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Complete Complete Composite Composite SolutionsSolutions
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BMC Offers High Performance with Low Cost
BMC Offers High Performance with Low Cost
BMC materials have been used in the automotive sector for more than 30 years and never has the need been greater for a high performance material that can meet the demands for BOTH cost and weight reduction than in today's automotive market.
New demanding global fuel economy and tailpipe emissions regulations present severe challenges for today’s automotive engineers. BMC brings a unique balance properties and physical characteristics that help meet the challenge for current and future automotive applications.
BMC materials have been used in the automotive sector for more than 30 years and never has the need been greater for a high performance material that can meet the demands for BOTH cost and weight reduction than in today's automotive market.
New demanding global fuel economy and tailpipe emissions regulations present severe challenges for today’s automotive engineers. BMC brings a unique balance properties and physical characteristics that help meet the challenge for current and future automotive applications.
High temperature resistance – Tg > 200C
Very high strength (fexural modulus greater than 18 GPA)
Low weight (30% lighter that equivalent aluminum parts)
Chemically resistant to most automotive fluids
Repeatable molded part dimensions (zero post mold shrink possible)
Excellent dimensional stability/tight tolerances (low CLTE)
Low warpage/excellent part flatness
Extremely high creep resistance (150C)
Excellent flammability resistance (UL94V-0)
Excellent electrical properties (insulating or conductive)
Low relative cost to alternative high performance materials
High temperature assembly possible (soldering, welding, etc.)
High temperature resistance – Tg > 200C
Very high strength (fexural modulus greater than 18 GPA)
Low weight (30% lighter that equivalent aluminum parts)
Chemically resistant to most automotive fluids
Repeatable molded part dimensions (zero post mold shrink possible)
Excellent dimensional stability/tight tolerances (low CLTE)
Low warpage/excellent part flatness
Extremely high creep resistance (150C)
Excellent flammability resistance (UL94V-0)
Excellent electrical properties (insulating or conductive)
Low relative cost to alternative high performance materials
High temperature assembly possible (soldering, welding, etc.)
Bulk Molding Compounds Inc. is the worlds leading supplier of unsaturated polyester and vinyl ester based thermoset composite materials.
BMC composite compounds are composed of various raw materials including resins, low profile additives, catalysts, pigments, mould release agents, fillers and fiber reinforcements.
At BMCI we work closely with our customers to custom formulate our materials to deliver properties specific to each applications unique requirements to insure the correct balance of performance versus price.
Bulk Molding Compounds Inc. is the worlds leading supplier of unsaturated polyester and vinyl ester based thermoset composite materials.
BMC composite compounds are composed of various raw materials including resins, low profile additives, catalysts, pigments, mould release agents, fillers and fiber reinforcements.
At BMCI we work closely with our customers to custom formulate our materials to deliver properties specific to each applications unique requirements to insure the correct balance of performance versus price.
Wide Range of Materials/PropertiesWide Range of Materials/Properties
HIGHLY ENGINEERED POLYESTER AND VINYL ESTER THERMOSET
COMPOSITES
HIGHLY ENGINEERED POLYESTER AND VINYL ESTER THERMOSET
COMPOSITES
BMCI has 7 compounding facilities locating in North America, South America, Europe and Asia to serve the global automotive market. Each of these markets are supported by local BMC sales and technical service representatives.
•USA - Chicago, IL, Perrysburg OH, •Mexico – Juarez, Mexico City•Brazil – Sao Paulo, •Germany – Hamburg, •China- Dongguan
BMCI has 7 compounding facilities locating in North America, South America, Europe and Asia to serve the global automotive market. Each of these markets are supported by local BMC sales and technical service representatives.
