Search
the marketplace
through 230,000 Chemicals and Raw Ingredients
through 8,000+ Supplier owned storefronts
Industries
Sustainability
Products
Cosmetic Ingredients
Food Ingredients
Knowde for Suppliers
Browse
Sample
Chat
Request
Search
Products
Mitsubishi Chemical Group Corporation Brand
All Mitsubishi Chemical Group Corporation
Search products
12 Products found on Mitsubishi Chemical Group Corporation
Semitron® CMP XL20
Polymer Name:
Polyamide-imide (PAI)
Physical Form:
Rods, Plates, Tube
Features:
High Tolerance, Cost Effective, High Strength, Odorless, Wear Resistant, High Stiffness
Density:
1400.0 - 1400.0 kg/m³
Tensile Modulus:
3962.9 - 3962.9 MPa
Color:
Green
Semitron® CMP XL20 Polyamideimide PAI shapes were specifically developed for CMP ring applications in the semiconductor and electronics industry, due to their excellent long wear life in CMP slurries. In addition to these characteristics, Semitron® CMP XL20 PAI components display high strength and stiffness, and outstanding wear resistance over a broad range of temperatures, making this grade the ideal solution for dynamic applications in process environments.Features:Specifically developed for CMP ring applications in the semiconductor and electronics industryExcellent long wear life in CMP slurriesHigh strength and stiffnessOutstanding wear resistance over a broad range of temperaturesBenefits:Ideal solution for dynamic applications in process environmentsSignificantly lower cost per waferOutperforms PPS up to 20x in most processesPromotes fewer edge defects and better uniformityApplications:CMP ring applications in the semiconductor and electronics industryCan be used in clamp rings, trench rings, screws, pins, and shower headsSuitable for use in centering pins, focus rings, insulators, vacuum pads, and wafer guides.
Semitron® ESd 410C PEI
Polymer Name:
Polyether Imide (PEI)
Physical Form:
Plates, Rods
Features:
Static-Dissipative, Dimensional Stability, High Tolerance, Low Thermal Expansion, ESD Protection, Odorless, Low Water Absorption
Density:
1410.0 - 1410.0 kg/m³
Tensile Modulus:
5850.0 - 5850.0 MPa
Color:
Black
Semitron® ESd 410C PEI Polyetherimide electro static dissipative shapes are the perfect solution for semiconductor and electronics handling environments. These shapes offer exceptional dimensional stability and can withstand temperatures up to 410º F without degradation. The unique properties of Semitron® ESd 410C PEI make it ideal for a wide range of applications, including handling tray, circuit board, hard disk drive, and sensitive processing equipment applications.Features:Surface resistivity of 104 - 106 ohms/sq.Thermal performance to 210 °C (410 °F)Low stress for tight tolerance machiningHigh strength and stiffnessBenefits:Excellent dimensional stabilityResistant to high temperaturesLow stress for tighter tolerances during machiningReduced coefficient of linear thermal expansionMinimal water absorptionApplications:Handling Trays: Trays manufactured from Semitron® ESd 410C dissipate static charges reliably and are dimensionally stable. (Prior materials: PPS, PEEK, Vespel® PI)Circuit Boards: Semitron ESd 410C is ideal for use in circuit boards as it offers excellent dimensional stability and can withstand high temperatures without degradation.Hard Disk Drives: Semitron ESd 410C is an ideal material for use in hard disk drives due to its high strength, low stress properties and exceptional dimensional stability.Sensitive Processing Equipment: Semitron ESd 410C offers low stress properties, minimal water absorption and high strength making it an ideal choice for use in sensitive processing equipment.
Semitron® ESd 420 PEI
Polymer Name:
Polyether Imide (PEI)
Physical Form:
Rods, Plates, Tube
Features:
High Stiffness, Static-Dissipative, High Tolerance, High Strength, ESD Protection, Odorless
Density:
1320.0 - 1320.0 kg/m³
Tensile Modulus:
3850.0 - 3850.0 MPa
Color:
Black
Semitron® ESd 420 PEI Polyetherimide electro static dissipative shapes exhibit high strength and stiffness, and excellent resistivity in the 10E5 to 10E8 ohms per square range. This grade in particular excels in high temperature environments, making it ideal for extreme structural applications in semiconductor and electronics markets.Features:High strength and stiffnessExcellent resistivity in the 10E5 to 10E8 ohms per square rangeSuitable for high temperature environmentsSurface resistivity: 106 - 109 ohms/sqBenefits:Ideal for extreme structural applications in semiconductor and electronics marketsOnly truly dissipative plastic product for use in high temperature applicationsCan withstand harsh conditions while maintaining its electrostatic propertiesApplications:Semiconductor and electronics industryHigh temperature structural applications such as in electronic components and equipment, where electrostatic discharge (ESD) protection is necessary.Can be used in electronic packaging, automotive, aerospace, and other industries where static control is critical.
