with fluorosilicone, silicone, EDPM and other peroxide curable elastomers - Process targets: transfer and compression molding - Peroxide cure technology - Slightly improved water and steam resistance over conventional fluoroelastomers - Vulcanization of thick cross-section parts without fissuring

3M™ Dyneon™ FPO 3520 is a peroxide curable fluoroelastomer terpolymer containing 66 wt% fluorine. FPO 3520 can be used in compression, transfer or injection molding, and extrusion processes. Features and Benefits - TR10 = -19°C - Improved water, steam, and base resistance over conventional fluoroelastomers - Processes comparably to other peroxide-cured fluoroelastomers - Can be used in blends with other peroxide curable elastomers - Composition: Terpolymer of vinylidene fluoride, hexafluoropropylene, tetrafluoroethylene - Can be vulcanized by peroxides, dephenols, and diamines.

3M™ Dyneon™ FPO 3730 is a peroxide curable fluoroelastomer terpolymer containing 69.8 wt% fluorine. FPO 3730 can be used in compression, transfer or injection molding, and extrusion processes. Features and Benefits - Good processability - Excellent physicals - Broad chemical resistance

3M™ Dyneon™ FPO 3740 is a peroxide curable fluoroelastomer terpolymer containing 69.5 wt% fluorine. FPO 3740 can be used in compression, transfer or injection molding, and extrusion processes. Features and Benefits - Improved water, steam, and base resistance when compared to bisphenol cured fluoroelastomers - Good press cure physical properties - Excellent flow properties

Features and Benefits - Composition: terpolymer of vinylidene fluoride, hexafluoropropylene, and tetrafluoroethylene - Low viscosity - Process targets: injection extrusion and calendering - Proprietary incorporated cure technology

Features and Benefits - Composition: terpolymer of vinylidene fluoride, hexafluoropropylene, and tetrafluoroethylene - Incorporated cure terpolymer gumstock - Process targets: compression and transfer molding, and calendering - Proprietary incorporated cure technology

Features and Benefits - Composition: terpolymer of vinylidene fluoride, hexafluoropropylene, and tetrafluoroethylene - Low viscosity gumstock without incorporated curatives - Process targets: injection and transfer molding, calendering and coatings - Viscosity modifier - FT 2430 is amine or bisphenol curable

Features and Benefits - Composition: terpolymer of vinylidene fluoride, hexafluoropropylene, and tetrafluoroethylene - Terpolymer gumstock without incorporated curatives - Process targets: compression molding - Improved retention of elongation after long-term heat aging compared to conventional 66% fluoropolymers - Improved acid resistance and improved resistance to volume swell by organic solvents compared to conventional 66% fluoropolymers - FT 2481 is amine or bisphenol curable

Features and Benefits - Composition: terpolymer of hexafluoropropylene, tetrafluoroethylene and vinylidene fluoride - Process targets: extrusions primarily; also beneficial in calendering - Proprietary incorporated cure technology - Intermediate fluorine level product suitable for automobile fuel system applications requiring improved fuel resistance over standard di-polymer products. - Curative level adjusted for applications requiring higher levels of elongation

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Commercial polymers are classified into two types; one is the TFE-P dipolymer type (AFLAS® 100/150 Series), and the other is the TFE-P-VdF terpolymer type (AFLAS® 200Series). AFLAS® 200 Series is characterized by the improved low temperature properties, demoldability and metal bonding while maintaining most of the high heat and chemical resistance and electrical resistivity of the dipolymer. Below the current polymer grades are listed, which are mainly classified according to Mooney viscosity. Dipolymer is mostly used in the wire and cable, and automotive industries, while terpolymer is often favored for automotive use in terms of processability.

Material Type: Black color base (alkali) resistance grade fluoroelastomer compound, hardness Shore A 65~75. Based on peroxide curable fluoroelastomer with high fluorine content. Features: - Short post cure time - Excellent mold flow and mold release, resulting in less flash - Extraordinary chemical resistance: -- Alkali -- Alcohol Fuel -- Steam -- Acids -- Chemicals containing amines, aromatic. Process Methods: Suitable for compression, transfer, injection and extrusion molding process. Applications: Heat exchanger gasket and other parts require chemical, steam and acid resistance. Lab Testing Curing Condition: - Press Curing: 10min@170°C. - Oven: (1+4)hrs@230°C

Material Type: Black color base (alkali) resistance grade fluoroelastomer compound, hardness Shore A 65~75. Based on peroxide curable fluoroelastomer with high fluorine content. Features: - Short post cure time - Excellent mold flow and mold release, resulting in less flash - Extraordinary chemical resistance: -- Alkali -- Alcohol Fuel -- Steam -- Acids -- Chemicals containing amines, aromatics. Process Methods: Suitable for compression, transfer molding processes. Applications: Replacement of AFLAS, sealing parts in oilfield, heat exchangers gaskets. Lab Testing Curing Condition: - Press Curing: 10min@170°C. - Oven: (1+4)hrs@230°C