•USA - Chicago, IL, Perrysburg OH, •Mexico – Juarez, Mexico City•Brazil – Sao Paulo, •Germany – Hamburg, •China- Dongguan
BMCI Global FootprintBMCI Global Footprint
BMC Range of PropertiesBMC Range of Properties
Property Standard Units ValueDensity ISO 1183 g/cm3 1.5-2.5Shrinkage ISO 2577 % 0.3 - minus 0.1Out of Mold Shrinkage ISO 2577 % < 0.05Flexural Strength ISO 178 MPa 75 - 150Flexural Modulus ISO 178 GPa 9.0 - 20.0Impact Strength ISO 1790 KJ/m2 10 - 50Compressive Strength ISO 604 MPa 140 - 180Tensile Strength ISO 527 MPa 30 - 70Tensile Modulus ISO 527 GPa 10.0 - 15.0Elongation at Break ISO 527 % 0.2 - 0.5Thermal Coefficient of Linear Expansion
VDE 0304/T.1 10-6/K-1 11 - 22
Heat Deflection Temp HDT-A ISO 75 C > 250Heat Deflection Temp HDT-C ISO 75 C > 200Max Service Temperature C 190 - 200Thermal Conductivity W/mk 0.4 - 0.8Flammability UL 94 class HB - V0/0.8mmWater Absorption ISO 62 mg (1d) <30 (0.25%)Surface Resistivity IEC 60093 Ω 1012
Volume Resistivity IEC 60093 Ω cm 1014
BMC’s unique blend of properties make them ideal for use in the extreme environments found in a wide variety of automotive applications.•Automotive Electrical and Lighting Systems•Under the Hood/Powertrain•Body Structures•Exterior Trim•Alternative Fuel Vehicles (Hybrid Electric/Fuel Cell)
BMC’s unique blend of properties make them ideal for use in the extreme environments found in a wide variety of automotive applications.•Automotive Electrical and Lighting Systems•Under the Hood/Powertrain•Body Structures•Exterior Trim•Alternative Fuel Vehicles (Hybrid Electric/Fuel Cell)
BMC vs. High Performance MaterialsBMC vs. High Performance Materials
(Average Material Attribute Comparison)(Average Material Attribute Comparison)
BMC thermosets offer the most cost-effective performance at elevated temperatures under load, pressure, and chemical exposure in automotive applications compared to metal and engineered thermoplastics.
Bulk molding compounds specifically offer “the best balance of physical properties at the lowest possible cost when compared to engineering thermoplastics and die cast metals.”
BMC thermosets offer the most cost-effective performance at elevated temperatures under load, pressure, and chemical exposure in automotive applications compared to metal and engineered thermoplastics.
Bulk molding compounds specifically offer “the best balance of physical properties at the lowest possible cost when compared to engineering thermoplastics and die cast metals.”
BMC Range of Molding ProcessesBMC Range of Molding Processes
BMC materials are produced in multiple forms, shapes, and sizes to meet each customers specific processing requirements.
BMC materials can be processed by injection, compression, injection-compression, or resin transfer molding depending on the part size, shape, tolerancing, physical properties, and production volumes
Tool life in most cases exceeds more than one million shots making it a very economical process when compared to metal die casting processes.
BMC materials are produced in multiple forms, shapes, and sizes to meet each customers specific processing requirements.
BMC materials can be processed by injection, compression, injection-compression, or resin transfer molding depending on the part size, shape, tolerancing, physical properties, and production volumes
Tool life in most cases exceeds more than one million shots making it a very economical process when compared to metal die casting processes.
BMCI offers a range of application development support services to help select and/or develop materials with the right balance of properties and cost to meet requirements. Customization of formulations allows us to insure we are providing an optimized solution for each application with correct balance of properties vs. cost.
A breadth of in house material development, testing, design engineering and prototyping enables us to help customers deliver solutions to meet the most demanding deadlines and requirements.
BMCI offers a range of application development support services to help select and/or develop materials with the right balance of properties and cost to meet requirements. Customization of formulations allows us to insure we are providing an optimized solution for each application with correct balance of properties vs. cost.
A breadth of in house material development, testing, design engineering and prototyping enables us to help customers deliver solutions to meet the most demanding deadlines and requirements.