Semitron® ESd 420V PEI
Polymer Name:
Polyether Imide (PEI)
Physical Form:
Rods, Plates, Tube
Features:
High Stiffness, Static-Dissipative, Dimensional Stability, High Tolerance, High Strength, ESD Protection, Odorless
Density:
1480.0 - 1480.0 kg/m³
Tensile Modulus:
5450.0 - 5450.0 MPa
Color:
Black
Semitron® ESd 420V PEI Polyetherimide electro static dissipative shapes, a high-performance material designed for use in the semiconductor and electronics industries. With its unique combination of properties, this grade offers a range of benefits for device handling and test applications.Features:High strength and stiffness, making it suitable for extreme structural applicationsExcellent resistivity in the 10E5 to 10E8 ohms per square range, ensuring reliable electrostatic dissipationHeat deflection temperature of 419° F / 215° C, making it suitable for high temperature environmentsNot subject to dimensional change as a result of exposure to moistureBenefits:Suitable for use in a range of applications within the semiconductor and electronics industriesOffers reliable performance in extreme conditionsCost-effective alternative for applications that do not require the thermal performance of ultra-high performance materialsApplications:Device handling and test applications within the semiconductor and electronics industriesSuitable for use in high temperature environments, including extreme structural applications.
Semitron® ESd 480 PEEK
Polymer Name:
Polyetheretherketone (PEEK)
Physical Form:
Rods, Plates, Tube
Features:
Chemical Resistant, Static-Dissipative, Dimensional Stability, High Tolerance, ESD Protection, Odorless
Density:
1460.0 - 1460.0 kg/m³
Tensile Modulus:
5900.0 - 5900.0 MPa
Color:
Black
Semitron® ESd 480 Polyetheretherketone PEEK electro static dissipative shapes are a top choice for critical test fixture and wafer handling applications in wet process tools, where static dissipation is critical. These shapes are specifically designed to provide excellent chemical resistance properties and high dimensional stability under varying environmental conditions.Features:Excellent chemical resistance propertiesHigh dimensional stability under varying environmental conditionsSurface resistivity: 106 - 109 ohms/sqBenefits:Ideal for critical test fixture and wafer handling applications in wet process toolsProvides a dissipative range of 106 - 109 ohms/sq, ensuring static dissipation is criticalDimensionally stable, making it ideal for critical test fixture applicationsApplications:Test fixture and wafer handling applications in wet process toolsStructural applications in wet process tools where static dissipation is importantWell-suited for use in wafer handling and other structural applications in wet process tools where static dissipation is important.
Semitron® ESd 490HR PEEK
Polymer Name:
Polyetheretherketone (PEEK)
Physical Form:
Rods, Plates, Tube
Features:
Good Thermal Stability, High Stiffness, Static-Dissipative, Non Sloughing, Dimensional Stability, High Tolerance, High Strength, ESD Protection, Odorless
Color:
Black
Semitron® ESd 490HR Polyetheretherketone PEEK electro static dissipative shapes offer similar physical properties as Semitron® ESd 480 PEEK, but exhibit a higher resistivity value in the 10E8 to 10E10 ohms per square range. Semitron® ESd 490HR PEEK components are thermally stable to temperatures of 490° F / 270° C without degradation, and also possess high structural strength and stiffness combined with excellent dimensional stability. Furthermore, this particular grade is non-sloughing, which is why it is an ideal solution for socket, nest, and contactor manufacturing for test equipment, and other electronic device handling applications.Features:High resistivity value in the 10E8 to 10E10 ohms per square rangeThermally stable to temperatures of 490° F / 270° C without degradationHigh structural strength and stiffnessExcellent dimensional stabilityNon-sloughingBenefits:Ideal for socket, nest, and contactor manufacturing for test equipmentSuitable for electronic device handling applicationsNon-sloughing feature makes it a good option for applications where debris generation is a concernHigh thermal stability and dimensional stability make it suitable for high-temperature and critical applicationsApplications:Socket, nest, and contactor manufacturing for test equipmentElectronic device handling applicationsOther high-temperature and critical applications requiring high resistivity, thermal stability, and dimensional stability.