Material Type: Black color base (alkali) resistance grade fluoroelastomer compound, hardness Shore A 75~85. Based on peroxide curable fluoroelastomer with high fluorine content. Features: - Short post cure time. - Excellent mold flow and mold release, resulting in less flash - Extraordinary chemical resistance: -- Alkali -- Alcohol Fuel -- Steam -- Acids -- Chemicals containing amines, aromatics. Process Methods: Suitable for compression, transfer molding processes. Applications: Replacement of AFLAS, sealing parts in oilfield, heat exchangers gaskets. Lab Testing Curing Condition: - Press Curing: 10min@170°C. - Oven: (1+4)hrs@230°C

BDF201P is a low viscosity curative incorporated fluoroelastomer copolymer. With fast cure speed, this grade is well suited for application where good flowability and excellent mold release property are required. BDF201P can be compounded to meet the major fluoroelastomer specifications. BDF201P can be used for injection molding of O-rings or extrusion of complicated geometries. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF25CP is a low viscosity curative incorporated fluoroelastomer copolymer. BDF25CP is a general purpose grade, well suited for application where good flowability and processing property are required. It can be compounded to meet the major fluoroelastomer specifications. BDF25CP can be used for compression molding of general purposes. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF25EP is a low viscosity curative incorporated fluoroelastomer copolymer. With fast cure speed, this grade is well suited for application where good flowability and extrudability are required. BDF25EP can be compounded to meet the major fluoroelastomer specifications. BDF25EP can be used for extrusion molding of profiles or tubes. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF25IP is a low viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where excellent flowability and mold release required. BDF25IP can be compounded to meet the major fluoroelastomer specifications. BDF25IP can be used for injection molding or transfer molding. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF25P is a low viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good flowability and excellent mold release property are required. BDF25P can be compounded to meet the major fluoroelastomer specifications. BDF25P can be used for injection molding of O-rings and gaskets or extrusion of complicated geometries. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF2602AP is a medium viscosity curative incorporated fluoroelastomer copolymer. This is a general purpose grade, well suited for application where excellent process property is required. BDF2602AP can be compounded to meet the major fluoroelastomer specifications. BDF2602AP can be used for compression molding of O-rings, gaskets or oil seals or extrusion molding of articles. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF275P is a low viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good flowability and excellent mold release property are required. BDF275P can be compounded to meet the major fluoroelastomer specifications. BDF275P can be used for injection molding of O-rings and gaskets, or extrusion of complicated geometries. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF30P is a low to medium viscosity curative incorporated fluoroelastomer copolymer. This is a general purpose grade, well suited for application where good flowability and mold release are required. BDF30P can be compounded to meet the major fluoroelastomer specifications. BDF30P can be used for compression molding of O-ring and gasket or extrusion of complex geometries. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF331P is a low to medium viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good tear resistance and excellent process properties are required. BDF331P can be compounded to meet the major fluoroelastomer specifications. BDF331P can be used for compression molding or injection molding of complex geometries. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF361P is a low to medium viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good tear resistance and metal bonding properties are required. BDF361P can be compounded to meet the major fluoroelastomer specifications. BDF361P can be used for injection, transfer or compression molding of oil seals, shaft seals or valve stem seals. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF401HP is a medium viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good rheological properties and excellent compression set resistance are required. BDF401HP can be compounded to meet the major fluoroelastomer specifications. BDF401HP can be used for compression molding of O-rings and gaskets or extrusion of profiles. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF401P is a medium viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good rheological properties and excellent compression set resistance are required. BDF401P can be compounded to meet the major fluoroelastomer specifications. BDF401P can be used for compression molding of O-rings and gaskets. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF45P is a medium viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good hot tear resistance and fast cure rate are required. BDF45P can be compounded to meet the major fluoroelastomer specifications. BDF45P can be used for compression molding, extrusion and transfer molding of articles. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF601P is a medium to high viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good mechanical properties and excellent compression set resistance are required. BDF601P can be compounded to meet the major fluoroelastomer specifications. BDF601P can be used for compression molding of O-rings and gaskets. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF60C is a medium viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good process properties, rheological properties and low compression set are required. BDF60C can be compounded to meet the major fluoroelastomer specifications. BDF60C is a general purpose grade. It can be used for compression molding of O-rings and gaskets. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.

BDF631P is a medium to high viscosity curative incorporated fluoroelastomer copolymer. This grade is well suited for application where good hot tear resistance and excellent mold release are required. BDF631P can be compounded to meet the major fluoroelastomer specifications. BDF631P can be used for compression molding of oil seals or complicated geometries. It can be mixed using typical fluoroelastomer compounding ingredients. Mixing can be accomplished with two-roll mills or internal mixers. Finished goods can be produced by a variety of rubber processing methods.