BMCI In-House Technical Support Capabilities
BMCI In-House Technical Support Capabilities
• Material Selection• Material Formulation/Sampling• Full Service Materials Lab/Testing• Instron, Dynatup, Gas Chromatograph• FTIR, DSC, DMA, TGA• Engineering/Design• Materials/Product Training• Prototyping• Injection molding• Compression Molding• Rapid Prototyping• Full Service Tool Shop• Prototype and Production Tooling Fabrication• Conversion of Die Cast or Thermoplastic Molds for BMC
Development
• Material Selection• Material Formulation/Sampling• Full Service Materials Lab/Testing• Instron, Dynatup, Gas Chromatograph• FTIR, DSC, DMA, TGA• Engineering/Design• Materials/Product Training• Prototyping• Injection molding• Compression Molding• Rapid Prototyping• Full Service Tool Shop• Prototype and Production Tooling Fabrication• Conversion of Die Cast or Thermoplastic Molds for BMC
Development
BMC Range of Automotive Applications
BMC Range of Automotive Applications
Cylinder Head CoversCylinder Head Covers
Engine Front/Rear CoversEngine Front/Rear Covers
Head Lamp ReflectorsHead Lamp Reflectors
Engine Heat Shield/Beauty CoversEngine Heat Shield/Beauty Covers
Electric Motor Brush Holders, Armatures, Housings
Electric Motor Brush Holders, Armatures, Housings
Electronic Throttle BodiesElectronic Throttle Bodies
ECU EnclosuresECU Enclosures
Transmission LinkageTransmission LinkageCooling Pump HousingCooling Pump Housing
Vacuum Pump HousingVacuum Pump Housing
Fuel Pumps Fuel Pumps
Thermostat HousingsThermostat Housings
Under Body Heat Shields
Under Body Heat Shields
Oil Pump HousingOil Pump Housing
Transmission Valve BodyTransmission Valve BodyTransmission Thrust WashersTransmission Thrust Washers
Capless Fuel Filler
Capless Fuel Filler
Transmission Sump PanTransmission Sump Pan
Body Structural InsertsBody Structural Inserts
Starter End CapStarter End CapOil Sump/PanOil Sump/Pan
Oil Filter HousingOil Filter Housing
Spoilers, Air VentsSpoilers, Air Vents
Turbo SystemsTurbo Systems
BMC materials used in Exterior, Lighting, Body Structure Applications.
BMC Unsaturated Polyester Composites deliver excellent surface quality, painting and metalizing capabilities, tight tolerances, and high strength through temperatures in excess of 180°C, making them the logical choice for headlamp reflectors, exterior painted surfaces, heat shield shielding applications, and body structural supports.
BMC materials used in Exterior, Lighting, Body Structure Applications.
BMC Unsaturated Polyester Composites deliver excellent surface quality, painting and metalizing capabilities, tight tolerances, and high strength through temperatures in excess of 180°C, making them the logical choice for headlamp reflectors, exterior painted surfaces, heat shield shielding applications, and body structural supports.
BMC Automotive MaterialsBMC Automotive Materials
Properties/Units 304 324 675 ASTM Test Method
Linear Shrinkage, in/in <.0008 <.001 .001-.003 D955
Specific Gravity 1.77-2.05 1.80-1.95 1.80-1.90 D792
Barcoal Hardness 40-55 50-60 50-60 D2583
Water Absorption, 24 hrs. % .10-.20 .10-.30 .23-.27 D570
Flexural Strength, kpsi 11-24 11-16 11-14 D790
Flexural Modulus, Mpsi 1.5-2.2 1.5-1.8 1.8-2.0 D790
Tensile Strength kpsi 5-9 4-6 4-5 D638
Izod Impact, Notched, ft-lb/in 2-10 2-4 3-5 D256
Heat Deflection Temp., °F >500 >400 >500 D648
BMC Automotive MaterialsBMC Automotive Materials
Properties/Units 665 675 685 695 Dimension X
ASTM Test Method
Linear Shrinkage, in/in .0015 - .0025
.001-.003 .0015-.0025
.0002-.0020
.0000 - .0006
D955
Specific Gravity 1.65-1.70 1.80-1.90 1.72-1.85 1.72-1.85 1.80-1.90 D792
Barcoal Hardness 40-50 50-60 50-65 50-65 50-60 D2583
Water Absorption, 24 hrs. %
0.1-0.3 .23-.27 0.1-0.2 0.1-0.2 0.15-0.25 D570
Flexural Strength, kpsi 11-14 11-14 24-30 24-30 22-24 D790
Flexural Modulus, Mpsi 1.3-1.6 1.8-2.0 1.7-1.9 1.7-2.0 2.1-2.3 D790
Tensile Strength kpsi 4-5 4-5 8-11 8-11 8.5-9.5 D638
Izod Impact, Notched, ft-lb/in
3-5 3-5 11-17 10-17 15-17 D256
Heat Deflection Temp., °F
>500 >500 >500 >500 >500 D648
BMC materials used in high temperature under the hood applications.