Semitron® ESd 500 HR PTFE
Polymer Name:
Polytetrafluoroethylene (PTFE)
Physical Form:
Rods, Plates
Features:
Thermally Insulating, ESD Protection, Odorless, Good Thermal Stability, Low Coefficient of Friction, Chemical Resistant, Static-Dissipative, Low Friction, Dimensional Stability, High Tolerance
Color:
White
Semitron® ESd 500HR Polytetrafluoroethylene PTFE electro static dissipative shapes offer an excellent combination of low frictional properties, outstanding dimensional stability, and a high resistivity range of 10E9 to 10E11 ohms per square. Reinforced with a proprietary synthetic mica, Semitron® ESd 500HR PTFE is thermally stable up to temperatures of 500° F / 260° C without degradation, and possesses high thermal insulation and a low coefficient of friction. Due to these characteristics, this grade is ideal for applications where controlled bleed off of static charges is critical.Features:Reinforced with a proprietary synthetic mica for improved performanceLow frictional properties and outstanding dimensional stabilityHigh resistivity range of 10E9 to 10E11 ohms per squareThermally stable up to temperatures of 500° F / 260° C without degradationHigh thermal insulation and low coefficient of frictionBenefits:Ideal for applications where controlled bleed off of static charges is criticalCan withstand high temperatures without degradationLow coefficient of friction and high thermal insulation provide improved performance in various applicationsApplications:Inserts for sensitive devices to reduce damage from static dischargeOther applications where controlled bleed off of static charges is critical and PTFE is typically used.Suitable for use in various industries including semiconductor and electronics, aerospace, and industrial machinery.
Semitron® ESd 520HR PAI
Polymer Name:
Polyamide-imide (PAI)
Physical Form:
Rods, Plates, Tube
Features:
High Tolerance, High Strength, ESD Protection, Odorless, Very Good Heat Resistance, Good Mechanical Properties, Static-Dissipative
Color:
Black
Semitron® ESd 520HR Polyamide-imide PAI electro static dissipative shapes are a unique and advanced solution for test equipment and device handling applications within the semiconductor and electronics industry. The product possesses the unique ability to resist dielectric breakdown at high voltages, and maintains its performance throughout the 100V to 1000V voltage range while offering the mechanical performance needed to excel in demanding applications.Features:Resists dielectric breakdown at high voltagesMaintains performance throughout the 100V to 1000V voltage rangeHigh strength and heat resistanceSurface resistivity of 10E10 to 10E12 ohms per squareBenefits:High mechanical strength results in longer useful life of the test heads and greater units (tested) per hour.Minimizes the risk of 'leakage' (cross-talk)Retains its surface resistivity at electrical forces greater than 100 volts.Applications:IC Device Testing Fixtures: A test fixture manufacturer recently began using Semitron ESd 520HR that combines electrostatic dissipation (ESD) and high mechanical strength, to make integrated circuit test heads.Test nests, sockets, and contactors for test equipment and other device handling components.Other applications where controlled bleed off of static charges is critical.
Semitron® HPV ESd PEEK
Polymer Name:
Polyetheretherketone (PEEK)
Physical Form:
Rods
Features:
Static-Dissipative, Low Friction, Dimensional Stability, High Tolerance, Good Machinability, Anti-Static, ESD Protection, Anti-Wear Properties
Color:
Black
Semitron® HPV ESd PEEK shapes are specially formulated with specific additives that make them an excellent performer in wear and friction applications where antistatic properties are essential. These shapes are specifically designed for electronic fixture applications that require a high degree of dimensional stability over an extended thermal range, as well as precise machinability.Features:Contains specific additives that provide excellent performance in wear and friction applicationsAntistatic properties for electronic fixture applicationsHigh dimensional stability over an extended thermal rangePrecise machinabilityBenefits:Improved performance in wear and friction applicationsReduced risk of static discharge damage to electronic componentsLong-lasting dimensional stability in high-temperature environmentsEasy to machine for precise applicationsApplications:Electronic fixture applications such as test sockets, contactors, and nestsWear and friction applications where antistatic properties are essentialHigh-temperature applications that require dimensional stability and precise machiningVacuum chamber components and other semiconductor equipment.