BMC Polyester and Vinyl Ester Composites offer very high glass transition temperatures in excess of 175°C making them a perfect fit for highly functional powertrain components that must maintain their properties and dimensions across their operating range as well as exposure to high vibration loads and harsh fluids. This makes them an excellent choice for engine sealing applications, electronic throttle bodies, pump housings, and turbo systems.
BMC materials used in high temperature under the hood applications.
BMC Polyester and Vinyl Ester Composites offer very high glass transition temperatures in excess of 175°C making them a perfect fit for highly functional powertrain components that must maintain their properties and dimensions across their operating range as well as exposure to high vibration loads and harsh fluids. This makes them an excellent choice for engine sealing applications, electronic throttle bodies, pump housings, and turbo systems.
BMC materials used in Conductive and Specialty Applications.
As automotive systems and technologies evolve to meet new regulations, improve fuel economy, reduce environmental impacts and meet consumer demands, BMC’s flexibility in formulation enables high value material solutions in the most unique applications. From highly conductive composites for use in PEM Fuel Cell Bipolar Plates to very high strength composite materials with long term creep resistance meeting the extreme requirements in fuel cell stack end plates.
BMC materials used in Conductive and Specialty Applications.
As automotive systems and technologies evolve to meet new regulations, improve fuel economy, reduce environmental impacts and meet consumer demands, BMC’s flexibility in formulation enables high value material solutions in the most unique applications. From highly conductive composites for use in PEM Fuel Cell Bipolar Plates to very high strength composite materials with long term creep resistance meeting the extreme requirements in fuel cell stack end plates.Properties/Units 940 955 945 Test
Method
Application Use Temperature, °C
< 120 < 200 < 150
Linear Shrinkage, after postbake , in/in
0.0002 – 0.002
0.003 .0002-.0010
D955
Specific Gravity 1.78 – 1.83
1.78-1.82
1.75-1.95 D792
Bulk Resistivity, Ohm-cm 0.02 – 0.04
0.02 ESD Range
USFCC
Thermal Conductivity, in-plane W/m°C
45 45 < 1 E1461-92
Flexural Strength, kpsi 6.5 6.5-7.5 12-14 D790
Flexural Modulus, Mpsi 2.0 1.7 1.8-2.0 D790
Compressive Creep ,1000 hr @200PSI, %
< 0.003 < 0.0002
NA D695
Izod Impact, Notched, ft-lb/in
0.20 0.15 3 - 6 D256
Glass Transition Temperature, °C
190 > 250 150 - 160 D4065
The major environmental and social impacts of products throughout their life cycle along with the materials from which they are produced, is increasingly being recognized by customers across all market sectors. Many companies have embraced the importance of product sustainability, driven by environmental objectives and increased demand and prices of energy and resources.
The major environmental and social impacts of products throughout their life cycle along with the materials from which they are produced, is increasingly being recognized by customers across all market sectors. Many companies have embraced the importance of product sustainability, driven by environmental objectives and increased demand and prices of energy and resources.
BMC Sustainable Material SolutionsBMC Sustainable Material Solutions
Green BMC is manufactured using 100% soy based resin an
doffers properties comparable to standard to standard grades at
competitive costs.
Green BMC also provides a solution to thermoset reprocessing
but using pulverized molded BMC as 10% of its filler content.
Green BMC is manufactured using 100% soy based resin an
doffers properties comparable to standard to standard grades at
competitive costs.
Green BMC also provides a solution to thermoset reprocessing
but using pulverized molded BMC as 10% of its filler content.
Green BMCGreen BMC
BMC materials offer immediate solutions to this demand with core products that offer one of the lowest energy content and cost solutions in light weight/high performance materials.
BMC materials offer immediate solutions to this demand with core products that offer one of the lowest energy content and cost solutions in light weight/high performance materials.
BMCI has further responded to the demand for renewable materials by developing a line of bio-based BMC composites that employ the use of vegetable oils based resins, recycled fillers, and natural and organic fiber reinforcements.
BMCI has further responded to the demand for renewable materials by developing a line of bio-based BMC composites that employ the use of vegetable oils based resins, recycled fillers, and natural and organic fiber reinforcements.
Forward LightingForward Lighting
Typical application requirements• Temp : -40C to 180C• Tight tolerances and dimensional stability over
operating range/Low CLTE• High stiffness up to 180C• Long term creep resistance
Typical application requirements• Temp : -40C to 180C• Tight tolerances and dimensional stability over
operating range/Low CLTE• High stiffness up to 180C• Long term creep resistance
Process: Injection MoldingMaterial: BMC 304, 324 No Base Coat
Benefits of BMC: Lowest Cost vs. Performance Material
No Machining Operations Direct Metalized No Base Coat Low Fogging
Component Integration/Design Flexibility
High precision parts Very good dimensional stability
Excellent rigidity
Process: Injection MoldingMaterial: BMC 304, 324 No Base Coat
Benefits of BMC: Lowest Cost vs. Performance Material
No Machining Operations Direct Metalized No Base Coat Low Fogging
Component Integration/Design Flexibility
High precision parts Very good dimensional stability
Excellent rigidity
Headlamp design is one of key components vehicle designers depend on to give vehicles their soul and identity. BMC composites have been the materials of choice for automotive headlamp manufacturers worldwide for more than 20 years, due to their superior performance, low cost and flexibility in design.
BMC headlamp materials offer high temperature resistance combined with dimensional stability, and low coefficient of thermal expansion allowing for highly complex shapes and tight tolerances to be produced and maintained throughout their operational life.
Headlamp design is one of key components vehicle designers depend on to give vehicles their soul and identity. BMC composites have been the materials of choice for automotive headlamp manufacturers worldwide for more than 20 years, due to their superior performance, low cost and flexibility in design.
BMC headlamp materials offer high temperature resistance combined with dimensional stability, and low coefficient of thermal expansion allowing for highly complex shapes and tight tolerances to be produced and maintained throughout their operational life.
Engine SealingEngine Sealing
Process: Injection or Compression Molding
Material: BMC 675, 685, 695, 695HT Polyester and Vinyl Ester Composites
Benefits of BMC over Al, Mg: Piece Price Savings: 30-40% Tooling Cost Reduction Weight Savings: 25-30% Improved NVH/Damping PropertiesBenefits of BMC over PA66 Higher temperature capabilities Improved flatness of sealing flange Dimensional stability and creep
resistance Ease of coloring/aesthetics Supports larger bolts spans Excellent Flame Resistance (UL94
V-0)
Process: Injection or Compression Molding
Material: BMC 675, 685, 695, 695HT Polyester and Vinyl Ester Composites
Benefits of BMC over Al, Mg: Piece Price Savings: 30-40% Tooling Cost Reduction Weight Savings: 25-30% Improved NVH/Damping PropertiesBenefits of BMC over PA66 Higher temperature capabilities Improved flatness of sealing flange Dimensional stability and creep
resistance Ease of coloring/aesthetics Supports larger bolts spans Excellent Flame Resistance (UL94
V-0)
Typical application requirements• Temp : -40C to 130C• Tight tolerances and dimensional
stability over operating range• Flexural creep resistance to
maintain seal• Chemical resistance to under hood
fluids• Long term exposure to hot engine
oil
BMC Composites have demonstrated more than 20 years of success in replacing die cast metals in engine sealing applications. BMC’s high strength, and ability to maintain the required properties under long term exposure to high temperatures and hot engine oil make it the perfect choice to reduce cost and weight in applications such as cylinder head covers, oil pans, engine front and rear covers.