Semitron® MDS 100
Polymer Name:
Polyetheretherketone (PEEK)
Physical Form:
Plates, Rods
Features:
Low Moisture Absorption, High Rigidity, Dimensional Stability, High Tolerance, Good Machinability, Moisture Resistant, High Performance, Odorless, Good Stability, High Stiffness, High Strength
Density:
1510.0 - 1510.0 kg/m³
Tensile Modulus:
11000.0 - 11000.0 MPa
Color:
Grey
Semitron® MDS 100 modified Polyetheretherketone PEEK shapes offer a remarkable combination of strength, stiffness, and stability. This grade in particular was developed for use in uncontrolled application environments where a high level of precision is required. Due to this, Semitron® MDS 100 components are often used as test sockets, nests, and fixtures in test and package equipment throughout the semiconductor and electronics industry.Features:Remarkable combination of strength, stiffness, and stabilityDeveloped for use in uncontrolled application environments where a high level of precision is requiredMoisture absorption of 0.10% at 24 hrs. (per ASTM D570)Thermal performance to 210 °C (410 °F)Flexural modulus > 1,400,000 psiBenefits:Ideal for test sockets, nests and fixtures in test and package equipmentSuitable for use in semiconductor and electronics industryCan withstand harsh, uncontrolled environmentsLow moisture absorption ensures dimensional stabilityHigh thermal performance and flexural modulus ensures durability and precisionApplications:Test sockets, nests and fixtures in test and package equipmentOther applications in the semiconductor and electronics industry that require a high level of precision and stability in uncontrolled environments.
Semitron® MP-370
Polymer Name:
Polyetheretherketone (PEEK)
Physical Form:
Plates
Features:
Good Thermal Stability, Low Moisture Absorption, Dimensional Stability, High Tolerance, Good Machinability, High Performance, Odorless, Excellent Toughness, Good Stability, High Strength
Density:
1650.0 - 1650.0 kg/m³
Tensile Modulus:
4450.0 - 4450.0 MPa
Color:
Grey
Semitron® MP 370 shapes exhibit excellent moisture absorption and thermal resistance, while also maintaining outstanding strength and dimensional stability. As a result, this grade is often selected for test socket applications where precision machining is critical, and complex geometries are prevalent.Features:Excellent moisture absorptionHigh thermal resistanceOutstanding strength and dimensional stabilityExcellent machinabilityBenefits:Allows for precision machining and complex geometries in test socket applicationsProvides greater strength and dimensional stability compared to unfilled PEEK materialsLow internal stresses and no "soft center" issues associated with injection molded blanksApplications:Test sockets for the semiconductor manufacturing industryPrecision machining and complex geometries in various industries where high thermal resistance and moisture absorption are required.
Semitron® MPR-1000
Polymer Name:
Polyamide-imide (PAI)
Physical Form:
Rods, Plates
Features:
Very Good Heat Resistance, Low Outgassing, Chipping Resistance, High Tolerance, High Durability, Good Machinability
Density:
1470.0 - 1470.0 kg/m³
Tensile Modulus:
6050.0 - 6050.0 MPa
Color:
Brown, Yellow
Semitron® MPR 1000 - an advanced engineering material that is specially developed for use in the semiconductor and electronics industry. This material boasts excellent heat resistance and low erosion rates in plasma chambers, making it a top choice for vacuum chamber applications such as etch, CVD, and ion implant.Features:Longevity: Increased life in plasma chambers (up to 25X over polyimide in ozone)Clean: Low ionic metal content and low out-gassingValue: Lower overall cost in use compared to traditional materials used in vacuum chamber applications such as quartz, ceramics, and engineering plasticsBenefits:Long-lasting performance in plasma-based vacuum chambersLow maintenance and cost-effective solutionClean and efficient, suitable for semiconductor and electronics industryApplications:Clamp ringsTrench ringsScrewsPinsShower headsCentering pinsFocus ringsInsulatorsVacuum padsWafer guidesSemitron® MPR 1000 is a versatile material that is ideal for use in vacuum chamber applications within the semiconductor and electronics industry. With its outstanding heat resistance and low erosion rates, this material is a cost-effective and efficient solution that ensures longevity and clean performance in plasma-based vacuum chambers.