The stiffness of the material allows for less ribbing and total material use compared to Polyamide thermoplastics. Its inherent creep resistance allows for larger bolt spans, improved multi-planar sealing and/or added safety factor in maintaining constant surface pressures on the sealing flange preventing oil leakage and potential engine fires.
Heat Shields/Engine CoversHeat Shields/Engine Covers
Process: Injection Molding or Compression MoldingMaterial: BMC 304 Polyester, BMC 675, 695 Vinyl
Ester CompositeBenefits of BMC over PA, PPA: Piece Price Savings: 15-60% Higher Long Term Temperature Resistance Tg.>
200C Very Low Warpage No dimensional change with moisture absorption Ease of coloring/aesthetics Excellent Flame Resistance (UL94 V-0)Benefits of BMC over SMC: Piece Price Savings Less processing steps Flexibility of processing (injection or
compression) Design Flexibility/Functional Integration
Process: Injection Molding or Compression MoldingMaterial: BMC 304 Polyester, BMC 675, 695 Vinyl
Ester CompositeBenefits of BMC over PA, PPA: Piece Price Savings: 15-60% Higher Long Term Temperature Resistance Tg.>
200C Very Low Warpage No dimensional change with moisture absorption Ease of coloring/aesthetics Excellent Flame Resistance (UL94 V-0)Benefits of BMC over SMC: Piece Price Savings Less processing steps Flexibility of processing (injection or
compression) Design Flexibility/Functional Integration
BMC materials are specified as thermal barriers based on the high temperature properties to protect and/or insure the proper long term function for fuel pumps, tanks, injectors as well as other components located close to exhaust systems such as spare tires. With the proliferation of turbo chargers in more consumer transportation applications, engine covers are being employed to protect consumers from the hot turbo and/or EGR components located near the top of engines. These localized high temperatures exceed the capability of traditional engineering thermoplastic materials.
BMC materials are specified as thermal barriers based on the high temperature properties to protect and/or insure the proper long term function for fuel pumps, tanks, injectors as well as other components located close to exhaust systems such as spare tires. With the proliferation of turbo chargers in more consumer transportation applications, engine covers are being employed to protect consumers from the hot turbo and/or EGR components located near the top of engines. These localized high temperatures exceed the capability of traditional engineering thermoplastic materials.
Electronic Throttle Body/Air Control ValveElectronic Throttle Body/Air Control Valve
Process: Injection MoldingMaterial: BMC Dimension X, BMC L420 Polyester
Composite
Benefits of BMC over Aluminum: Piece Price Savings: 30-40% Tooling Cost Reduction Weight Savings: 25-30% Improved icing / no heating Eliminates coking performance issues Equivalent or better dimensional tolerances Print Tolerance: +/- 0.05mm flatness/roundness Improved safety during crash Reduced manifold dynamic loading
Process: Injection MoldingMaterial: BMC Dimension X, BMC L420 Polyester
Composite
Benefits of BMC over Aluminum: Piece Price Savings: 30-40% Tooling Cost Reduction Weight Savings: 25-30% Improved icing / no heating Eliminates coking performance issues Equivalent or better dimensional tolerances Print Tolerance: +/- 0.05mm flatness/roundness Improved safety during crash Reduced manifold dynamic loading
The potential benefits of plastic throttle bodies over die cast aluminum are many, but the integrated functions, very tight air flow specifications and hence dimensional requirements combined with an extreme operational environment make realizing these benefits a tremendous challenge.
BMCI has answered that challenge with the material innovation “Dimension X” a zero shrink polyester composite with very low CLTE that meets both long term durability and dimensional stability required in electronic throttle valves. In production since 2005 BMC Dimension X provides a high value material solution to meet the growing demands for cost and weight reduction while simultaneously delivering additional technical benefits over traditional aluminum parts.
The potential benefits of plastic throttle bodies over die cast aluminum are many, but the integrated functions, very tight air flow specifications and hence dimensional requirements combined with an extreme operational environment make realizing these benefits a tremendous challenge.
BMCI has answered that challenge with the material innovation “Dimension X” a zero shrink polyester composite with very low CLTE that meets both long term durability and dimensional stability required in electronic throttle valves. In production since 2005 BMC Dimension X provides a high value material solution to meet the growing demands for cost and weight reduction while simultaneously delivering additional technical benefits over traditional aluminum parts.
Electronic Throttle Body/Air Control ValveElectronic Throttle Body/Air Control Valve
Typical application requirements• Temp : -40C to 150C• Very tight tolerances • Dimensional stability for concentricity
of bore diameter over operating range
• Creep resistance• Chemical resistance to under hood
fluids
Benefits of BMC over High Performance ETP
Piece Price Savings: 30-75% Zero out of mold shrinkage Lower CLTE/better dimensional
stability Larger bores possible
Electric Motor ComponentsElectric Motor Components
Process: Injection MoldingMaterial: BMC 600, 604, 605, 620, 3001H,
1901 Polyester Composites
Benefits of BMC vs. High Performance Thermoplastics:
Piece Price Savings: 40-50% Improved dimensional stability
Better Creep Resistance Improved property retention over service
life Reduced noise
Higher Dielectric Strengths Lower Moisture Absorption
Process: Injection MoldingMaterial: BMC 600, 604, 605, 620, 3001H,
1901 Polyester Composites
Benefits of BMC vs. High Performance Thermoplastics:
Piece Price Savings: 40-50% Improved dimensional stability
Better Creep Resistance Improved property retention over service
life Reduced noise
Higher Dielectric Strengths Lower Moisture Absorption
Typical application requirements• Tight tolerances and dimensional stability over
operating range• 150°C continuous use temperature• High mechanical strength/stiffness• Chemical resistance• Good Resistivity/High dielectric strength• Flammability resistance (UL94V-0) and Arc
Resistance
Typical application requirements• Tight tolerances and dimensional stability over
operating range• 150°C continuous use temperature• High mechanical strength/stiffness• Chemical resistance• Good Resistivity/High dielectric strength• Flammability resistance (UL94V-0) and Arc
Resistance
The number of electric motors in automobiles continues to grow at a rapid pace as vehicle technologies evolve to meet new market demands. From small motors including starter motors, windshield wiper motors, pump motors, window lift motors, power steering motor, fan motors, compressor motors, and actuator motors to larger motors such as traction motors found in electric vehicles.
BMC offers customers a full range of high-performance composite solutions for motor coil forms, insulators, end caps, armature shaft insulators, brush holders, housings, stator encapsulations, etc. BMC materials offer properties such high heat resistance, arc resistance, flame resistance, moisture resistance, and electrical insulation required in these demanding applications.
The number of electric motors in automobiles continues to grow at a rapid pace as vehicle technologies evolve to meet new market demands. From small motors including starter motors, windshield wiper motors, pump motors, window lift motors, power steering motor, fan motors, compressor motors, and actuator motors to larger motors such as traction motors found in electric vehicles.
BMC offers customers a full range of high-performance composite solutions for motor coil forms, insulators, end caps, armature shaft insulators, brush holders, housings, stator encapsulations, etc. BMC materials offer properties such high heat resistance, arc resistance, flame resistance, moisture resistance, and electrical insulation required in these demanding applications.
BULK MOLDING COMPOUNDS, BULK MOLDING COMPOUNDS, INC.INC.
““Complete Composite Solutions”Complete Composite Solutions”
BULK MOLDING COMPOUNDS, BULK MOLDING COMPOUNDS, INC.INC.
““Complete Composite Solutions”Complete Composite Solutions”
Contact:
Jim Cederstrom,
Automotive Business
Development
Phone: 248.766.7111
Email: [email protected]
Contact:
Jim Cederstrom,
Automotive Business
Development
Phone: 248.766.7111
Email: [email protected]
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forward lighting
airbag control unit housing
transmission stator
Electronic throttle control housing
motor armatures
valve cover
starter motor
electrical motor housing
Fluid impeller
BMC Automotive ComponentsBMC Automotive Components
gear shift linkage